JP2019070363A - Deep water temperature difference power generation apparatus - Google Patents
Deep water temperature difference power generation apparatus Download PDFInfo
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- JP2019070363A JP2019070363A JP2017197453A JP2017197453A JP2019070363A JP 2019070363 A JP2019070363 A JP 2019070363A JP 2017197453 A JP2017197453 A JP 2017197453A JP 2017197453 A JP2017197453 A JP 2017197453A JP 2019070363 A JP2019070363 A JP 2019070363A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63B—SHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
- B63B35/00—Vessels or similar floating structures specially adapted for specific purposes and not otherwise provided for
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K61/00—Culture of aquatic animals
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03G—SPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
- F03G7/00—Mechanical-power-producing mechanisms, not otherwise provided for or using energy sources not otherwise provided for
- F03G7/04—Mechanical-power-producing mechanisms, not otherwise provided for or using energy sources not otherwise provided for using pressure differences or thermal differences occurring in nature
- F03G7/05—Ocean thermal energy conversion, i.e. OTEC
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/30—Energy from the sea, e.g. using wave energy or salinity gradient
Abstract
Description
本発明は一端の上部に大きな内外径を具備すると共に水面上の水排出用開口を備えた深層水貯蔵槽と前記深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を有する深層水取水構造物を大型筒円筒状に具備し深層水を少ないエネルギーでくみ上げると共に大型筒円筒型気密空間に備えられた作動気体の流れにより回転する大型内側回転部材により大電力発電が可能な深層水温度差発電装置に関する。
なお、本発明における”大型筒円筒”とは円筒の筒の内径が円筒の内外径幅に比較して”大型”で円筒の長さが円筒の外形に比較して短かく前記内外径幅と同程度からその十倍程度の長さで立体的に一定の容積がある内外径が大きな大型円筒空間を意味する。
The present invention comprises a deep water storage tank having a large inner and outer diameter at the top of one end and having a water discharge opening on the water surface, and a riser pipe having a deep water intake opening at the other end below the deep water storage tank. Equipped with deep water intake structure in large cylinder cylindrical shape to pump deep water with little energy and enable large electric power generation by large inner rotating member rotated by flow of working gas provided in large cylinder cylindrical airtight space The present invention relates to a deep-water temperature-difference power generator.
In the present invention, the term "large cylinder" means that the inside diameter of the cylinder is "large" compared to the inside and outside diameter width of the cylinder, and the length of the cylinder is short compared to the outside diameter of the cylinder. It means a large cylindrical space with a large and small inside and outside diameter with a three-dimensionally fixed volume with a length of about the same to about ten times.
日本の国土は世界第60位であるが、日本近海の海の深さは深いので日本の排他的経済区域の海水の容量は世界第1位であり、深層水を自然エネルギーとして利用することは重要である。本出願人は漁撈生簀及び漁撈生簀を兼ねる養殖生簀(特開2011-217615)、津波対策浮島(特開2015−214861)を既に提案している。 Japan is the world's 60th place in the world, but the depth of the sea near Japan is deep, so the volume of seawater in Japan's exclusive economic zone is the world's No. 1 and using deep water as natural energy is important. The applicant has already proposed aquaculture ginger (Japanese Unexamined Patent Application Publication No. 2011-217615) serving both as a fishing ground and a fishing ground, and a tsunami countermeasure floating island (Japanese Unexamined Patent Application Publication No. 2015-214861).
本発明は新規な深層水温度差発電装置を提供し、深層水を少ないエネルギーでくみ上 げると共に大電力の深層水温度差発電をすることを第一の目的とする。
本発明の第二の目的は前記深層水温度差発電装置を利用する深層水温度差発電環状漁業装置を提供することである。
本発明の第三の目的は前記深層水温度差発電装置を利用する深層水温度差発電津波対策鎖状環状漁業装置を提供することである。
The present invention provides a novel deep water temperature difference power generation device, and it is a first object of the present invention to pump up deep water with little energy and generate large power deep water temperature difference power generation.
A second object of the present invention is to provide a deep water temperature differential cyclic power generation system using the deep water temperature differential power generator.
A third object of the present invention is to provide a deep water temperature difference power generation tsunami countermeasure chain-like annular fishery apparatus using the deep water temperature difference power generation apparatus.
本願発明は、一端の上部に大きな外径を具備すると共に水面上の水排出用開口を備えた深層水貯蔵槽と前記深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を有する深層水取水構造物を大型筒円筒状に具備し深層水を少ないエネルギーでくみ上げると共に大型筒円筒型気密空間に備えられた作動気体の流れにより回転する大型内側回転部材により大電力発電が可能な深層水温度差発電装置を提供するものである。
請求項1に記載の深層水温度差発電装置は、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵され海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備える大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型筒円筒状円筒深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記大型筒円筒状深層水貯蔵浮体部材の大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から表層水が挿入される筒状表層水貯蔵浮体部材と、前記筒状表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する第一の気密性部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性部材と、前記蒸発器と前記凝縮器を連結する作動流体連結管を具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して前記大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
請求項2に記載の深層水温度差発電装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された前記凝縮器と隣の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ複数個の前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する複数個の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
請求項3に記載の深層水温度差発電装置は、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備えた深層水貯蔵槽と前記深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記深層水貯蔵槽の内部を貫通し内部の水面が前記深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな内部貫通部材とを有し前記深層水貯蔵槽内で上部の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記内部貫通部材を前記深層水貯蔵槽の上部に移動させ前記水排出用開口より前記深層水貯蔵槽に貯蔵された深層水を外部に排出する深層水貯蔵浮体部材と、底部から挿入される表層水を内蔵する表層水貯蔵浮体部材と、前記深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間と前記前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性部材により結合され前記大型筒円筒型気密空間の作動気体空間と円筒状略等間隔の角度で配置される複数個の前記深層水貯蔵浮体部材と、複数個の前記深層水貯蔵浮体部材の空気排出開口と接続され前記深層水貯蔵槽内で上部の空気を自然エネルギー発電手段により排気する空気排気手段と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性部材により結合され前記大型筒円筒型気密空間と円筒状略等間隔の角度で配置される複数個の前記表層水貯蔵浮体部材と、前記蒸発器と隣の前記凝縮器を連結する作動流体連結管を具備し、前記深層水貯蔵槽内で前記内部貫通部材の上部の空気を排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記複数個の第一の気密性部材に内蔵された第一連結管を通過した前記作動気体が前記深層水貯蔵槽内に内蔵する凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記蒸発器を通過して気体の作動流体となり前記複数個の第二の気密性部材に内蔵された第二連結管に備えられた先端ノズルを介して前記大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
請求項4に記載の深層水温度差発電装置は、前記大型筒円筒型気密空間と円筒状略等間隔の角度で配置される前記複数個の深層水貯蔵浮体部材と、前記大型筒円筒型気密空間と円筒状略等間隔の角度で配置される複数個の前記表層水貯蔵浮体部材と、前記深層水貯蔵浮体部材と隣の前記表層水貯蔵浮体部材を結合する前記断熱性遮断結合部材を具備する請求項2〜3記載の深層水温度差発電装置である。
請求項5に記載の深層水温度差発電環状漁業装置は、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備える大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型筒円筒状深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記大型筒円筒状深層水貯蔵浮体部材の大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から表層水が挿入される筒状表層水貯蔵浮体部材と、前記筒状表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する第一の気密性部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性部材と、前記蒸発器と前記凝縮器を連結する作動流体連結管を具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して前記大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
請求項6に記載の深層水温度差発電環状漁業装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された前記凝縮器と隣の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
請求項7に記載の深層水温度差発電環状漁業装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置を具備し、前記円筒状深層水貯蔵槽内で前記内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記前記凝縮器を連結する前記複数個の第一の気密性部材に内蔵された第一連結管を通過した前記作動気体は前記円筒形深層水貯蔵槽内に内蔵する作動流体の凝縮器により液体の作動流体となり前記液体の作動流体は前記作動流体連結管を介し前記蒸発器を通過して気体の作動流体となり前記複数個の第二の気密性部材に内蔵された第二連結管に備えられた先端ノズルを介して大型筒円筒型気密空間に備えられた作動気体の流れにより回転する前記大型内側回転部材の略等間隔の角度の固定された回転翼に噴射すると共に前記円筒状形深層水貯蔵槽から排出された深層水を前記大型円型気密空間の大型円筒内の海に排出することを特徴とする。
請求項8に記載の深層水温度差発電津波対策環状装置は、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵され海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備える大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型筒円筒状深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記大型筒円筒状深層水貯蔵浮体部材の大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から表層水が挿入される筒状表層水貯蔵浮体部材と、前記筒状表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する第一の気密性部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性部材と、前記蒸発器と前記凝縮器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記大型筒円筒型気密空間の円筒内で前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽から排出された深層水を貯蔵し貯蔵された前記深層水を前記大型筒円筒状円筒深層水貯蔵槽の円筒状内海に排出する深層水貯蔵装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記大型筒円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記深層水貯蔵装置から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
請求項9に記載の深層水温度差発電津波対策環状装置は、作動流体深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記水排出用開口より前記円筒状深層水貯蔵槽から排出された深層水を貯蔵し貯蔵された前記深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出する深層水貯蔵装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする 。
請求項10に記載の深層水温度差発電津波対策環状装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部の材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記水排出用開口より前記円筒状深層水貯蔵槽から排出された深層水を貯蔵し貯蔵された前記深層水を前記大型筒円筒状外形円筒浮体部材群の円筒内海に排出する深層水貯蔵装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出する。
請求項11に記載の深層水温度差発電津波対策鎖状環状装置は、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材を具備する請求項8〜10記載の深層水温度差発電津波対策鎖状環状装置である。
The present invention is a deep water storage tank having a large outer diameter at one end and having a water discharge opening on the water surface, and a riser pipe having a deep water intake opening at the other end of the deep water storage tank at the lower end. The large water intake structure with large diameter is arranged in a large cylinder and the deep water is pumped up with little energy and large electric power can be generated by the large inner rotating member rotated by the flow of working gas provided in the large cylinder cylindrical airtight space. Deep water temperature difference power generation apparatus.
The deep water temperature difference power generation device according to claim 1 comprises a large cylindrical cylindrical air-tight space having a large internal and external diameter for containing a gas of working fluid, a plurality of intermediate balls or intermediate rollers, and a plurality of intermediate balls or intermediates. A large outer diameter support member having an inner side wall engaged with a roller, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers, and a fixed rotary blade having approximately equally spaced angles for rotation by the flow of working gas An upper air layer and an upper air layer having a large internal diameter at the top of one end and a rotating body structure incorporated in the large cylindrical cylindrical air tight space and substantially parallel to the sea surface; A large cylindrical cylindrical deep water storage tank having an upper air discharge opening for discharging the air and a water discharge opening on the water surface, and a deep water intake at the other end of the large cylindrical cylindrical deep water storage tank at the bottom Riser pipe with an opening When the water surface of the inside is penetrated inside the deep water intake structure equipped with the above-mentioned large cylinder cylindrical cylindrical deep water storage tank, and the inside is the same as the water surface outside the large cylinder cylindrical cylindrical deep water storage tank The air in the upper air layer is exhausted by natural energy means in the large cylindrical cylindrical deep water storage tank having a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the large cylindrical cylindrical cylindrical deep water By moving the water surface in the storage tank above the water surface outside the large cylindrical cylindrical deep water storage tank, the cylindrical internal penetration member is moved to the upper part of the large cylindrical cylindrical deep water storage tank, and the water is discharged. A large cylindrical cylindrical deep water storage floating body member for discharging the deep water stored in the large cylindrical cylindrical deep water storage tank to the outside through the opening, and the large cylindrical cylindrical deep water storage tank housed in the large cylindrical cylindrical deep water storage tank Working fluid condenser and A cylindrical surface water storage floating body member arranged outside the large cylindrical cylindrical deep water storage tank of the large cylindrical cylindrical deep water storage floating body member and into which surface water is inserted from the bottom, and the cylindrical surface water storage floating body member The first airtight member incorporating a first connecting pipe that connects the evaporator of the working fluid contained therein, the working gas space of the large cylindrical cylindrical airtight space, and the condenser; And a plurality of second airtight members disposed at substantially equal angular intervals in a cylindrical shape and having a second connecting pipe for connecting the working gas space of the large cylindrical cylindrical air-tight space and the evaporator. And a working fluid connecting pipe for connecting the evaporator and the condenser, and exhausting the air above the cylindrical internal penetration member in the large cylindrical cylindrical deep water storage tank to form the large cylindrical cylindrical cylinder. The large cylindrical cylindrical deep layer is used as the water surface in the deep water storage tank By moving the cylindrical internal penetrating member to the upper part by moving it to the upper side than the water surface outside the storage tank, the deep layer water stored from the water discharge opening is discharged out of the large cylindrical cylindrical deep layer water storage tank Deep water is taken into the large cylindrical cylindrical deep water storage tank from the deep water intake opening by moving the seawater or lake water in the riser pipe to the upper part and circulating the seawater or lake water in the deep water intake structure And the working gas that has passed through the first connecting pipe that connects the working gas space of the large-size cylindrical cylindrical air-tight space and the condenser together with the condenser in the large-size cylindrical cylindrical deep water storage tank. As the working fluid, the working fluid of the liquid passes through the working fluid connection pipe, passes through the evaporator built in the cylindrical surface layer water storage floating body member, becomes the working fluid of the gas, and is provided in the second connection pipe Ahead It injects to the said fixed rotary blade of the substantially equally-spaced angle of the said large sized inner side rotation member via an end nozzle.
The deep-water temperature-difference power generator according to claim 2, comprising: a condenser passing through the working fluid shell deep water; an evaporator passing through the working fluid shell surface water; and a large inside and outside diameter at the top of one end A cylindrical deep water storage tank having a layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and a lower part of the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end penetrates the inside of the cylindrical deep water storage tank, and when the water surface inside is the same as the water surface outside the cylindrical deep water storage tank, the water discharge opening And a cylindrical inner penetrating member whose specific gravity to be closed is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep water storage By moving it above the water surface outside the tank A cylindrical deep water storage floating body member for moving a cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside; The surface layer water inserted from the bottom and the cylindrical surface water storage floating member incorporating the evaporator, and a plurality of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape. A large cylinder cylindrical outer cylinder floating body member group, a large cylinder cylindrical air tight space with a large inside and outside diameter for containing a gas of working fluid, a plurality of intermediate balls or rollers, and a plurality of intermediate balls or rollers A large outer diameter bearing member having an engaging inner side wall, an outer side wall engaging with the plurality of intermediate balls or intermediate rollers, and fixed rotating blades at substantially equal angles for rotation by the flow of working gas The A rotating body structure having a large inner rotating member and substantially parallel to a sea surface built in the large cylindrical cylindrical air-tight space, and a magnet and a coil interlocked by rotation of the large inner rotating member and gear interlocking are arranged. A power generator generating electric power as known by electromagnetic induction, the large cylindrical outer cylindrical floating body member group disposed in the lower part of the large cylindrical cylindrical airtight space, the large cylindrical cylindrical airtight space, and a plurality of the cylinders The large cylindrical cylinder type comprising a plurality of first airtight column members incorporating a first connecting pipe for connecting the condensers incorporated in the deep water reservoir floating body member, and a tip nozzle jetted to the rotary wing A plurality of second airtight column members incorporating a second connecting pipe connecting the airtight space and the evaporator, and a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape and a cylindrical surface layer Front built in water storage float A plurality of adiabatic shut-off members incorporating a working fluid connection pipe connecting a condenser and the next adjacent evaporator, and exhausting air above the cylindrical internal penetration member in the cylindrical deep water storage tank And moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank to move the cylindrical internal penetrating member upward and storing the deep water stored from the water discharge opening. Is discharged to the outside of the cylindrical deep water storage tank to move the seawater or lake water in the riser pipe to the upper part and circulate the seawater or lake water in the plurality of cylindrical deep water storage floating body members. The working gas which has taken deep water from the intake opening into the cylindrical deep water storage tank and has passed through the plurality of first connecting pipes connecting the large cylindrical cylindrical airtight space and the condenser is the cylindrical deep layer Inside the water storage tank The plurality of condensers store the liquid working fluid, and the liquid working fluid passes through the working fluid connection pipe and passes through the plurality of evaporators incorporated in the cylindrical surface water storage floating body member. It is characterized in that the working fluid of the gas is jetted to the fixed rotating blades at substantially equal angles of a large inner rotating member via tip nozzles provided in the plurality of second connection pipes.
The deep water temperature difference power generation device according to claim 3 comprises a large cylindrical cylindrical air-tight space having a large internal and external diameter for containing a gas of working fluid, a plurality of intermediate balls or intermediate rollers, and the plurality of intermediate balls or intermediates. A large outer diameter support member having an inner side wall engaged with a roller, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers, and a fixed rotary blade having approximately equally spaced angles for rotation by the flow of working gas A rotating body structure substantially parallel to the sea surface built in the large cylindrical cylindrical air tight space, and a large inside and outside diameter at the top of one end, and an upper air layer and the upper air A deep water storage tank having an upper air discharge opening for discharging the layer air and a water discharge opening on the water surface, and a riser pipe having a deep water intake opening at the other end in the lower part of the deep water storage tank Deep water intake structure The deep water which has an internal penetrating member whose specific gravity for closing the water discharge opening is smaller than water when the internal water surface penetrates the inside of the deep water storage tank and the inside water surface is the same as the water surface outside the deep water storage tank In the storage tank, the air in the upper part is exhausted by natural energy means, and the water surface in the deep water storage tank is moved above the water surface outside the deep water storage tank to move the inner penetrating member to the upper part of the deep water storage tank And a surface water storage floating body member incorporating surface water to be inserted from the bottom, and a deep water storage floating body member for discharging the deep layer water stored in the deep water storage tank from the water discharge opening to the outside; A condenser for a working fluid contained in a deep water storage tank, an evaporator for a working fluid contained in the surface water storage float member, the large cylindrical cylindrical airtight space, and the condenser connected to each other Several that incorporate one connecting pipe A plurality of deep water storage floating body members connected by a first air tight member and arranged at an angle substantially equal to that of the working gas space of the large cylindrical cylindrical air tight space and a plurality of deep water storages Air discharge means connected to the air discharge opening of the floating body member and exhausting the upper air in the deep water storage tank by natural energy power generation means, and a tip nozzle for jetting the rotor to the large cylindrical cylindrical airtight space A plurality of the surface waters connected by a plurality of second airtight members containing a second connection pipe connecting the evaporators and arranged at an angle substantially equal to that of the large cylindrical cylindrical airtight space with a cylinder at substantially equal intervals A storage floating body member, and a working fluid connection pipe connecting the evaporator and the adjacent condenser, wherein air in the upper portion of the inner penetrating member is exhausted in the deep water storage tank to Outside the deep water storage tank The internal penetrating member is moved to the upper part by moving it to the upper part from the water surface, and the deep layer water stored from the water discharge opening is discharged to the outside of the deep layer water storage tank, and the seawater or lake water in the riser pipe is And circulating the seawater or lake water in the deep water intake structure to take in deep water from the deep water intake opening into the deep water storage tank and working gas space of the large cylindrical cylindrical airtight space and The working gas which has passed through the first connection pipe built in the plurality of first airtight members connecting the condenser becomes a working fluid of liquid by the condenser built in the deep water storage tank, The working fluid of the liquid passes through the evaporator through the working fluid connection pipe and becomes the working fluid of the gas, and the tip nozzle provided in the second connection pipe built in the plurality of second airtight members is used. Through before Characterized by injecting said rotor blades are fixed in a substantially equally spaced angles of a large inner rotating member.
The deep layer water temperature difference power generation device according to claim 4 comprises the plurality of deep layer water storage floating body members disposed at substantially regular intervals in a cylindrical shape and the large cylindrical cylindrical airtight space, and the large cylindrical cylindrical airtight type. A plurality of the surface water storage floating body members disposed at substantially equal equidistant intervals with a space, and the heat insulation blocking coupling member connecting the deep water storage floating body member and the adjacent surface water storage floating body member It is a deep water temperature difference electric power generating apparatus of the Claims 2-3.
The deep water temperature difference power generation annular fishery apparatus according to claim 5, wherein the working fluid gas is contained, and the inside of the cylinder is a large cylindrical cylindrical airtight space having a large inside and outside diameter for passing sunlight and a plurality of intermediate balls or A large outer diameter support member having an intermediate roller and an inner side wall engaged with the plurality of intermediate balls or intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers and rotated by the flow of working gas A rotating body structure substantially parallel to the sea surface built in the large cylindrical cylindrical air tight space, comprising a large inner rotating member provided with fixed rotating blades at substantially equal angles, and a large inside and outside at the top of one end Large cylindrical cylindrical deep water storage tank having a diameter, an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and the large cylindrical cylindrical deep layer Water storage tank A deep water intake structure comprising a riser pipe having a deep water intake opening at the other end in the lower part and the inside of the large cylindrical cylindrical deep water storage tank, the water surface inside is the large cylindrical cylindrical deep water The upper air layer in the large cylindrical cylindrical deep water storage tank has a cylindrical internal penetrating member whose specific gravity for closing the water discharge opening is smaller than water when the water surface is the same as the water surface outside the storage tank. The internal cylinder penetrating member is moved by evacuating it by natural energy means and moving the water surface in the large cylindrical cylindrical deep water storage tank above the water surface outside the large cylindrical cylindrical deep water storage tank. A large cylindrical / cylindrical deep water storage floating body member which is moved to the upper part of a cylindrical cylindrical deep water storage tank and discharges deep water stored in the large cylindrical cylindrical deep water storage tank from the water discharge opening to the outside; The large cylinder cylindrical cylinder deep A condenser of a working fluid contained in the water storage tank, and a cylindrical member disposed outside the large cylindrical cylindrical deep water storage tank of the large cylindrical cylindrical deep water storage floating body member and into which surface water is inserted from the bottom portion A surface water storage floating body member, an evaporator of a working fluid contained in the cylindrical surface water storage floating body member, and a first connecting pipe connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser A second connection pipe is provided which includes the first airtight member to be incorporated and the tip nozzle to be jetted to the rotor and the working gas space of the large cylindrical cylindrical airtight space is connected to the evaporator, and the cylinders are substantially equidistantly spaced And a plurality of second airtight members disposed at an angle of a and a working fluid connecting pipe connecting the evaporator and the condenser, and the inside of the cylinder in the large cylindrical cylindrical deep water storage tank The air in the upper part of the penetrating member is exhausted, and the large cylindrical cylindrical deep water By moving the water surface in the storage tank above the water surface outside the large-size cylindrical cylindrical deep-layer water storage tank, the cylindrical internal penetrating member is moved upward, and the deep-layer water stored from the water discharge opening is large-sized Deep water from the deep water intake opening by discharging outside the cylindrical cylindrical cylindrical deep water storage tank and moving seawater or lake water in the riser pipe to the upper part and circulating seawater or lake water in the deep water intake structure Is taken into the large cylindrical cylindrical deep water storage tank, and the working gas which has passed through the first connecting pipe connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser is the large cylindrical cylinder. Liquid working fluid by the condenser in the hollow cylindrical deep water storage tank, the working fluid of the liquid passes through the working fluid connecting pipe and passes through the evaporator built in the cylindrical surface water storage floating body member Gaseous Deep water discharged from the deep water storage tank and injected as a dynamic fluid onto the fixed rotating blades at substantially equal angle angles of the large inner rotating member through a tip nozzle provided on the second connection pipe Are discharged to the sea in the large cylinder of the large cylinder cylindrical air-tight space.
The deep water temperature difference power generation annular fishery apparatus according to claim 6 comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large inside and outside diameter above one end. A cylindrical deep water storage tank including an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface, and the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end at the lower end penetrates the inside of the cylindrical deep water storage tank and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep layer Move above the water surface outside the water storage tank A cylindrical deep water storage floating body member for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside A heating means for heating surface water inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members, and the cylindrical shape Large-sized cylindrical outer floating body member group in which surface water storage floating body members are alternately arranged in a cylindrical shape, and a large-sized large internal cylinder having an inside and outside diameter substantially parallel to a sea surface which contains a working fluid gas and passes sunlight therethrough. A large external bearing member comprising a cylindrical air-tight space, a plurality of intermediate balls or rollers, and an inner wall engaging with the plurality of balls or rollers, and the plurality of rollers or balls And an inner wall engaged with the intermediate roller, and a large inner rotating member provided with fixed rotating blades fixed at substantially equal angles so as to be rotated by the flow of the working gas; A rotating body structure substantially parallel to a sea surface, a power generating apparatus arranged with a magnet and a coil interlocked with the rotation of the large inner rotating member and gear interlocking, and generating electric power as known by electromagnetic induction, the large cylindrical cylindrical airtight space A first connecting pipe for connecting the large cylindrical cylindrical outer floating member member group disposed in the lower part of the above, the large cylindrical cylindrical airtight space, and the condenser built in the plurality of cylindrical deep water storage floating body members And a plurality of first connection members for connecting the large cylindrical cylindrical air-tight space and the evaporator. Two airtight column members and a circle Of a plurality of cylindrical deep water storage floating members alternately arranged in a circle, and a plurality of working fluid connection pipes for connecting the condenser incorporated in the cylindrical surface water storage floating member and the next adjacent evaporator Heat insulating barrier coupling member, the cylindrical deep water storage floating body member and the cylindrical surface water storage floating body member, which have an air space of 5 meters or more and a weight capable of withstanding tsunami and can withstand tensile force An annular outer wall floating body member in which a large number of floating body members having one or two holes having a thickness and a height are joined by a coupling member, and a floating body provided on any of the plurality of floating body members and having fresh water at the bottom Member, a natural energy power generation device such as wind power generation disposed in any of the plurality of floating body members, and a fishing gear or aquaculture device held by the annular outer wall floating body member, the cylindrical deep water storage Said in the tank The air in the upper part of the cylindrical inner penetrating member is exhausted, and the water surface in the cylindrical deep water storage tank is moved above the water surface outside the cylindrical deep water storage tank to move the cylindrical inner penetrating member to the upper part. The deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, the seawater or lake water in the riser pipe is moved to the top, and the seawater or lake water in the cylindrical deep water storage floating member is By circulating, deep water is taken from the deep water intake opening into the cylindrical deep water storage tank, and passes through the plurality of first connecting pipes connecting the large cylindrical cylindrical airtight space and the condenser. The working gas becomes a working fluid of liquid by the condenser built in the cylindrical deep water storage tank, and the working fluid of liquid is built in the cylindrical surface water storage floating body member through the working fluid connection pipe Was done The working fluid of gas passes through the number of evaporators and becomes a working fluid of a gas and is jetted to the substantially equally-spaced fixed rotating blades of the large inner rotating member through the tip nozzles provided in the plurality of second connection pipes. And the deep water discharged from the cylindrical deep water storage tank is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space.
The deep water temperature difference power generation annular fishery apparatus according to claim 7 comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large inside and outside diameter above one end. A cylindrical deep water storage tank including an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface, and the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end at the lower end penetrates the inside of the cylindrical deep water storage tank and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep layer Move above the water surface outside the water storage tank A cylindrical deep water storage floating body member for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside A heating means for heating surface water inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members, and the cylindrical shape Large-sized cylindrical-cylindrical outer-circumferential-floating-body members, in which surface water storage floating members are alternately arranged in a cylindrical shape, and gas of working fluid are contained therein, and the inside of the cylinder is large. A large outer diameter support member having a cylindrical cylindrical air-tight space, a plurality of intermediate balls or intermediate rollers, and an inner side wall engaged with the plurality of intermediate balls or intermediate rollers, and the plurality of intermediate balls or Is incorporated in the large cylindrical cylindrical air-tight space, and includes an outer side wall engaged with the intermediate roller and a large inner rotating member provided with fixed rotating blades of substantially equal angle to rotate by the flow of the working gas A rotating body structure substantially parallel to the sea surface, a magnet and a coil interlocked with the rotation of the large inner rotating member and gear interlocking, a power generating apparatus generating electric power as known by electromagnetic induction, a lower part of the large airtight space And a first connecting pipe for connecting the condenser built in the large cylindrical cylindrical air-tight space and the plurality of cylindrical deep water storage floating bodies, A plurality of first airtight columnar members to be built in, a tip nozzle to be jetted to the rotor, and a plurality of second built-in second connecting pipes to connect the large cylindrical cylindrical airtight space and the evaporator Airtight column member and circle Fluid connection connecting a plurality of cylindrical deep water storage floating members alternately arranged in a shape and a plurality of the condensers and a plurality of adjacent evaporators built in the cylindrical surface water storage floating members A plurality of adiabatic barrier coupling members incorporating a pipe, the cylindrical deep water storage floating body member and the cylindrical surface water storage floating body member located outside the air layer of 5 meters or more and a weight capable of withstanding tsunami An annular outer wall float body member in which a large number of float body members having one or two holes having a thickness and height that can withstand a tensile force are joined by a coupling member, and provided on any of the plurality of float body members A floating body member having fresh water at the bottom, a natural energy power generation device such as wind power generation disposed on any of the plurality of floating body members, and a fishing gear or aquaculture device held by the annular outer wall floating member Said cylindrical deep layer In the water storage tank, the air in the upper part of the inner penetrating member is exhausted, and the water surface in the cylindrical deep water storage tank is moved above the water surface outside the cylindrical deep water storage tank, thereby the upper part of the inner penetrating member And discharge the deep water stored from the water discharge opening to the outside of the cylindrical deep water storage tank, and move the seawater or lake water in the riser pipe to the upper part, or seawater in the deep water intake structure or The plurality of connecting the condenser with the working gas space of the large cylindrical cylindrical airtight space and taking the deep water from the deep water intake opening into the cylindrical deep water storage tank by circulating lake water The working gas that has passed through the first connection pipe built in each first airtight member becomes a working fluid of liquid by the working fluid condenser built in the cylindrical deep water storage tank, and the working fluid of the liquid Is the working fluid line It becomes a working fluid of gas passing through the evaporator through a pipe and becomes a large cylindrical cylindrical air-tight space through a tip nozzle provided on a second connection pipe built in the plurality of second airtight members. The deep-sized water injected from the cylindrical deep water storage tank is injected onto the large-sized circular air-tightness while being jetted onto the fixed rotating blades of the substantially uniform angle of the large-sized inner rotating member rotating by the flow of the working gas It is characterized by discharging to the sea in the large cylinder of space.
The deep water temperature difference power generation tsunami countermeasure annular device according to claim 8 includes a gas of a working fluid and a large cylindrical cylindrical airtight space having a large inside and outside diameter for allowing sunlight to pass through the inside of the cylinder, and a plurality of intermediate balls Alternatively, the large outer diameter support member having an intermediate roller and an inner wall engaging with the plurality of intermediate balls or the intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or the intermediate rollers rotate with the flow of working gas Therefore, it has a large inner rotating member equipped with fixed rotating blades at substantially equal angle angles, and a rotating body structure built in the large cylindrical cylindrical air tight space and substantially parallel to the sea surface, and a large inside and outside at the top of one end Large cylindrical cylindrical deep water storage tank having a diameter, an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and the large cylindrical cylindrical deep layer Water storage The deep water intake structure comprising a riser pipe having a deep water intake opening at the other end in the lower part of the large water intake structure and the large cylindrical cylindrical deep water storage tank penetrate the inside of the large cylindrical cylindrical deep water storage tank The air of the upper air layer in the large cylindrical cylindrical deep water storage tank has a cylindrical internal penetrating member whose specific gravity for closing the water discharge opening is smaller than water when the water surface is the same as the water surface outside the water storage tank Is discharged by natural energy means, and the water surface in the large cylindrical cylindrical deep water storage tank is moved above the water surface outside the large cylindrical cylindrical deep water storage tank by moving the water surface inside the large cylindrical cylindrical deep water storage tank A large cylindrical / cylindrical deep water storage floating body member which is moved to the upper part of a cylindrical cylindrical deep water storage tank and discharges deep water stored in the large cylindrical cylindrical deep water storage tank from the water discharge opening to the outside; Said large cylinder cylindrical cylinder A condenser for a working fluid contained in a layered water storage tank, and a cylinder disposed outside the large cylindrical cylindrical deep water storage tank of the large cylindrical cylindrical deep water storage floating body member and into which a surface water is inserted from the bottom portion First connecting pipe connecting the surface layer water storage floating body member, the evaporator of the working fluid contained in the cylindrical surface water storage float body member, the working gas space of the large cylindrical cylindrical air tight space, and the condenser And a second connecting pipe for connecting the evaporator and the working gas space of the large cylindrical cylindrical air-tight space, which has a first air-tight member containing the first air-tight member and a tip nozzle for injecting the rotor. A plurality of second airtight members disposed at angular intervals, a plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe connecting the evaporator and the condenser, and the cylindrical surface water Located on the outside of storage floating body member and has a height above sea level of 10 meters or more An annular outer wall floating body member in which a large number of floating body members having a thickness capable of withstanding an air layer and a thickness and height capable of withstanding a tensile force and having a thickness and height are connected by a coupling member; A floating body member provided on any of the individual floating body members and having fresh water at the bottom, a natural energy device such as wind power generation disposed on any of the plurality of floating body members, and held by the annular outer wall floating body member The deep water stored and stored in the fishery device or the aquaculture device, and the deep water discharged from the large cylindrical cylindrical deep water storage tank from the water discharge opening in the cylinder of the large cylindrical cylindrical airtight space A deep-layer water storage device for discharging the large-diameter cylindrical cylindrical deep-layer water storage tank into the cylindrical inner water, and a chain-like annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member Cylinder depth Exhausting the air above the cylindrical internal penetrating member in the water storage tank and moving the water surface in the large cylindrical cylindrical deep water storage tank above the water surface outside the large cylindrical cylindrical deep water storage tank The cylinder internal penetration member is moved to the upper part, the deep water stored from the water discharge opening is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space, and the seawater or lake water in the riser pipe is on the upper part. Deep water is taken from the deep water intake opening into the large cylindrical cylindrical deep water storage tank by moving and circulating seawater or lake water in the large cylindrical cylindrical deep water storage floating member, and the large cylinder The working gas having passed through the plurality of first connection pipes connecting the cylindrical air-tight space and the condenser becomes working fluid of liquid by the condenser built in the large cylindrical cylindrical deep water storage tank, liquid The working fluid passes through the plurality of evaporators incorporated in the cylindrical surface water storage floating member through the working fluid connection pipe to become a working fluid of gas, and the tips provided on the plurality of second connection pipes The deep water discharged from the deep water storage device is injected onto the fixed rotating blades of the substantially uniform angle of the large inner rotating member through the nozzle and the sea in the large cylinder of the large cylindrical cylindrical airtight space is discharged from the deep water storage device It is characterized by
The deep water temperature difference power generation tsunami countermeasure annular device according to claim 9 comprises a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid shell surface water, and a large inside and outside diameter above one end. A cylindrical deep water storage tank including an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface, and the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end at the lower end penetrates the inside of the cylindrical deep water storage tank and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep layer Move to the top of the water surface outside the water storage tank A cylindrical deep water storage floating body member for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside A heating means for heating surface water inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members, and the cylindrical shape A large cylinder cylindrical outer cylinder floating body member group in which surface water storage floating body members are alternately arranged in a cylindrical shape, a large cylinder cylindrical air tight space with a large inside and outside diameter containing a gas of working fluid, and a plurality of intermediate balls or middle balls A large outer diameter support member having a roller and an inner wall engaging with the plurality of intermediate balls or the intermediate rollers, an outer wall engaged with the plurality of intermediate balls or the intermediate rollers, and a flow of working gas A rotating body structure substantially parallel to a sea surface built in the large cylindrical cylindrical air-tight space, comprising: a large inner rotating member provided with fixed rotating blades having substantially fixed equidistant angles for rotating; A magnet and coil interlocked with the rotation of the inner rotation member and gear interlock are arranged, and a power generator generating electric power as known by electromagnetic induction, and the large cylindrical outer contour cylindrical floating body member arranged under the large airtight space And a plurality of first airtight columns incorporating a first connecting pipe for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep water storage floating bodies. A plurality of second airtight column members including a tip nozzle for injecting to the rotor and a second connecting pipe for connecting the large cylindrical cylindrical air-tight space and the evaporator, and alternately arranged in a cylindrical shape Multiple cylindrical deep water reservoirs A plurality of adiabatic blocking coupling members incorporating working fluid connection pipes connecting the plurality of condensers incorporated in the floating body member and the cylindrical surface water storage floating body member and the plurality of adjacent evaporators; A cylindrical deep water storage floating body member and an air layer located on the outer side of the cylindrical surface water storage floating body member and having a height of 10 meters or more above sea level and a weight capable of withstanding tsunami and thickness and height capable of withstanding tensile force An annular outer wall floating body member having a plurality of floating body members having one or two holes joined by a coupling member, a floating body member provided on any of the plurality of floating body members and having fresh water at the bottom, A natural energy power generation device such as wind power generation disposed in any of a large number of floating body members, a fishery device or aquaculture device held by the annular outer wall floating member, and the cylindrical deep water storage from the water discharge opening Drain from tank Deep water storage device for storing the stored deep water and discharging the stored deep water to the sea in the large cylinder of the large cylindrical cylindrical airtight space; and a chain-like annular member in which the annular outer wall floating body member is connected by a connecting member An outer wall floating body member is provided, the air in the upper part of the cylindrical inner penetrating member is exhausted in the cylindrical deep water storage tank, and the water surface in the cylindrical deep water storage tank is a water surface outside the cylindrical deep water storage tank By moving it to the upper part, the cylindrical internal penetrating member is moved to the upper part, the deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, and seawater or lake water in the riser pipe By moving to the upper part and circulating seawater or lake water in the cylindrical deep water storage floating member, deep water is taken from the deep water intake opening into the cylindrical deep water storage tank and the large cylindrical cylindrical airtight space And the above The working gas that has passed through the plurality of first connection pipes connecting the condenser becomes a working fluid of the liquid by the condenser built in the cylindrical deep water storage tank, and the working fluid of the liquid is the working fluid connected Through the plurality of evaporators incorporated in the cylindrical surface water storage floating member through a pipe, the working fluid of gas is turned into a large working fluid through the tip nozzles provided in the plurality of second connection pipes as a working fluid of gas. The deep water discharged from the cylindrical deep water storage tank is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space while being jetted to the fixed rotary blades fixed at substantially equal angle of the members. It is characterized by
The deep water temperature difference power generation tsunami countermeasure annular device according to claim 10 comprises a condenser that passes through the working fluid depth water, an evaporator that passes through the working fluid surface water, and a large outside diameter at the top of one end. A cylindrical deep water storage tank including the upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface; and the cylindrical deep water storage tank incorporating the condenser The water discharges when the water surface inside the riser pipe having the deep water intake opening at the other end and the cylindrical deep water storage tank is the same as the water surface outside the cylindrical deep water storage tank in the lower part of the And a cylindrical inner penetrating member having a specific gravity smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is Moved above the water surface outside the deep water storage tank A cylindrical deep water storage float for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside. A member; a heating means for heating the surface water inserted from the bottom by natural energy power generation means; a cylindrical surface water storage floating body member incorporating the evaporator; a plurality of the cylindrical deep water storage floating body members; Surface layer water storing floating body members are alternately arranged in a cylindrical shape, a large cylindrical cylindrical outer cylindrical floating body member group, a large cylindrical cylindrical airtight space having a large inside and outside diameter containing a gas of working fluid, and a plurality of intermediate balls or Large profile support member having an intermediate roller and an inner wall engaging with the plurality of intermediate balls or intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers and a flow of working gas A rotating body structure substantially parallel to the sea surface, including a material of a large inner rotating portion provided with fixed rotating blades at substantially equal angle angles so as to rotate by the large cylinder cylindrical air tight space; A magnet and a coil interlocked with the rotation of the large inner rotating member and gear interlocking are disposed to generate a power as known in the art by electromagnetic induction, and the large cylindrical cylinder disposed in the lower part of the large cylindrical cylindrical airtight space A plurality of first airtightness housings including an outer cylindrical floating body member group, and a plurality of first connecting pipes for connecting the condensers incorporated in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep water storage floating bodies. Column members, a plurality of second airtight columns including a second connection pipe for connecting the large cylindrical cylindrical air-tight space and the evaporator, and a tip nozzle for injecting the rotor to the rotary wing; Circles alternately arranged in Heat insulating barrier couplings incorporating hydraulic fluid connection pipes connecting the plurality of condensers and the plurality of adjacent evaporators incorporated in the cylindrical deep water storage floating body member and the cylindrical surface water storage floating body member Member, an air layer located on the outside of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member and having a sea level height of 10 meters or more, and a weight capable of withstanding a tsunami and able to withstand a tensile force An annular outer wall floating body member in which a large number of floating body members having one or two holes having a thickness and a height are joined by a coupling member, and a floating body provided on any of the plurality of floating body members and having fresh water at the bottom A deep water discharged from the cylindrical deep water storage tank from the water discharge opening through a member, a natural energy power generation apparatus such as wind power generation disposed in any of the plurality of floating body members, and stored The deep water and the large water A deep-layer water storage device for discharging to the in-cylinder water of a cylindrically-cylindrical outer-circumferential floating-body member group, and a chain-like annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member The air in the upper part of the cylindrical internal penetration member is exhausted and the water surface in the cylindrical deep water storage tank is moved above the water surface outside the cylindrical deep water storage tank, thereby moving the cylindrical internal penetration member to the upper part The deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, and the seawater or lake water in the riser pipe is moved to the upper part, and the seawater in the cylindrical deep water storage floating body member or By circulating lake water, deep water is taken from the deep water intake opening into the cylindrical deep water storage tank and passes through the plurality of first connecting pipes connecting the large cylindrical cylindrical airtight space and the condenser. did The working gas becomes a working fluid of liquid by the condenser incorporated in the cylindrical deep water storage tank, and the working fluid of liquid is incorporated in the cylindrical surface water storage floating member through the working fluid connection pipe. The working fluid of the gas passes through the plurality of evaporators and becomes a working fluid of gas, and fixed to the fixed blades at substantially equal angles of a large inner rotating member through tip nozzles provided on the plurality of second connection pipes. The deep water discharged from the cylindrical deep water storage tank while being jetted is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space.
The deep water temperature difference according to claim 8, wherein the deep water temperature difference power generation and tsunami countermeasure chain-like annular device comprises a chain-like annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member. It is a chain ring system for power generation and tsunami countermeasures.
本発明の深層水温度差発電装置は、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを具備する深層水貯蔵槽を備えた深層水貯蔵浮体部材を大型筒円筒状に配置することにより深層水を少ないエネルギーでくみ上げると共に大型筒円筒型気密空間に備えられた作動気体の流れにより回転する大型内側回転部材により大電力発電が可能となる。
また本発明による深層水温度差発電環状漁業装置は、前記大型筒円筒型気密空間の円筒内部の海に深層水を排出し太陽光が大型円筒内部の海に入射しているので前記環状漁業装置内で多くの漁獲量が可能となる。
また本発明による津波対策鎖状深層水温度差発電環状漁業装置は、大型筒円筒型気密空間の外側に津波対策環状外壁浮島を配置し前記津波対策環状外壁浮島の端部を重複して複数個を鎖状に配置する津波対策鎖状環状漁業装置を提供ことにより津波の進入を緩和若しくは阻止することが可能となる。
The deep-water temperature-difference power generator of the present invention comprises an upper air layer having a large inner and outer diameter at the upper end of one end, an upper air discharge opening for discharging air in the upper air layer, and a water discharge opening on the water surface. The deep water storage floating body member having the deep water storage tank is arranged in a large cylindrical cylinder shape to draw deep water with little energy and to rotate by the flow of working gas provided in the large cylindrical cylindrical airtight space. The rotating member enables high power generation.
Further, in the deep water temperature difference power generation annular fishery device according to the present invention, since the deep water is discharged to the sea inside the cylinder of the large cylindrical cylindrical air tight space and the sunlight is incident on the sea inside the large cylinder, the annular fishery device Many catches are possible within.
Further, in the anti-tsunami chain deep water temperature difference power generation annular fishery device according to the present invention, the anti-tsunami annular outer wall floating island is disposed outside the large cylindrical cylindrical air tight space, and the end portion of the anti-tsunami annular outer wall floating island is overlapped It is possible to mitigate or block the approach of a tsunami by providing a tsunami countermeasure chain-like cyclic fishery apparatus in which the
本発明による深層水温度差発電装置の第一実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過するする蒸発器と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段を内蔵する円筒状表層水貯蔵浮体部材と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する例えば90度の角度で配置された4個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性柱部材と、前記大型深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材を結合する例えば45度の角度で連結する8等分方向の断熱性遮断結合部材と、前記断熱性遮断結合部材の中央部に配置され前記蒸発器と前記凝縮器を連結する作動流体連結管を具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。 In the first embodiment of the deep water temperature difference power generation device according to the present invention, a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and an inner and outer diameter containing the working fluid gas. A large external supporting member having a large cylindrical cylindrical airtight space, a plurality of intermediate balls or intermediate cylindrical rollers, and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, and the plurality of intermediate balls Alternatively, it is incorporated in the large cylindrical cylindrical air tight space including an outer side wall engaged with the intermediate cylindrical roller and a large inner rotating member provided with fixed rotating blades having substantially equal angle angles to rotate by the flow of the working gas. A rotating body structure substantially parallel to the sea surface, a magnet and a coil interlocked with the rotation of the large-sized inner rotating member and gear interlocking, and a power generator generating electric power as known by electromagnetic induction; Large cylindrical cylindrical deep layer water storage having a large inside and outside diameter, an upper air layer for discharging the air of the upper air layer, an upper air layer for discharging the air of the upper air layer, and a water discharging opening on the water surface A deep water intake structure comprising a tank and a riser pipe having a deep water intake opening at the other end under the large cylindrical cylindrical deep water storage tank and penetrating the inside of the large cylindrical cylindrical deep water storage tank The inner surface has the same surface as the outer surface of the large cylindrical cylindrical deep water storage tank, and the specific opening for closing the water discharge opening is a cylindrical inner penetrating member smaller than water; In the deep water storage tank, the air of the upper air layer is exhausted by natural energy means, and the water surface in the large cylindrical cylindrical deep water storage tank is moved above the water surface outside the large cylindrical cylindrical deep water storage tank The cylinder internal penetrating member by A large deep water storage floating body member which is moved to the upper part of the large cylindrical cylindrical deep water storage tank and discharges deep water stored in the large cylindrical cylindrical deep water storage tank from the water discharge opening to the outside; A cylindrical surface water storage floating body member incorporating heating means for heating surface water inserted from the bottom by means of natural energy power generation means disposed outside the large diameter cylindrical cylindrical deep water storage tank, and the large diameter cylindrical cylindrical airtight type For example, four first airtight column members arranged at an angle of 90 degrees, including a first connecting pipe connecting the working gas space in the space and the condenser, and a tip nozzle jetted to the rotor. A plurality of second airtight columns each containing a second connecting pipe for connecting the evaporator and the working gas space of the large cylindrical cylindrical airtight space and disposed at substantially equal intervals in a cylindrical shape; Deep water storage floating body member and the cylindrical surface Layer insulation water storage floating members are connected at an angle of 45 degrees, for example, an eight-dielectric insulating insulation connecting member, and a central portion of the heat insulating shielding connecting member connecting the evaporator and the condenser A working fluid connection pipe is provided, the air in the upper portion of the cylindrical internal penetrating member is exhausted in the large cylindrical cylindrical deep water storage tank, and the water surface in the large cylindrical cylindrical deep water storage tank is the large cylindrical cylinder. Water is moved to the upper part from the water surface outside the deep cylindrical deep water storage tank, the deep water stored in the water discharge opening is moved to the upper part from the large cylindrical cylindrical deep water storage tank outside the large cylindrical cylindrical deep water storage tank Deep water from the deep water intake opening by circulating the seawater or lake water in the riser pipe to the upper part and circulating the seawater or lake water in the deep water intake structure to the large cylindrical cylindrical deep water storage When water is taken into the tank The working gas that has passed through the first connecting pipe that connects the working gas space of the large-size cylindrical cylindrical air-tight space and the condenser is liquid that is contained in the large-size cylindrical cylindrical deep water storage tank by the condenser. The working fluid of the liquid passes through the working fluid connecting pipe, passes through the evaporator built in the cylindrical surface water storage floating body member through the working fluid connecting pipe, and becomes the working fluid of the gas and is provided in the second connecting pipe It injects to the said fixed rotary blade of the substantially equal angle of a large sized inner side rotation member via the tip nozzle.
本発明による深層水温度差発電装置の第二実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する複数の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
前記円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材は複数個の同心円上の内側円筒状にも交互に配置し外側同心円と内側同心円の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材が前記断熱性遮断結合部材を介して網状に連結された実施例も本発明の要旨の範囲である。
A second embodiment of the deep water temperature difference power generation system according to the present invention comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large inside and outside diameter above one end. A cylindrical deep water storage tank including an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface, and the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end at the lower end penetrates the inside of the cylindrical deep water storage tank and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep layer Move above the water surface outside the water storage tank A cylindrical deep water storage floating body member for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside A heating means for heating surface water inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members, and the cylindrical shape A large cylinder cylindrical outer cylinder floating body member group in which surface water storage floating body members are alternately arranged in a cylindrical shape, a large cylinder cylindrical air tight space with a large inside and outside diameter containing a gas of working fluid, and a plurality of intermediate balls or middle balls A large outer diameter support member having a cylindrical roller and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, an outer wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, and a working air A rotating body structure substantially parallel to a sea surface built in the large cylindrical cylindrical air tight space, comprising: A magnet and a coil interlocked with the rotation of the large inner rotation member and gear interlock are disposed, and a power generator generating electric power as known by electromagnetic induction, and the large cylindrical cylindrical outer cylinder disposed under the large airtight space A plurality of first airtight columns incorporating a floating body member group, a first connecting pipe for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep water storage floating bodies. Members and a plurality of second airtight column members including a tip nozzle for injecting to the rotor and including a second connecting pipe connecting the large cylindrical cylindrical airtight space and the evaporator; and alternately in a cylindrical shape Cylinders placed in A plurality of adiabatic blocking coupling members incorporating working fluid connection pipes connecting the plurality of condensers incorporated in the deep water storage floating body member and the cylindrical surface water storage floating body member and the plurality of adjacent evaporators And exhausting the air above the cylindrical inner penetrating member in the cylindrical deep water storage tank, and moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank By moving the cylindrical internal penetrating member to the upper part, discharging the deep water stored from the water discharge opening to the outside of the cylindrical deep water storage tank, and moving the seawater or lake water in the riser pipe to the upper part By circulating seawater or lake water in the cylindrical deep water storage floating body member, deep water is taken into the cylindrical deep water storage tank from the deep water intake opening and the large cylindrical cylindrical airtight space and the condenser Connecting multiple The working gas having passed through the first connection pipe becomes a working fluid of a liquid by the plurality of condensers contained in the cylindrical deep water storage tank, and the working fluid of the liquid flows through the working fluid connection pipe. Passing through the plurality of evaporators contained in the cylindrical surface layer water storage floating member, the working fluid of the gas becomes a working fluid of the gas via the tip nozzles provided on the plurality of second connection pipes It injects to the said fixed blade of the angle of a space | interval, It is characterized by the above-mentioned.
The plurality of cylindrical deep layer water storage floating body members and the cylindrical surface layer water storage floating body members alternately arranged in the cylindrical shape are alternately arranged in a plurality of concentric inner cylindrical shapes and a cylinder of an outer concentric circle and an inner concentric circle An embodiment in which the deep water storage floating body member and the cylindrical surface water storage floating body member are connected in a reticulated manner via the heat insulating blocking coupling member is also within the scope of the subject matter of the present invention.
本発明による深層水温度差発電装置の第二実施例は、外側同心円の円筒状に複数個の前記円筒状表層水貯蔵浮体部材を配置すると共に内側同心円の円筒状に複数個の前記円筒状深層水貯蔵浮体部材を断熱性遮断結合部材により連結して配置し必要ならば更に内側同心円の円筒状に複数個の前記円筒状表層水貯蔵浮体部材を配置して複数個の前記円筒状表層水貯蔵浮体部材と複数個の円筒状深層水貯蔵浮体部材のそれぞれを前記断熱性遮断結合部材連結する構成も本発明の要旨の範囲である。 In the second embodiment of the deep water temperature difference power generation device according to the present invention, a plurality of the cylindrical surface layer water storage floating members are arranged in a cylindrical shape of an outer concentric circle and a plurality of cylindrical deep layers in a cylindrical shape of the inner concentric circle. A plurality of the cylindrical surface water storage floating members are arranged in a cylindrical shape of the inner concentric circle if necessary, and the water storage floating members are connected by a heat insulating blocking coupling member, and a plurality of the cylindrical surface water storages are arranged. The configuration in which the heat insulating blocking coupling member is connected to each of the floating body member and the plurality of cylindrical deep water storage floating body members is also within the scope of the present invention.
前記大型筒円筒型気密空間の気密部材が公知の前記歯車連動以外例えば等分割に分割され,等分割気密部材が前記歯車連動を内蔵する分割気密部材とともに結合部材を介して組み立てられ、前記大型外形支承部材及び前記大型内側回転部材が例えば等分割に分割され、複数個の前記中間ボール或いは中間円筒コロと係合する内側壁を具備する前記大型外形支承部材が前記大型筒円筒型気密空間内に等分割に分割された大型外形支承部材均等部品を結合部材を介して組み立てられ、前記中間ボール或いは中間円筒コロと係合する外側壁を具備し作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する前記大型内側回転部材が前記大型筒円筒型気密空間内に例えば等分割に分割された前記大型内側回転部材均等部品を内側回転可能になるべくが結合部材を介して組み立てられる。 The air-tight member of the large cylindrical cylindrical air-tight space is divided into, for example, equally divided parts other than the known gear interlocking, and the equally divided airtight member is assembled through the coupling member together with the divided airtight member incorporating the gear interlock, the large external shape The large-sized outer support member having a support member and the large-sized inner rotation member divided into, for example, equally divided parts and having an inner side wall engaged with a plurality of the intermediate balls or intermediate cylindrical rollers A large-sized outer supporting member equivalent divided into equal parts is assembled through a connecting member, has an outer wall engaged with the intermediate ball or the intermediate cylindrical roller, and is rotated at substantially equal angles for rotation by the flow of working gas The large inner rotating member having the fixed rotors is divided into, for example, equally divided large inner rotating member equal parts in the large cylindrical cylindrical airtight space. Rotatably possible is assembled via a coupling member.
本発明によると、大型筒円筒状円筒深層水貯蔵槽或いは大型筒円筒状外形円筒浮体部材群の一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを具備する深層水貯蔵槽を備えた深層水貯蔵浮体部材を大型筒円筒状に配置することにより深層水を少ないエネルギーでくみ上げると共に大型筒円筒型気密空間に備えられた作動気体の流れにより回転する大型内側回転部材により大電力発電が可能となる。 According to the present invention, the upper end of the large cylindrical cylindrical deep water storage tank or the upper end of the large cylindrical outer contour cylindrical floating body member group is provided with large inner and outer diameters to discharge the air of the upper air layer and the upper air layer. A deep water storage floating body member having a deep water storage tank having an air discharge opening and a water discharge opening on the water surface is arranged in a large cylindrical cylinder shape to pump deep water with little energy and large cylindrical cylindrical air tightness. Large power generation is enabled by the large inner rotating member that is rotated by the flow of the working gas provided in the space.
本発明による深層水温度差発電環状漁業装置の第一実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過するする蒸発器と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転に連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段を内蔵する円筒状表層水貯蔵浮体部材と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する例えば90度の角度で配置された4個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性柱部材と、前記大型深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材を結合する例えば45度の角度で連結する8等分方向の断熱性遮断結合部材と、前記断熱性遮断結合部材の中央部に配置され前記蒸発器と前記凝縮器を連結する作動流体連結管と、前記円筒状表層水貯蔵浮体部材の外側に位置し海面上高さが5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。 The first embodiment of the deep water temperature differential power generation annular fishery apparatus according to the present invention incorporates a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a working fluid gas. In addition, the inside of the cylinder engages with a large cylindrical cylindrical air-tight space with a large inside and outside diameter substantially parallel to the sea surface through which sunlight passes, a plurality of intermediate balls or intermediate cylindrical rollers, and a plurality of intermediate balls or intermediate cylindrical rollers A large outer diameter bearing member having an inner side wall, an outer side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, and a large large angled wheel having a substantially equal angle fixed rotor for rotation by the flow of working gas A rotating body structure substantially parallel to the sea surface, having an inner rotating member and built in the large cylindrical cylindrical air-tight space, and a magnet and a coil interlocked with the rotation of the large inner rotating member are disposed by electromagnetic induction. The condenser includes a power generation apparatus for generating electric power, an upper air layer having a large inner and outer diameter at the upper end of one end, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on water surface Deep water intake structure and the large cylinder comprising a large cylindrical cylindrical deep water storage tank incorporating therein and a riser pipe provided with a deep water intake opening at the other end in the lower part of the large cylindrical cylindrical deep water storage tank The specific gravity for closing the water discharge opening is smaller than the water when the water surface inside the cylindrical cylindrical deep water storage tank penetrates and the water surface inside is the same as the water surface outside the large cylindrical cylindrical deep water storage tank The air of the upper air layer is exhausted by natural energy means in the large cylindrical cylindrical deep water storage tank, and the water surface in the large cylindrical cylindrical deep water storage tank is the large cylindrical cylindrical cylinder Above the water surface outside the deep water storage tank The inner cylinder penetrating member is moved to the upper part of the large cylindrical cylindrical deep water storage tank by moving to move the deep water stored in the large cylindrical cylindrical deep water storage tank to the outside from the water discharge opening. Cylindrical surface water storage containing a large deep water storage floating body member to be discharged, and heating means for heating surface water inserted from the bottom and disposed from the bottom of the large cylindrical cylindrical deep water storage tank by natural energy power generation means A floating body member, and four first airtight column members disposed at an angle of, for example, 90 degrees, incorporating a first connecting pipe connecting the working gas space of the large cylindrical cylindrical air-tight space and the condenser; A plurality of cylindrical first-arranged equidistant angles are internally provided with a second connection pipe for connecting the working gas space of the large cylindrical cylindrical air-tight space and the evaporator with a tip nozzle to be jetted to the rotor. Two airtight column members, For example, an eight-dielectric heat insulating barrier connecting member connecting the large deep water storage floating member and the cylindrical surface water storage floating member at an angle of 45 degrees, and disposed at a central portion of the heat insulating barrier connecting member A working fluid connecting pipe connecting the evaporator and the condenser, an air layer located outside the cylindrical surface water storage floating member and having a height above the sea level of 5 meters and a weight capable of withstanding a tsunami. An annular outer wall floating body member in which a large number of floating body members having one or two holes having a thickness and height which can withstand tensile force are joined by a coupling member, and any of the plurality of floating body members A floating body member having fresh water, a natural energy power generation device such as wind power generation disposed on any of the plurality of floating body members, a fishing gear or aquaculture device held by the annular outer wall floating member, the annular outer wall Floating member A chain-like annular outer wall floating body member joined by a coupling member is provided, the air in the upper part of the cylindrical internal penetrating member is exhausted in the large-size cylindrical cylindrical deep-water storage tank, and the large-sized cylindrical cylindrical deep-layer water storage tank The inner surface penetrating member is moved upward by moving the inner water surface above the water surface outside the large cylindrical cylindrical deep water storage tank, and the deep water stored from the water discharge opening is the large cylindrical cylinder Water from the deep water intake opening by discharging it out of the hollow cylindrical deep water storage tank and moving the seawater or lake water in the riser pipe upward and circulating the seawater or lake water in the deep water intake structure The working gas which has been taken into a large cylindrical cylindrical deep water storage tank and has passed through the first connecting pipe connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser is the large cylindrical cylindrical cylinder The condenser contained in the layer water storage tank becomes a working fluid of liquid, and the working fluid of the liquid passes through the working fluid connecting pipe and passes through the evaporator built in the cylindrical surface water storage float member It is characterized in that it becomes a working fluid of gas and injects to the fixed rotating blades at substantially equal angle of a large inner rotating member through a tip nozzle provided in the second connection pipe.
本発明による深層水温度差発電環状漁業装置の第二実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。 The second embodiment of the deep water temperature difference power generation annular fishery apparatus according to the present invention comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large inside and outside diameter above one end. A cylindrical deep water storage tank including the upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and the cylindrical deep water storage containing the condenser The riser pipe having the deep water intake opening at the other end in the lower part of the tank and the inside of the cylindrical deep water storage tank, the water surface inside being the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member having a specific gravity smaller than water for closing the discharge opening, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is Moved above the water surface outside the deep water storage tank By moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside, the cylindrical deep water storage A floating body member, a heating means for heating surface water to be inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members and the above Large-sized cylindrical-cylindrical-shaped outer-circumferential-floating-body members in which cylindrical surface layer water storage floating members are alternately arranged in a cylindrical shape, and gas of working fluid is contained therein. A large external bearing member comprising a large large cylindrical cylindrical airtight space, a plurality of intermediate balls or intermediate cylindrical rollers, and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers and the plurality A large inner rotating member provided with an outer wall engaged with the intermediate ball or the intermediate cylindrical roller and a large inner rotating member provided with fixed rotating blades at substantially equal angles for rotating by the flow of the working gas; A rotating body structure substantially parallel to the sea surface built in the inside, a magnet and a coil interlocked with the rotation of the large inner rotating member and gear interlocking, and a power generating apparatus generating electric power as known by electromagnetic induction; The large cylinder cylindrical outer cylinder floating body member group disposed in the lower part of the large air tight space, and the condenser built in the large cylinder cylindrical air tight space and the plurality of cylindrical deep water storage floating body members are connected A plurality of first air-tight columnar members incorporating a first connection pipe, and a tip nozzle jetted to the rotor are incorporated with a second connection pipe connecting the large cylindrical cylindrical air-tight space and the evaporator. Several second Airtight column member, a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape, a plurality of the condensers incorporated in the cylindrical surface water storage floating body member, and a plurality of adjacent the above A plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe connecting evaporators, an air layer of 5 meters or more located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member And an annular outer wall floating body member in which a large number of floating body members having one or two holes having a thickness and height capable of withstanding tsunami and having tensile strength and having a thickness and height are joined by a coupling member; A floating body member provided on any of the floating body members and having fresh water at the bottom, a natural energy power generation apparatus such as wind power generation disposed on any of the plurality of floating body members, and a fishing rod held by the annular outer wall floating body member Equipment or aquaculture equipment The air in the upper portion of the cylindrical inner penetrating member is exhausted in the cylindrical deep water storage tank, and the water surface in the cylindrical deep water storage tank is moved to the upper side from the water surface outside the cylindrical deep water storage tank. Thus, the cylindrical internal penetrating member is moved upward, the deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, and the seawater or lake water in the riser pipe is moved upward, By circulating seawater or lake water in a cylindrical deep water storage floating member, deep water is taken into the cylindrical deep water storage tank from the deep water intake opening, and the large cylindrical cylindrical airtight space and the condenser are The working gas which has passed through the plurality of first connecting pipes to be connected becomes a working liquid of liquid by the condenser built in the cylindrical deep water storage tank, and the working fluid of the liquid is through the working fluid connecting pipe. Before A plurality of the evaporators contained in the cylindrical surface layer water storage floating body member pass through to become a working fluid of gas and become substantially equal intervals of the large-sized inner rotating member through the tip nozzles provided on the plurality of second connection pipes. The deep water discharged from the cylindrical deep water storage tank is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space while being jetted to the rotor fixed at an angle of.
多数個の前記浮体部材を結合部材によって結合した環状外壁浮体部材の内部に前記円筒状深層水貯蔵浮体部材を配置して前記大型筒円筒型気密空間の円筒内部を太陽光が通過するので栄養塩を多く含んだ深層水を前記大型筒円筒型気密空間の円筒内部に排出するので好漁場となる。
多数個の前記環状外壁浮体部材は海面上垂直の前記穴を金属線のくさりにより結合されているので前記浮体部材の何れかに風力発電装置を設置しても転倒しない。
前記環状浮体部材により保持された漁撈装置或いは養殖装置は本出願人が既に提案している漁撈生簀及び漁撈生簀を兼ねる養殖生簀(特開2011−217615)も一実施例であるがそれに限定されないで公知の漁撈装置或いは養殖装置も実施可能である。
The cylindrical deep water storage floating body member is disposed inside an annular outer wall floating body member in which a large number of floating body members are joined by a coupling member, and sunlight passes through the inside of the large cylindrical cylindrical airtight space, and thus nutrient salts It is a good fishing ground because deep water containing a large amount of water is discharged into the inside of the large-sized cylindrical cylindrical airtight space.
Since a large number of the annular outer wall floating body members are connected to the holes perpendicular to the sea surface by means of a metal wire, installation of a wind power generator on any of the floating body members does not cause a fall.
The fishery apparatus or the aquaculture apparatus held by the annular floating body member according to the present invention is not limited to the fishery raw fish already proposed by the present applicant and the aquaculture raw fish which also serves as a fishery raw fish (Japanese Unexamined Patent Publication 2011-217615). Known fishing equipment or aquaculture equipment can also be implemented.
本発明による津波対策鎖状深層水温度差発電津波対策鎖状環状漁業装置の第一の実施形態は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過するする蒸発器と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転に連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段を内蔵する円筒状表層水貯蔵浮体部材と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する例えば90度の角度で配置された4個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性柱部材と、前記大型深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材を結合する例えば45度の角度で連結する8等分方向の断熱性遮断結合部材と、前記断熱性遮断結合部材の中央部に配置され前記蒸発器と前記凝縮器を連結する作動流体連結管と、前記円筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。 The first embodiment of the tsunami countermeasure chain deep water temperature difference power generation and tsunami countermeasure chain annular fishery apparatus according to the present invention includes a condenser that passes through working fluid to deep water and an evaporator that passes to working fluid to surface water. And a large cylindrical cylindrical air-tight space in which the working fluid gas is contained and the inside of the cylinder allows the sunlight to pass, a plurality of intermediate balls or intermediate cylindrical rollers, and a plurality of intermediate balls or intermediate cylindrical rollers. A large outer diameter bearing member having an inner side wall engaged with the outer side wall and an outer side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, and fixed rotor blades having substantially equal angles for rotating by the flow of working gas A rotating body structure substantially parallel to the sea surface built in the large cylindrical cylindrical air tight space, a magnet and a coil interlocking with the rotation of the large inner rotating member, and A power generating apparatus for generating power as known by induction, an upper air layer having a large inner and outer diameter at the upper end of one end, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface A deep water intake structure comprising: a large cylindrical cylindrical deep water storage tank incorporating the condenser; and a riser pipe provided with a deep water intake opening at the other end of the large cylindrical cylindrical deep water storage tank at the bottom of the large cylindrical cylindrical deep water storage tank The specific gravity for closing the water discharge opening is smaller than water when the water surface inside the large cylindrical cylindrical deep water storage tank is the same as the water surface outside the large cylindrical cylindrical deep water storage tank while penetrating the inside of the large cylindrical cylindrical deep water storage tank The air in the upper air layer is exhausted by natural energy means in the large cylindrical cylindrical deep water storage tank, and the water surface in the large cylindrical cylindrical deep water storage tank is the large cylindrical Outside cylindrical cylindrical deep water storage tank The inner layer penetrating member is moved to the upper part of the large cylindrical cylindrical deep water storage tank by moving it to the upper part from the surface, and the deep layer stored in the large cylindrical cylindrical deep water storage tank from the water discharge opening A cylinder incorporating a large deep water storage floating body member for discharging water to the outside, and a heating means disposed outside the large cylindrical cylindrical deep water storage tank and heating surface water inserted from the bottom by natural energy power generation means First air tightness arranged at an angle of 90 degrees, for example, which incorporates a first connecting pipe connecting the surface layer water storage floating body member, the working gas space of the large cylindrical cylindrical air tight space and the condenser A cylindrical member having a cylindrical member and a second connection pipe connecting the working gas space of the large-sized cylindrical cylindrical airtight space and the evaporator is provided and disposed at substantially equal angular intervals. Several second spirits A dense pillar member, an eight-dielectric insulating insulation coupling member connecting the large deep water storage floating member and the cylindrical surface water storage floating member at an angle of 45 degrees, for example, and the thermal insulation shielding coupling A working fluid connection pipe disposed in the center of the member and connecting the evaporator and the condenser, an air layer located on the outside of the cylindrical surface water storage floating member and having a height above sea level of 10 meters and a tsunami An annular outer wall floating body member in which a large number of floating body members having one or two holes having a thickness and height capable of withstanding weight and tensile strength and joined together by a coupling member; A floating body member having freshwater at the bottom thereof, a natural energy power generation apparatus such as wind power generation disposed on any of the plurality of floating body members, a fishing rod device or aquaculture held by the annular outer wall floating body member Device, and An annular outer wall floating body member in which the outer wall floating body member is joined by a coupling member, the air in the upper portion of the cylindrical inner penetrating member is exhausted in the large cylindrical cylindrical deep water storage tank, By moving the water surface in the cylindrical deep water storage tank above the water surface outside the large cylindrical cylindrical deep water storage tank, the cylindrical internal penetrating member is moved upward and the deep water stored from the water discharge opening is stored. Is discharged out of the large cylindrical cylindrical deep water storage tank, the seawater or lake water in the riser pipe is moved upward, and the deep seawater intake opening is circulated by circulating seawater or lake water in the deep water intake structure. The working gas passed through the first connecting pipe connecting the condenser with the working gas space of the large cylindrical cylindrical air tight space and taking the deep water into the large cylindrical cylindrical deep water storage tank The working fluid contained in the cylindrical cylindrical deep water storage tank becomes a working fluid of liquid, and the working fluid of the liquid is evaporated in the cylindrical surface water storage floating member via the working fluid connection pipe. It passes through the vessel and becomes a working fluid of gas, and injects to the fixed said fixed-wing of the substantially equal angle of a large inside rotation member via the tip nozzle with which said 2nd connecting pipe was equipped.
本発明による津波対策鎖状深層水温度差発電環状漁業装置の第二実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。 The second embodiment of the tsunami countermeasure chain deep water temperature difference power generation annular fishery apparatus according to the present invention comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and an upper end of one end. A cylindrical deep water storage tank and cylinder including a large inner and outer diameter, an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface Through the inside of the riser pipe with the deep water intake opening at the other end in the lower part of the deep water storage tank and the inside of the cylindrical deep water storage tank, and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical internal penetrating member having a specific gravity smaller than that of the water for closing the water discharge opening, wherein air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the deep water storage tank Inside the water surface from the water surface outside the deep water storage tank The cylindrical internal penetrating member is moved to the upper part of the cylindrical deep water storage tank by moving it to a portion, and the deep water stored in the cylindrical deep water storage tank is discharged to the outside from the water discharge opening. Deep water storage floating body member, heating means for heating surface water inserted from the bottom by natural energy power generation means, cylindrical surface water storage floating body member incorporating the evaporator, and a plurality of the cylindrical deep water storage floating bodies A large cylindrical outer cylindrical floating body member group in which the members and the cylindrical surface water storage floating body members are alternately arranged in a cylindrical shape, a gas containing a working fluid and the inside of the cylinder substantially parallel to the sea surface passing sunlight Large external supporting member comprising a large cylindrical cylindrical air-tight space having a large inner and outer diameter, a plurality of intermediate balls or intermediate cylindrical rollers, and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers And the large inner rotating member having the outer wall engaged with the plurality of intermediate balls or the intermediate cylindrical rollers, and the large inner rotating member provided with the fixed rotary blades at substantially equal angles for rotating by the flow of the working gas A power generator for generating electric power as is known by electromagnetic induction by arranging a rotating body structure substantially parallel to the sea surface built in a cylindrical airtight space, a magnet and a coil interlocked with rotation of the large inner rotating member and gear interlocking The large cylindrical cylindrical outer cylindrical floating body member group disposed under the large airtight space, the large cylindrical cylindrical airtight space, and the condensation contained in the plurality of cylindrical deep water storage floating bodies A plurality of first airtight column members containing a first connecting pipe for connecting the first and second connecting pipes, and a tip nozzle for injecting the rotor to a second connection for connecting the large cylindrical cylindrical airtight space and the evaporator Built-in tube Next to a plurality of second airtight column members, a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape, and a plurality of the condensers incorporated in a cylindrical surface water storage floating body member A plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe connecting the plurality of the evaporators, and the cylindrical deep water storage floating body members and the cylindrical surface water storage floating body members are positioned on the outside 10 An annular outer wall floating body member in which a large number of floating body members having an air space of at least meters and a thickness and height capable of withstanding a tsunami and having a thickness and height capable of withstanding a tensile force are joined by a coupling member A floating body member provided on any of the plurality of floating body members and having fresh water at the bottom, a natural energy power generation apparatus such as wind power generation disposed on any of the plurality of floating body members, and the annular outer wall floating body member Equipment held by Or an aquaculture apparatus, and a chain-like annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member, and air in the upper portion of the cylindrical inner penetrating member is exhausted in the cylindrical deep water storage tank; By moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank, the cylindrical internal penetrating member is moved upward and the deep water stored from the water discharge opening is removed. It is discharged from the cylindrical deep water storage tank to move the seawater or lake water in the riser pipe to the upper part and circulates the seawater or lake water in the cylindrical deep water storage floating body member so as to be deep from the deep water intake opening. The working gas which has taken water into the cylindrical deep water storage tank and has passed through the plurality of first connection pipes connecting the large cylindrical cylindrical air tight space and the condenser is in the cylindrical deep water storage tank Before incorporating The condenser makes a working fluid of a liquid, and the working fluid of the liquid passes through a plurality of the evaporators built in the cylindrical surface water storage floating body member through the working fluid connection pipe and becomes a working fluid of a gas Deep water discharged from the cylindrical deep water storage tank and sprayed onto the fixed blades at substantially equal angles of a large inner rotating member through tip nozzles provided in the second connection pipes Are discharged to the sea in the large cylinder of the large cylinder cylindrical air-tight space.
本発明による深層水温度差発電津波対策鎖状環状漁業装置の以上の実施形態は、鎖状環状外壁浮体部材が湾の入口の海岸又は砂浜に到達するまで海面に浮かぶのみで津波により何ら強度的影響を受けることなく移動し、海岸又は砂浜或いは岩礁に到達した前記鎖状環状外壁浮体部材は乗り上げ或いは停止すると共に海岸又は砂浜或いは岩礁に到達しない前記鎖状環状外壁浮体部材は海岸又は砂浜或いは岩礁に到達するまで弓状の前記鎖状環状外壁浮体部材は前記鎖状環状外壁浮体部材相互が前記結合部材で結合されながら折れ曲がって移動する。そして湾の入口の海岸又は砂浜に前記鎖状環状外壁浮体部材が乗り上げ、高さが10メートル以上の空気層の前記鎖状環状外壁浮体部材により湾内への津波の進入を緩和或いは阻止することが可能である。又、例えば前記円形鎖状環状外壁浮体部材の端部を重複して複数個の弓状の前記鎖状環状外壁浮体部材を配置することにより平時は船の運行に障害を与えることなく津波の際端部で前記円形鎖状環状外壁浮体部材が重複し湾の入口から湾内への津波の進入を緩和若しくは阻止することが可能となる。
海面上高さが10メートル以上の空気層と津波に耐えうる重量を有する多数個の浮体部材は、本出願人が既に提案している津波対策浮島(特開2015−214861)に記載している全ての浮体部材を実施可能である。
又、前記多数個の浮体部材を例えば金属線鎖等の結合部材によって海面上垂直に穴を有する浮体部材を結合した環状外壁浮体部材は前記浮体部材に風力発電等の自然エネルギー発電装置を具備しても転倒しない。
また、前記多数個の浮体部材の何れかに備えられ底部に淡水を有しているので津波が発生時の海岸で淡水を供給できる。
又、前記多数個の浮体部材の外界側の外部に金属簾板を前記金属線のくさりに別途の金属線のくさりにより結合して配置して多数個の浮体部材間の間隙を埋める構成にする。
前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置は本出願人が既に提案している漁撈生簀及び漁撈生簀を兼ねる養殖生簀(特開2011−217615)も一実施例であるがそれに限定されないで公知の漁撈装置或いは養殖装置も実施可能である。
The above embodiments of the deep water temperature differential power generation and tsunami countermeasure chain-like annular fishing apparatus according to the present invention are not so strong by the tsunami that the chain-like annular outer wall floating body member only floats on the sea surface until reaching the shore or sandy beach at the entrance of the bay. The chained annular outer wall floating body member which moves without being affected and reaches the beach or sandy beach or reef rides on or stops and does not reach the beach or sandy beach or reef The chained annular outer wall floating body member is beach or sandy beach or rocky The arched chain-like annular outer wall floating body member bends and moves while the chain-like annular outer wall floating body members are connected with each other by the connecting member until reaching the Then, the chained annular outer wall floating body member rides on the beach or sandy beach at the entrance of the bay, and the chained annular outer wall floating body member of an air layer having a height of 10 meters or more mitigates or prevents the entry of tsunami into the bay. It is possible. Also, for example, by arranging a plurality of arcuate ring-shaped annular outer wall floating body members by overlapping the end portions of the circular chain annular outer wall floating body members, in the case of a tsunami without giving an obstacle to the operation of the ship in normal time. At the end, the circular chain annular outer wall floating body members overlap, and it is possible to mitigate or prevent the entry of a tsunami from the inlet of the bay into the bay.
A large number of floating body members having an air space above sea level of 10 meters and a weight that can withstand a tsunami are described in the tsunami countermeasure floating island (Japanese Patent Laid-Open No. 2015-214861) already proposed by the present applicant. All floating body members can be implemented.
Further, an annular outer wall floating body member in which the floating body members having holes perpendicular to the sea surface are connected by a large number of floating body members by a connecting member such as a metal wire chain comprises natural energy generating devices such as wind power generation on the floating body members Even if it does not fall.
In addition, since any of the plurality of floating body members is provided with fresh water at the bottom, fresh water can be supplied on the shore when the tsunami occurs.
Further, a metal base plate is connected to the outside of the large number of floating body members outside the outer side of the metal wire by means of a separate metal wire so as to fill the gap between the large number of floating body members. .
The fishery apparatus or the aquaculture apparatus held by the annular outer wall floating body member is not limited to the fishery apparatus and the aquaculture product (Japanese Unexamined Patent Application No. 2011-217615) which doubles as a fishery product which the applicant has already proposed. A fishery device or aquaculture device known from
大都市及び地下設備が多い東京湾、大阪湾、伊勢湾等の外海では弓状の前記鎖状環状外壁浮体部材を配置すれば、鎖状環状外壁浮体部材は湾の入口の海岸又は砂浜に到達するまで海面に浮かぶのみで津波により何ら強度的影響を受けることなく移動し、海岸又は砂浜或いは岩礁に到達した前記鎖状環状外壁浮体部材は乗り上げ或いは停止すると共に海岸又は砂浜或いは岩礁に到達しない前記鎖状環状外壁浮体部材は海岸又は砂浜或いは岩礁に到達するまで弓状の前記鎖状環状外壁浮体部材は前記鎖状環状外壁浮体部材相互が前記結合部材で結合されながら折れ曲がって移動する。そして湾の入口の海岸又は砂浜に前記鎖状環状外壁浮体部材が乗り上げ、高さが10メートル以上の空気層の前記鎖状環状外壁浮体部材により湾内への津波の進入を緩和或いは阻止することが可能である。又、例えば前記円形鎖状環状外壁浮体部材の端部を重複して複数個の弓状の前記鎖状環状外壁浮体部材を配置することにより平時は船の運行に障害を与えることなく津波の際端部で前記円形鎖状環状外壁浮体部材が重複し湾の入口から湾内への津波の進入を緩和若しくは阻止することが可能となる。
東北等湾を構成しない太平洋沿岸或いは日本海沿岸でも円形鎖状環状外壁浮体部材を備えた弓状の前記鎖状環状外壁浮体部材の端部の前記円形環状外壁浮体部材を重複して弓状の前記鎖状環状外壁浮体部材を複数個配置すれば平時は船の運行に障害を与えることなく津波の際前記沿岸への津波の進入を高さが5メートル以上(望ましくは15メートル)の空気層の浮体部材により緩和若しくは阻止することが可能である。
In the open seas such as Tokyo Bay, Osaka Bay, Ise Bay, etc. where there are large cities and underground facilities, if the arched chained annular outer wall floating body member is arranged, the chained annular outer wall floating body member reaches the beach or sandy beach at the entrance of the bay. The chain-like annular outer wall floating body member which has moved to the sea surface and has not been strongly affected by the tsunami and reached the beach or sandy beach or reef until it climbs up or stops and does not reach the beach or sandy beach or reef The chain-like annular outer wall floating body member bends and moves while the chain-like annular outer wall floating body members are connected with each other by the connecting member until the arch-like chain annular outer wall floating body member reaches the beach or sandy beach or reef. Then, the chained annular outer wall floating body member rides on the beach or sandy beach at the entrance of the bay, and the chained annular outer wall floating body member of an air layer having a height of 10 meters or more mitigates or prevents the entry of tsunami into the bay. It is possible. Also, for example, by arranging a plurality of arcuate ring-shaped annular outer wall floating body members by overlapping the end portions of the circular chain annular outer wall floating body members, in the case of a tsunami without giving an obstacle to the operation of the ship in normal time. At the end, the circular chain annular outer wall floating body members overlap, and it is possible to mitigate or prevent the entry of a tsunami from the inlet of the bay into the bay.
The circular annular outer wall floating body member at the end of the arcuate annular outer wall floating body member provided with a circular chain annular outer wall floating body member even on the Pacific coast or the Japan Sea coast that does not constitute a northeastern bay If a plurality of chain-like annular outer wall floating body members are arranged, an air layer having a height of 5 meters or more (preferably 15 meters) at the time of the tsunami without interfering with the operation of the ship in normal times. It is possible to relieve or block by the floating body member.
本願発明は、一端の上部に大きな外径を具備すると共に水面上の水排出用開口を備えた深層水貯蔵槽と前記深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を有する深層水取水構造物を大型筒円筒状に具備し深層水を少ないエネルギーでくみ上げると共に大型筒円筒型気密空間に備えられた作動気体の流れにより回転する大型内側回転部材により大電力発電が可能な深層水温度差発電装置を提供するものである。
請求項1に記載の深層水温度差発電装置は、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵され海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備える大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型筒円筒状深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記大型筒円筒状深層水貯蔵浮体部材の大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から表層水が挿入される筒状表層水貯蔵浮体部材と、前記筒状表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する第一の気密性部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性部材と、前記蒸発器と前記凝縮器を連結する作動流体連結管を具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して前記大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
請求項2に記載の深層水温度差発電装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された前記凝縮器と隣の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ複数個の前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する複数個の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
請求項3に記載の深層水温度差発電装置は、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備えた深層水貯蔵槽と前記深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記深層水貯蔵槽の内部を貫通し内部の水面が前記深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな内部貫通部材とを有し前記深層水貯蔵槽内で上部の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記内部貫通部材を前記深層水貯蔵槽の上部に移動させ前記水排出用開口より前記深層水貯蔵槽に貯蔵された深層水を外部に排出する深層水貯蔵浮体部材と、底部から挿入される表層水を内蔵する表層水貯蔵浮体部材と、前記深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間と前記前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性部材により結合され前記大型筒円筒型気密空間の作動気体空間と円筒状略等間隔の角度で配置される複数個の前記深層水貯蔵浮体部材と、複数個の前記深層水貯蔵浮体部材の空気排出開口と接続され前記深層水貯蔵槽内で上部の空気を自然エネルギー発電手段により排気する空気排気手段と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性部材により結合され前記大型筒円筒型気密空間と円筒状略等間隔の角度で配置される複数個の前記表層水貯蔵浮体部材と、前記蒸発器と隣の前記凝縮器を連結する作動流体連結管を具備し、前記深層水貯蔵槽内で前記内部貫通部材の上部の空気を排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記複数個の第一の気密性部材に内蔵された第一連結管を通過した前記作動気体が前記深層水貯蔵槽内に内蔵する凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記蒸発器を通過して気体の作動流体となり前記複数個の第二の気密性部材に内蔵された第二連結管に備えられた先端ノズルを介して前記大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
請求項4に記載の深層水温度差発電装置は、前記大型筒円筒型気密空間と円筒状略等間隔の角度で配置される前記複数個の深層水貯蔵浮体部材と、前記大型筒円筒型気密空間と円筒状略等間隔の角度で配置される複数個の前記表層水貯蔵浮体部材と、前記深層水貯蔵浮体部材と隣の前記表層水貯蔵浮体部材を結合する前記断熱性遮断結合部材を具備する請求項2〜3のいずれか一項に記載の深層水温度差発電装置である。
請求項5に記載の深層水温度差発電装置は、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備える大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型筒円筒状深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記大型筒円筒状深層水貯蔵浮体部材の大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から表層水が挿入される筒状表層水貯蔵浮体部材と、前記筒状表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する第一の気密性部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性部材と、前記蒸発器と前記凝縮器を連結する作動流体連結管を具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒状円筒深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記筒状表層水貯蔵浮体部材に内蔵された蒸発器を通過して気体の作動流体となり前記第二連結管に備えられた先端ノズルを介して前記大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
請求項6に記載の深層水温度差発電装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された前記凝縮器と隣の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
請求項7に記載の深層水温度差発電装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置を具備し、前記深層水貯蔵槽内で前記内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記深層水取水構造物内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間の作動気体空間と前記前記凝縮器を連結する前記複数個の第一の気密性部材に内蔵された第一連結管を通過した前記作動気体は前記円筒形深層水貯蔵槽内に内蔵する作動流体の凝縮器により液体の作動流体となり前記液体の作動流体は前記作動流体連結管を介し前記蒸発器を通過して気体の作動流体となり前記複数個の第二の気密性部材に内蔵された第二連結管に備えられた先端ノズルを介して大型筒円筒型気密空間に備えられた作動気体の流れにより回転する前記大型内側回転部材の略等間隔の角度の固定された回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
請求項8に記載の深層水温度差発電装置は、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵され海面と略平行な回転体構造物と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備える大型筒円筒状円筒深層水貯蔵槽と前記大型筒円筒状円筒深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管を具備する深層水取水構造物と前記大型筒円筒状円筒深層水貯蔵槽の内部を貫通し内部の水面が前記大型筒円筒状円筒深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを有し前記大型筒円筒状円筒深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記大型筒円筒状円筒深層水貯蔵槽の上部に移動させ前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽に貯蔵された深層水を外部に排出する大型筒円筒状深層水貯蔵浮体部材と、前記大型筒円筒状円筒深層水貯蔵槽内に内蔵される作動流体の凝縮器と、前記大型筒円筒状深層水貯蔵浮体部材の大型筒円筒状円筒深層水貯蔵槽の外側に配置され底部から表層水が挿入される筒状表層水貯蔵浮体部材と、前記筒状表層水貯蔵浮体部材内に内蔵される作動流体の蒸発器と、前記大型筒円筒型気密空間の作動気体空間と前記凝縮器を連結する第一連結管を内蔵する第一の気密性部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間の作動気体空間と前記蒸発器を連結する第二連結管を内蔵し円筒状略等間隔の角度で配置される複数個の第二の気密性部材と、前記蒸発器と前記凝縮器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記大型筒円筒型気密空間の円筒内で前記水排出用開口より前記大型筒円筒状円筒深層水貯蔵槽から排出された深層水を貯蔵し貯蔵された前記深層水を大型円筒内の海に排出する深層水貯蔵装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記大型筒円筒状円筒深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記大型筒円筒状円筒深層水貯蔵槽内の水面を前記大型筒円筒状円筒深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記大型筒円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記大型筒円筒状円筒深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記大型筒円筒状円筒深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記深層水貯蔵装置から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする 。
請求項9に記載の深層水温度差発電装置は、作動流体深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記水排出用開口より前記円筒状深層水貯蔵槽から排出された深層水を貯蔵し貯蔵された前記深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出する深層水貯蔵装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする 。
請求項10に記載の深層水温度差発電装置は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間コロと前記複数個の中間ボール或いは中間コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し海面上高さが10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記水排出用開口より前記円筒状深層水貯蔵槽から排出された深層水を貯蔵し貯蔵された前記深層水を大型円筒内の海に排出する深層水貯蔵装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出する。
請求項11に記載の深層水温度差発電装置は、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材を具備する請求項8〜10のいずれか一項に記載の深層水温度差発電津波対策鎖状環状装置である。
The present invention is a deep water storage tank having a large outer diameter at one end and having a water discharge opening on the water surface, and a riser pipe having a deep water intake opening at the other end of the deep water storage tank at the lower end. The large water intake structure with large diameter is arranged in a large cylinder and the deep water is pumped up with little energy and large electric power can be generated by the large inner rotating member rotated by the flow of working gas provided in the large cylinder cylindrical airtight space. Deep water temperature difference power generation apparatus.
The deep water temperature difference power generation device according to claim 1 comprises a large cylindrical cylindrical air-tight space having a large internal and external diameter for containing a gas of working fluid, a plurality of intermediate balls or intermediate rollers, and a plurality of intermediate balls or intermediates. A large outer diameter support member having an inner side wall engaged with a roller, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers, and a fixed rotary blade having approximately equally spaced angles for rotation by the flow of working gas An upper air layer and an upper air layer having a large internal diameter at the top of one end and a rotating body structure incorporated in the large cylindrical cylindrical air tight space and substantially parallel to the sea surface; A large cylindrical cylindrical deep water storage tank having an upper air discharge opening for discharging the air and a water discharge opening on the water surface, and a deep water intake at the other end of the large cylindrical cylindrical deep water storage tank at the bottom Riser pipe with an opening When the water surface of the inside is penetrated inside the deep water intake structure equipped with the above-mentioned large cylinder cylindrical cylindrical deep water storage tank, and the inside is the same as the water surface outside the large cylinder cylindrical cylindrical deep water storage tank The air in the upper air layer is exhausted by natural energy means in the large cylindrical cylindrical deep water storage tank having a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the large cylindrical cylindrical cylindrical deep water By moving the water surface in the storage tank above the water surface outside the large cylindrical cylindrical deep water storage tank, the cylindrical internal penetration member is moved to the upper part of the large cylindrical cylindrical deep water storage tank, and the water is discharged. A large tubular cylindrical deep water storage floating body member for discharging the deep water stored in the large tubular cylindrical cylindrical deep water storage tank to the outside from the opening, and is incorporated in the large tubular cylindrical cylindrical deep water storage tank Working fluid condenser and front A cylindrical surface water storage floating body member disposed on the outside of a large cylindrical cylindrical deep water storage tank of a large cylindrical cylindrical deep water storage floating body member and into which surface water is inserted from the bottom, and the inside of the cylindrical surface water storage floating body member And a first airtight member incorporating a first connecting pipe for connecting the working gas space of the large cylindrical cylindrical air-tight space and the condenser; and A plurality of second airtight members, each having a tip end nozzle, and a second connecting pipe which incorporates the working gas space of the large cylindrical cylindrical air tight space and the evaporator; A working fluid connection pipe connecting the evaporator and the condenser, exhausting air above the cylindrical internal penetrating member in the large cylindrical cylindrical deep water storage tank, the large cylindrical cylindrical cylindrical deep layer The large cylindrical cylindrical deep layer water storage of the water surface in the water storage tank The cylindrical internal penetrating member is moved to the upper part by moving it to the upper side from the water surface outside the tank, and the deep layer water stored from the water discharge opening is discharged to the outside of the large tubular cylindrical cylindrical deep layer water storage tank Deep water is taken from the deep water intake opening into the large cylindrical cylindrical deep water storage tank from the deep water intake opening by moving the seawater or lake water in the riser pipe upward and circulating the seawater or lake water in the deep water intake structure And the working gas that has passed through the first connecting pipe that connects the working gas space of the large cylindrical cylindrical air-tight space and the condenser together with the condenser in the large cylindrical cylindrical deep water storage tank to operate the liquid The fluid working fluid passes through the working fluid connection pipe, passes through the evaporator built in the cylindrical surface layer water storage floating body member through the working fluid connection pipe, becomes the gas working fluid, and the tip provided on the second connection pipe No It injects to the said fixed rotary blade of the substantially equally-spaced angle of the said large sized inner side rotation member via a nozzle.
The deep-water temperature-difference power generator according to claim 2, comprising: a condenser passing through the working fluid shell deep water; an evaporator passing through the working fluid shell surface water; and a large inside and outside diameter at the top of one end A cylindrical deep water storage tank having a layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and a lower part of the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end penetrates the inside of the cylindrical deep water storage tank, and when the water surface inside is the same as the water surface outside the cylindrical deep water storage tank, the water discharge opening And a cylindrical inner penetrating member whose specific gravity to be closed is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep water storage By moving it above the water surface outside the tank A cylindrical deep water storage floating body member for moving a cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside; The surface layer water inserted from the bottom and the cylindrical surface water storage floating member incorporating the evaporator, and a plurality of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape. A large cylinder cylindrical outer cylinder floating body member group, a large cylinder cylindrical air tight space with a large inside and outside diameter for containing a gas of working fluid, a plurality of intermediate balls or rollers, and a plurality of intermediate balls or rollers A large outer diameter bearing member having an engaging inner side wall, an outer side wall engaging with the plurality of intermediate balls or intermediate rollers, and fixed rotating blades at substantially equal angles for rotation by the flow of working gas The A rotating body structure having a large inner rotating member and substantially parallel to a sea surface built in the large cylindrical cylindrical air-tight space, and a magnet and a coil interlocked by rotation of the large inner rotating member and gear interlocking are arranged. A power generator generating electric power as known by electromagnetic induction, the large cylindrical outer cylindrical floating body member group disposed in the lower part of the large cylindrical cylindrical airtight space, the large cylindrical cylindrical airtight space, and a plurality of the cylinders The large cylindrical cylinder type comprising a plurality of first airtight column members incorporating a first connecting pipe for connecting the condensers incorporated in the deep water reservoir floating body member, and a tip nozzle jetted to the rotary wing A plurality of second airtight column members incorporating a second connecting pipe connecting the airtight space and the evaporator, and a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape and a cylindrical surface layer Front built in water storage float A plurality of adiabatic shut-off members incorporating a working fluid connection pipe connecting a condenser and the next adjacent evaporator, and exhausting air above the cylindrical internal penetration member in the cylindrical deep water storage tank And moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank to move the cylindrical internal penetrating member upward and storing the deep water stored from the water discharge opening. Is discharged to the outside of the cylindrical deep water storage tank to move the seawater or lake water in the riser pipe to the upper part and circulate the seawater or lake water in the plurality of cylindrical deep water storage floating body members. The working gas which has taken deep water from the intake opening into the cylindrical deep water storage tank and has passed through the plurality of first connecting pipes connecting the large cylindrical cylindrical airtight space and the condenser is the cylindrical deep layer Inside the water storage tank The plurality of condensers store the liquid working fluid, and the liquid working fluid passes through the working fluid connection pipe and passes through the plurality of evaporators incorporated in the cylindrical surface water storage floating body member. It is characterized in that the working fluid of the gas is jetted to the fixed rotating blades at substantially equal angles of a large inner rotating member via tip nozzles provided in the plurality of second connection pipes.
The deep water temperature difference power generation device according to claim 3 comprises a large cylindrical cylindrical air-tight space having a large internal and external diameter for containing a gas of working fluid, a plurality of intermediate balls or intermediate rollers, and the plurality of intermediate balls or intermediates. A large outer diameter support member having an inner side wall engaged with a roller, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers, and a fixed rotary blade having approximately equally spaced angles for rotation by the flow of working gas A rotating body structure substantially parallel to the sea surface built in the large cylindrical cylindrical air tight space, and a large inside and outside diameter at the top of one end, and an upper air layer and the upper air A deep water storage tank having an upper air discharge opening for discharging the layer air and a water discharge opening on the water surface, and a riser pipe having a deep water intake opening at the other end in the lower part of the deep water storage tank Deep water intake structure The deep water which has an internal penetrating member whose specific gravity for closing the water discharge opening is smaller than water when the internal water surface penetrates the inside of the deep water storage tank and the inside water surface is the same as the water surface outside the deep water storage tank In the storage tank, the air in the upper part is exhausted by natural energy means, and the water surface in the deep water storage tank is moved above the water surface outside the deep water storage tank to move the inner penetrating member to the upper part of the deep water storage tank And a surface water storage floating body member incorporating surface water to be inserted from the bottom, and a deep water storage floating body member for discharging the deep layer water stored in the deep water storage tank from the water discharge opening to the outside; A condenser for a working fluid contained in a deep water storage tank, an evaporator for a working fluid contained in the surface water storage float member, the large cylindrical cylindrical airtight space, and the condenser connected to each other Several that incorporate one connecting pipe A plurality of deep water storage floating body members connected by a first air tight member and arranged at an angle substantially equal to that of the working gas space of the large cylindrical cylindrical air tight space and a plurality of deep water storages Air discharge means connected to the air discharge opening of the floating body member and exhausting the upper air in the deep water storage tank by natural energy power generation means, and a tip nozzle for jetting the rotor to the large cylindrical cylindrical airtight space A plurality of the surface waters connected by a plurality of second airtight members containing a second connection pipe connecting the evaporators and arranged at an angle substantially equal to that of the large cylindrical cylindrical airtight space with a cylinder at substantially equal intervals A storage floating body member, and a working fluid connection pipe connecting the evaporator and the adjacent condenser, wherein air in the upper portion of the inner penetrating member is exhausted in the deep water storage tank to Outside the deep water storage tank The internal penetrating member is moved to the upper part by moving it to the upper part from the water surface, and the deep layer water stored from the water discharge opening is discharged to the outside of the deep layer water storage tank, and the seawater or lake water in the riser pipe is And circulating the seawater or lake water in the deep water intake structure to take in deep water from the deep water intake opening into the deep water storage tank and working gas space of the large cylindrical cylindrical airtight space and The working gas which has passed through the first connection pipe built in the plurality of first airtight members connecting the condenser becomes a working fluid of liquid by the condenser built in the deep water storage tank, The working fluid of the liquid passes through the evaporator through the working fluid connection pipe and becomes the working fluid of the gas, and the tip nozzle provided in the second connection pipe built in the plurality of second airtight members is used. Through before Characterized by injecting said rotor blades are fixed in a substantially equally spaced angles of a large inner rotating member.
The deep layer water temperature difference power generation device according to claim 4 comprises the plurality of deep layer water storage floating body members disposed at substantially regular intervals in a cylindrical shape and the large cylindrical cylindrical airtight space, and the large cylindrical cylindrical airtight type. A plurality of the surface water storage floating body members disposed at substantially equal equidistant intervals with a space, and the heat insulation blocking coupling member connecting the deep water storage floating body member and the adjacent surface water storage floating body member The second to third In any one of Deep water temperature difference power generator described Is .
A deep water temperature difference power generation device according to claim 5, wherein the working fluid gas is contained, and the inside of the cylinder is a large cylindrical cylindrical airtight space having a large inner and outer diameter for passing sunlight and a plurality of intermediate balls or intermediate rollers. And a large outer diameter support member having an inner side wall engaged with the plurality of intermediate balls or intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers and rotated by the flow of working gas A rotating body structure substantially parallel to the sea surface built in the large cylindrical cylindrical air-tight space, comprising a large inner rotating member having rotary blades fixed at angular intervals, and a large outer diameter at the top of one end Large cylinder cylindrical deep water storage tank having an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and the large cylindrical cylinder cylindrical deep water storage At the bottom of the tank A deep water intake structure having a riser pipe with an end deep water intake opening and the inside of the large cylindrical cylindrical deep water storage tank, and the inner water surface is outside the large cylindrical cylindrical deep water storage tank And the internal air penetrating member having a smaller specific gravity than water, which closes the water discharge opening when the water surface is the same as the water surface of the upper air layer in the large cylindrical cylindrical deep water storage tank. By evacuating and moving the water surface in the large cylindrical cylindrical deep water storage tank above the water surface outside the large cylindrical cylindrical deep water storage tank, the cylindrical internal penetrating member is moved to the large cylindrical cylindrical cylindrical deep tank A large cylindrical cylindrical deep water storage floating body member which is moved to the upper part of a water storage tank and discharges deep water stored in the large cylindrical cylindrical deep water storage tank from the water discharge opening to the outside, and the large cylindrical cylinder Cylindrical deep water storage Tubular surface water storage, which is disposed outside the condenser for working fluid contained therein and the large tubular cylindrical deep water storage tank of the large tubular cylindrical deep water storage floating body member and into which surface water is inserted from the bottom portion A floating body member, an evaporator of a working fluid contained in the cylindrical surface water storage floating body member, and a first connecting pipe for connecting the working gas space of the large cylindrical cylindrical air-tight space and the condenser And a second connecting pipe connecting the working gas space of the large cylindrical cylindrical air-tight space and the evaporator, having one air-tight member and a tip nozzle for injecting to the rotor, and having a cylindrical substantially equidistant angle A plurality of second airtight members disposed, and a working fluid connection pipe connecting the evaporator and the condenser, wherein the inner cylinder penetrating member in the large cylindrical cylindrical deep water storage tank Exhaust the air at the top and inside the large cylindrical cylindrical deep water storage tank The inner surface penetrating member is moved upward by moving the water surface above the water surface outside the large cylindrical cylindrical deep water storage tank, and the deep water stored from the water discharge opening is the large cylindrical cylindrical The deep water from the deep water intake opening is discharged by discharging it out of the cylindrical deep water storage tank and moving the seawater or lake water in the riser pipe upward and circulating the seawater or lake water in the deep water intake structure The working gas which has been taken into the cylindrical cylindrical deep water storage tank and has passed through the first connecting pipe connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser is the large cylindrical cylindrical deep layer The condenser in the water storage tank becomes a working fluid of the liquid, and the working fluid of the liquid passes through the working fluid connection pipe and passes through the evaporator incorporated in the cylindrical surface water storage float member to operate the gas. fluid The deep water discharged from the deep water storage tank is injected onto the fixed fixed blades at substantially equal angles of the large inner rotating member through a tip nozzle provided on the second connection pipe. It discharges to the sea in the large cylinder of the large cylinder cylindrical air tight space.
The deep-water temperature-difference power generator according to claim 6, comprising: a condenser passing through the working fluid shell deep water; an evaporator passing through the working fluid shell surface water; A cylindrical deep water storage tank having a layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and a lower part of the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end penetrates the inside of the cylindrical deep water storage tank, and when the water surface inside is the same as the water surface outside the cylindrical deep water storage tank, the water discharge opening And a cylindrical inner penetrating member whose specific gravity to be closed is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep water storage By moving it above the water surface outside the tank A cylindrical deep water storage floating body member for moving a cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside; A heating means for heating surface water to be inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members and the cylindrical surface water Large-sized cylindrical-cylindrical-shaped floating body member group in which storage floating body members are alternately arranged in a cylindrical shape, and a large-sized cylindrical-cylindrical shape containing a working fluid gas and having a large inside and outside diameter substantially parallel to a sea surface which passes sunlight inside A large external support member comprising an airtight space, a plurality of intermediate balls or rollers, and an inner wall engaged with the plurality of balls or rollers, and the plurality of balls or rollers A sea surface contained within the large cylindrical cylindrical air-tight space, comprising: an outer wall engaged; and a large inner rotating member having rotating blades fixed at substantially equal angles to rotate by the flow of the working gas; A parallel rotating body structure, a power generating apparatus arranged with a magnet and a coil interlocked with rotation and gear interlocking of the large inner rotating member and generating electric power as known by electromagnetic induction, and a lower part of the large cylindrical cylindrical air-tight space The large-sized cylindrically-cylindrical-shaped floating body member group disposed, and a first connecting pipe connecting the large-sized cylindrically-cylindrical airtight space and the condenser built in the plurality of cylindrical deep-layer water storage floating body members are incorporated. A plurality of first airtight column members, a tip nozzle for injecting the rotor, and a plurality of second airtight pipes incorporating second connection pipes connecting the large cylindrical cylindrical airtight space and the evaporator. And cylindrical column members A plurality of cylindrical deep water storage floating members disposed in the housing and a plurality of heat insulating properties incorporating a working fluid connection pipe connecting the condenser incorporated in the cylindrical surface water storage floating member and the next adjacent evaporator Thickness and height of an insulation layer located outside the cylindrical deep water storage floating body member and the cylindrical surface water storage floating body member, which has an air space of 5 meters or more and resistance to tsunami, and can withstand tensile force An annular outer wall float member in which a plurality of float members having one or two holes are joined by a coupling member; and a float member provided on any of the plurality of float members and having fresh water at the bottom thereof; A natural energy generator such as a wind power generator disposed on any of the plurality of floating members, and a fishing gear or aquaculture device held by the annular outer wall floating member, in the cylindrical deep water storage tank Inside the cylinder The air in the upper part of the penetrating member is exhausted and the water surface in the cylindrical deep water storage tank is moved above the water surface outside the cylindrical deep water storage tank, and the cylindrical internal penetrating member is moved upward to discharge the water. The deep water stored from the opening is discharged to the outside of the cylindrical deep water storage tank, the seawater or lake water in the riser pipe is moved upward, and the seawater or lake water in the cylindrical deep water storage floating body member is circulated. Accordingly, the deep water is taken from the deep water intake opening into the cylindrical deep water storage tank and the operation passed through the plurality of first connection pipes connecting the large cylindrical cylindrical airtight space and the condenser. The gas becomes a working fluid of the liquid by the condenser contained in the cylindrical deep water storage tank, and the working fluid of the liquid is integrated in the cylindrical surface water storage floating member through the working fluid connection pipe. Before After passing through the evaporator, it becomes a working fluid of gas and injects to the fixed rotors at substantially equal angles of a large inner rotating member through tip nozzles provided on the plurality of second connection pipes and The deep water discharged from the cylindrical deep water storage tank is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space.
The deep-water temperature-difference power generator according to claim 7, comprising: a condenser passing through the working fluid shell deep water; an evaporator passing through the working fluid shell surface water; A cylindrical deep water storage tank having a layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and a lower part of the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end penetrates the inside of the cylindrical deep water storage tank, and when the water surface inside is the same as the water surface outside the cylindrical deep water storage tank, the water discharge opening And a cylindrical inner penetrating member whose specific gravity to be closed is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep water storage By moving it above the water surface outside the tank A cylindrical deep water storage floating body member for moving a cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside; A heating means for heating surface water to be inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members and the cylindrical surface water Large-sized cylindrical cylindrical floating body members, in which storage floating bodies are alternately arranged in a cylindrical shape, and a large-sized cylindrical cylinder containing a working fluid gas and having a large internal diameter substantially parallel to a sea surface passing sunlight therethrough A large outer diameter support member comprising a mold airtight space, a plurality of intermediate balls or rollers, and an inner wall engaged with the plurality of balls or rollers, and the plurality of balls or rollers (B) a sea surface built in the large cylindrical cylindrical air-tight space, comprising: an outer side wall engaged with the large-sized inner rotating member having rotating blades fixed at substantially equal angles to rotate by the flow of working gas; A substantially parallel rotating body structure, a magnet and a coil interlocked with the rotation of the large inner rotating member and gear interlocking, and a power generating apparatus generating electric power as known by electromagnetic induction; Cylindrical cylinder The large cylinder cylindrical outer cylindrical floating body member group disposed in the lower part of the airtight space, and the large cylinder cylindrical airtight space and the condenser incorporated in the plurality of cylindrical deep water storage floating body members are connected A plurality of first airtight column members containing one connection pipe, and a tip nozzle for injecting to the rotor, and a plurality of second connection pipes connecting the large cylindrical cylindrical airtight space and the evaporator Adjacent second airtight column members, a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape, and a plurality of the condensers incorporated in the cylindrical surface water storage floating body member A plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe for connecting a plurality of the evaporators, and 5 meters located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member It has a weight that can withstand the air layer and tsunami above, and the tensile force An annular outer wall floating body member in which a large number of floating body members having one or two holes with a tolerable thickness and height are joined by a coupling member, and any of the plurality of floating body members are provided with fresh water at the bottom. And a natural energy generating apparatus such as a wind power generator disposed on any of the large number of floating body members, and a fishing apparatus or aquaculture apparatus held by the annular outer wall floating member, the deep water storage The internal penetrating member is moved to the upper part by evacuating the air above the internal penetrating member in the tank and moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank The deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, and the seawater or lake water in the riser pipe is moved to the top, and the seawater or lake water in the deep water intake structure By circulating, the deep water is taken from the deep water intake opening into the cylindrical deep water storage tank, and the working gas space of the large cylindrical cylindrical airtight space and the condenser are connected to each other. The working gas that has passed through the first connection pipe built in the airtight member of the liquid becomes a working fluid of liquid by the condenser of the working fluid built in the cylindrical deep water storage tank, and the working fluid of the liquid is the working fluid The working fluid of the gas passes through the connecting pipe through the evaporator and becomes a working fluid of gas through the tip nozzle provided on the second connecting pipe built in the plurality of second airtight members, into the large cylindrical cylindrical airtight space It injects to the fixed rotary blade of the substantially equal angle of said large sized inner rotation member rotated by the flow of the working gas provided, and said said Cylindrical The deep water discharged from the deep water storage tank is Cylinder Circle Cylinder It is characterized by discharging to the sea in the large cylinder of the mold airtight space.
The deep water temperature difference power generation device according to claim 8, wherein the working fluid gas is contained and the inside of the cylinder is a large cylindrical cylindrical airtight space having a large inner and outer diameter for passing sunlight, and a plurality of intermediate balls or intermediate rollers. And a large outer diameter support member having an inner side wall engaged with the plurality of intermediate balls or intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers and rotated by the flow of working gas A large-sized inner rotating member having rotating blades fixed at an angular distance, and a rotating body structure built in the large-sized cylindrical cylindrical airtight space and substantially parallel to the sea surface, and having a large outer diameter at the top of one end Large cylindrical cylindrical deep water storage tank comprising an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and the large cylindrical cylindrical deep water storage tank Other at the bottom of The deep water intake structure having a riser pipe with a deep water intake opening and the inside of the large cylindrical cylindrical deep water storage tank, and the inner water surface is outside the large cylindrical cylindrical deep water storage tank The air inside the upper air layer in the large cylindrical cylindrical deep water storage tank has a cylindrical internal penetrating member whose specific gravity for closing the water discharge opening is the same as the water surface and whose specific gravity for closing the water discharge opening is smaller The large diameter cylindrical cylindrical deep layer water is discharged by evacuating and moving the water surface inside the large cylindrical cylinder deep water storage tank above the water surface outside the large cylindrical cylindrical deep layer water storage tank A large cylindrical cylindrical deep water storage floating body member which is moved to the upper part of a storage tank and discharges deep water stored in the large cylindrical cylindrical deep water storage tank from the water discharge opening to the outside; Cylindrical deep water storage tank And a cylindrical surface water storage floating body disposed outside the large cylindrical cylindrical deep water storage tank of the large-sized cylindrical cylindrical deep water storage floating body member and having a condenser for working fluid contained therein and having surface water inserted from the bottom thereof. A first connecting pipe incorporating a member, an evaporator of a working fluid contained in the cylindrical surface layer water storage floating body member, and a working gas space of the large cylindrical cylindrical airtight space and the condenser; And a second connecting pipe for connecting the evaporator and the working gas space of the large cylindrical cylindrical air-tight space provided with the air-tight member of the above, and the tip nozzle to be jetted to the rotary vane, A plurality of second airtight members, a plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe connecting the evaporator and the condenser, and an outer side of the cylindrical surface water storage floating member Air layer over 10 meters above sea level and tsunami located in And a plurality of floating body members having one or two holes having a thickness and height capable of withstanding tensile force and having a thickness and height capable of withstanding tensile force, and the plurality of floating body members A floating body member having fresh water at the bottom, a natural energy device such as wind power generation disposed on any of the plurality of floating body members, and a fishing rod device or aquaculture held by the annular outer wall floating body member Apparatus and deep water stored in a large cylinder, stored deep water discharged from the large cylinder cylindrical deep water storage tank from the water discharge opening in the cylinder of the large cylinder cylindrical airtight space A deep water storage device for discharging to the sea, and a chain annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member, and the cylindrical internal penetrating member in the large cylindrical cylindrical deep water storage tank Upper part Air is exhausted and the water surface in the large cylindrical cylindrical deep water storage tank is moved above the water surface outside the large cylindrical cylindrical deep water storage tank to move the cylindrical internal penetrating member upward; The deep water stored from the discharge opening is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space, and the seawater or lake water in the riser pipe is moved to the upper part, and the inside of the large cylindrical cylindrical deep water storage floating body member And circulating a plurality of deep water from the deep water intake opening into the large cylindrical cylindrical cylindrical deep water storage tank by circulating the seawater or lake water, and connecting the large cylindrical cylindrical airtight space and the condenser. The working gas that has passed through the first connection pipe becomes a working fluid of liquid by the condenser built in the large cylindrical cylindrical deep water storage tank, and the working fluid of the liquid flows through the working fluid connection pipe Said A plurality of the evaporators contained in the cylindrical surface layer water storage floating body member pass through to become a working fluid of gas and become approximately equal intervals of the large-sized inner rotating member through the tip nozzles provided on the plurality of second connection pipes. The deep water discharged from the deep water storage device is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space while being injected to the rotor fixed at an angle of.
The deep water temperature difference power generation device according to claim 9, comprising: a condenser passing through the working fluid deep water; an evaporator passing through the working fluid shell surface water; and a large inside and outside diameter above one end, the upper air layer A cylindrical deep water storage tank including the upper air discharge opening for discharging air in the upper air layer and a water discharge opening on the water surface, and a lower part of the cylindrical deep water storage tank including the condenser. The riser pipe provided with the deep water intake opening at the end and the inside of the cylindrical deep water storage tank are closed, and the water discharge opening is closed when the water surface inside is the same as the water surface outside the cylindrical deep water storage tank The air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep water storage tank. By moving above the outer surface of the water A cylindrical deep water storage floating body member for moving the inner tube penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside; A heating means for heating surface water to be inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members and the cylindrical surface water A large cylinder cylindrical outer cylinder floating body member group in which storage floating body members are alternately arranged in a cylindrical shape, a large cylinder cylindrical air tight space having a large inside and outside diameter containing a gas of working fluid, and a plurality of intermediate balls or intermediate rollers Large-sized external support member having an inner side wall engaged with the plurality of intermediate balls or intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers and rotated by the flow of working gas And a large-sized inner rotating member having a large-sized inner rotating member provided with fixed rotating blades at substantially equal angle angles, and a substantially parallel rotating surface with a sea surface built in the large-sized cylindrical cylindrical airtight space; A magnet and a coil interlocked with the rotation of the gear and the gear interlock, and a power generator generating electric power as known by electromagnetic induction; Tube cylinder The large cylinder cylindrical outer cylinder floating body member group disposed in the lower part of the mold airtight space, and the large cylinder cylindrical airtight space and the condenser incorporated in the plurality of cylindrical deep water storage floating body members are connected A plurality of first air-tight columnar members incorporating a first connection pipe, and a tip nozzle jetted to the rotor are incorporated with a second connection pipe connecting the large cylindrical cylindrical air-tight space and the evaporator. Next to a plurality of second airtight column members, a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape, and a plurality of the condensers incorporated in a cylindrical surface water storage floating body member A plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe connecting the plurality of the evaporators, the cylindrical deep water storage floating body member and the cylindrical surface water storage floating body member located outside the sea surface Can withstand an airspace with a height of 10 meters or more and tsunami An annular outer wall float body member in which a large number of float body members having one or two holes each having a thickness and height capable of withstanding tensile force and being joined by a coupling member, and any of the plurality of float bodies members A floating body member provided with fresh water at the bottom, a natural energy power generation apparatus such as wind power generation disposed on any of the plurality of floating body members, and a fishing gear or aquaculture apparatus held by the annular outer wall floating body member A deep water storage device for storing deep water discharged from the cylindrical deep water storage tank from the water discharge opening and discharging the stored deep water to the sea in the large cylinder of the large cylindrical cylindrical airtight space; And a chain-like ring-shaped outer wall floating body member in which the ring-shaped outer wall floating body member is joined by a coupling member, the air in the upper portion of the cylindrical inner penetrating member is exhausted in the cylindrical deep water storage tank Storage tank The inner surface of the cylindrical inner layer is moved to the upper side by moving the water surface above the water surface outside the cylindrical deep water storage tank, and the deep water stored from the water discharge opening is the cylindrical deep water storage tank. The cylindrical deep water storage is performed by discharging deep water from the deep water intake opening by discharging outside and moving seawater or lake water in the riser pipe to the upper part and circulating seawater or lake water in the cylindrical deep water storage floating member The working gas which has been taken into the tank and which has passed through the plurality of first connecting pipes connecting the large cylindrical cylindrical air-tight space and the condenser is contained in the cylindrical deep water storage tank by the condenser. The working fluid of the liquid becomes the working fluid of the liquid, passes through the plurality of evaporators incorporated in the floating surface member for storing cylindrical surface water through the working fluid connection pipe, and becomes the working fluid of the gas into a plurality of working fluid of the plurality Second The deep water discharged from the cylindrical deep water storage tank is injected into the large cylinder while being jetted to the fixed rotary blades fixed at substantially equal angles of the large inner rotating member through the tip nozzle provided on the two connection pipes. It is characterized by discharging to the sea in the large cylinder of the cylindrical airtight space.
The deep-water temperature-difference power generator according to claim 10 comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large inside and outside diameter at the top of one end. A cylindrical deep water storage tank having a layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and a lower part of the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end penetrates the inside of the cylindrical deep water storage tank, and when the water surface inside is the same as the water surface outside the cylindrical deep water storage tank, the water discharge opening And a cylindrical inner penetrating member whose specific gravity to be closed is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep water storage By moving it above the water surface outside the tank A cylindrical deep water storage floating body member for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside; A heating means for heating the surface water inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members, and the cylindrical surface layer A large cylinder cylindrical outer cylinder floating body member group in which water storage floating body members are alternately arranged in a cylindrical shape, a large cylinder cylindrical air tight space having a large inside and outside diameter containing a gas of working fluid, and a plurality of intermediate balls or middle rollers And a large outer diameter support member having an inner side wall engaged with the plurality of intermediate balls or intermediate rollers, and an outer wall engaged with the plurality of intermediate balls or intermediate rollers and rotated by the flow of working gas Therefore, a large-sized inner rotating member having rotating blades fixed at substantially equal angles and a rotating body structure substantially parallel to a sea surface built in the large-sized cylindrical cylindrical airtight space, and the large-sized inner rotating member A magnet and a coil interlocked by rotation of a member and gear interlock are arranged, and a power generator generating electric power as known by electromagnetic induction as well as the large cylindrical cylindrical outer cylindrical floating body member arranged in the lower part of the large cylindrical cylindrical airtight space And a plurality of first airtight columns incorporating a first connecting pipe for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep water storage floating bodies. A plurality of second airtight column members including a tip nozzle for injecting to the rotor and a second connecting pipe for connecting the large cylindrical cylindrical air-tight space and the evaporator, and alternately arranged in a cylindrical shape Multiple cylindrical deep water storage A plurality of adiabatic blocking coupling members incorporating working fluid connection pipes connecting the plurality of condensers incorporated in the body member and the cylindrical surface layer water storage floating body member and the plurality of adjacent evaporators; A cylindrical deep water storage floating body member and an air layer located on the outer side of the cylindrical surface water storage floating body member and having a height of 10 meters or more above sea level and a weight capable of withstanding tsunami and thickness and height capable of withstanding tensile force An annular outer wall floating body member having a plurality of floating body members having one or two holes joined by a coupling member, a floating body member provided on any of the plurality of floating body members and having fresh water at the bottom, A natural energy power generation apparatus such as wind power generation disposed in any of a large number of floating body members, and the deep water stored and stored in deep water discharged from the cylindrical deep water storage tank from the water discharge opening Into the sea in a large cylinder And a chain-like annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member, and air in the upper portion of the cylindrical inner penetrating member is exhausted within the cylindrical deep water storage tank. By moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank, the cylindrical internal penetrating member is moved upward and the deep water stored from the water discharge opening is obtained. Water is discharged to the outside of the cylindrical deep water storage tank and the seawater or lake water in the riser pipe is moved to the upper part, and the seawater or lake water in the cylindrical deep water storage floating body member is circulated to make a deeper layer from the deep water intake opening. The working gas which has taken water into the cylindrical deep water storage tank and has passed through the plurality of first connection pipes connecting the large cylindrical cylindrical air tight space and the condenser is in the cylindrical deep water storage tank Built in The condenser forms a working fluid of a liquid, and the working fluid of the liquid passes through the working fluid connection pipe and passes through the plurality of evaporators incorporated in the cylindrical surface water storage float body member to work the gaseous working fluid And jetted out from the cylindrical deep water storage tank while being jetted to the fixed blades at substantially equal angles of the large inner rotating member through the tip nozzles provided in the plurality of second connection pipes. The deep water is discharged to the sea in the large cylinder of the large cylindrical cylinder airtight space.
The depth water temperature difference electric power generation device according to claim 11 comprises a chain-like annular outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member. In any one of It is a deep-water temperature differential power generation and tsunami countermeasure chain-like annular device as described.
本発明による深層水温度差発電装置の第二実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵する内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する複数の前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射することを特徴とする。
前記円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材は複数個の同心円上の内側円筒状にも交互に配置し外側同心円と内側同心円の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材が前記断熱性遮断結合部材を介して網状に連結された実施例も本発明の要旨の範囲である。
A second embodiment of the deep water temperature difference power generation system according to the present invention comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large inside and outside diameter above one end. A cylindrical deep water storage tank including an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface, and the cylindrical deep water storage tank incorporating the condenser The riser pipe having the deep water intake opening at the other end at the lower end penetrates the inside of the cylindrical deep water storage tank and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member whose specific gravity for closing the opening is smaller than water, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep layer Move above the water surface outside the water storage tank A cylindrical deep water storage floating body member for moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside A heating means for heating surface water inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members, and the cylindrical shape A large cylinder cylindrical outer cylinder floating body member group in which surface water storage floating body members are alternately arranged in a cylindrical shape, a large cylinder cylindrical air tight space with a large inside and outside diameter containing a gas of working fluid, and a plurality of intermediate balls or middle balls A large outer diameter support member having a cylindrical roller and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, an outer wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers, and a working air A rotating body structure substantially parallel to a sea surface built in the large cylindrical cylindrical air tight space, comprising: A magnet and a coil interlocked with the rotation of the large inner rotation member and gear interlock are arranged, and a power generator generating electric power as known by electromagnetic induction, and the large cylindrical cylinder arranged at the lower part of the large cylindrical cylindrical airtight space First plurality of built-in first connecting pipes for connecting the above-mentioned outer cylindrical floating body members, the large cylindrical cylindrical airtight space, and the plurality of condensers contained in the plurality of cylindrical deep water storage floating bodies; Airtight column members, a plurality of second airtight columns including a second connection pipe for connecting the large cylindrical cylindrical air-tight space and the evaporator, having a tip nozzle for injecting to the rotor blade, and a cylinder Alternately arranged in a circle And a plurality of heat insulating properties incorporating working fluid connecting pipes connecting the plurality of condensers incorporated in the cylindrical deep water storage floating body member and the cylindrical surface water storage floating body member and the adjacent plurality of evaporators. A shield coupling member is provided, the air in the upper portion of the cylindrical inner penetrating member is exhausted in the cylindrical deep water storage tank, and the water surface in the cylindrical deep water storage tank is taken from the water surface outside the cylindrical deep water storage tank By moving it to the upper part, the cylindrical internal penetrating member is moved to the upper part, and the deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, and the seawater or lake water in the riser pipe is the upper part. And the deep water is taken from the deep water intake opening into the cylindrical deep water storage tank by circulating the seawater or lake water in the cylindrical deep water storage floating member, and the large cylindrically cylindrical airtight space and Connect the condenser The working gas that has passed through the plurality of first connection pipes becomes a working fluid of a liquid by the plurality of condensers contained in the cylindrical deep water storage tank, and the working fluid of the liquid flows through the working fluid connection pipe. The plurality of evaporators contained in the cylindrical surface layer water storage floating body member pass through to become a working fluid of gas and become a large-sized inner rotating member through tip nozzles provided in a plurality of second connection pipes. It injects to the said fixed rotary blade of the angle | corner of substantially equal intervals.
The plurality of cylindrical deep layer water storage floating body members and the cylindrical surface layer water storage floating body members alternately arranged in the cylindrical shape are alternately arranged in a plurality of concentric inner cylindrical shapes and a cylinder of an outer concentric circle and an inner concentric circle An embodiment in which the deep water storage floating body member and the cylindrical surface water storage floating body member are connected in a reticulated manner via the heat insulating blocking coupling member is also within the scope of the subject matter of the present invention.
本発明による深層水温度差発電環状漁業装置の第二実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し5メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置を具備し、前記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。 The second embodiment of the deep water temperature difference power generation annular fishery apparatus according to the present invention comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and a large outside diameter at the top of one end. A cylindrical deep water storage tank including the upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on the water surface, and the cylindrical deep water storage containing the condenser The riser pipe having the deep water intake opening at the other end in the lower part of the tank and the inside of the cylindrical deep water storage tank, the water surface inside being the same as the water surface outside the cylindrical deep water storage tank And a cylindrical inner penetrating member having a specific gravity smaller than water for closing the discharge opening, the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is Moved above the water surface outside the deep water storage tank By moving the cylindrical inner penetrating member to the upper part of the cylindrical deep water storage tank and discharging the deep water stored in the cylindrical deep water storage tank from the water discharge opening to the outside, the cylindrical deep water storage A floating body member, a heating means for heating surface water to be inserted from the bottom by natural energy power generation means, a cylindrical surface water storage floating body member incorporating the evaporator, a plurality of the cylindrical deep water storage floating body members and the above Large-sized cylindrical-cylindrical-shaped outer-circumferential-floating-body members in which cylindrical surface layer water storage floating members are alternately arranged in a cylindrical shape, and gas of working fluid is contained therein, and the inside of the cylinder has an inner diameter approximately parallel to the sea surface passing sunlight. A large external bearing member comprising a large large cylindrical cylindrical airtight space, a plurality of intermediate balls or intermediate cylindrical rollers, and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers and the plurality A large inner rotating member provided with an outer wall engaged with the intermediate ball or the intermediate cylindrical roller and a large inner rotating member provided with fixed rotating blades at substantially equal angles for rotating by the flow of the working gas; A rotating body structure substantially parallel to the sea surface built in the inside, a magnet and a coil interlocked with the rotation of the large inner rotating member and gear interlocking, and a power generating apparatus generating electric power as known by electromagnetic induction; The large cylindrical cylindrical outer cylinder floating body member group disposed in the lower part of the large cylindrical cylindrical air tight space, the condenser incorporated in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep water storage floating bodies A plurality of first airtight column members containing a first connecting pipe for connecting the first and second connecting pipes for connecting the evaporator with the large cylindrical cylindrical airtight space including a tip nozzle jetted to the rotor blade Multiple built-in Adjacent second airtight column members, a plurality of cylindrical deep water storage floating body members alternately arranged in a cylindrical shape, and a plurality of the condensers incorporated in the cylindrical surface water storage floating body member A plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe for connecting a plurality of the evaporators, and 5 meters located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member An annular outer wall floating body member in which a large number of floating body members having a weight capable of withstanding the above air layer and a thickness and height capable of withstanding a tensile force and having one or two holes are joined by a coupling member; A floating body member provided on any of the plurality of floating body members and having fresh water at the bottom, a natural energy power generation apparatus such as wind power generation disposed on any of the plurality of floating body members, and the annular outer wall floating body member Retained fishing equipment or And an exhaust unit configured to exhaust air in an upper portion of the cylindrical inner penetrating member in the cylindrical deep water storage tank, and upper a water surface in the cylindrical deep water storage tank from a water surface outside the cylindrical deep water storage tank. By moving to the upper part, the deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank, and seawater or lake water in the riser pipe is moved to the upper part. By moving and circulating seawater or lake water in the cylindrical deep water storage floating member, deep water is taken from the deep water intake opening into the cylindrical deep water storage tank and the large cylindrical cylindrical airtight space and the large cylindrical cylindrical airtight space The working gas having passed through the plurality of first connection pipes connecting the condenser becomes a working fluid of a liquid by the condenser built in the cylindrical deep water storage tank, and the working fluid of the liquid is the working fluid connected The tube And a plurality of the evaporators contained in the cylindrical surface water storage floating body member to be a working fluid of gas to become a working fluid of gas via a tip nozzle provided on a plurality of the second connection pipes The method is characterized in that the deep layer water discharged from the cylindrical deep water storage tank is discharged to the sea in the large cylinder of the large cylindrical cylindrical airtight space while being jetted to the rotor fixed at substantially equal angle angles. Do.
本発明による津波対策鎖状深層水温度差発電環状漁業装置の第二実施例は、作動流体ガ深層水に通過する凝縮器と、作動流体ガ表層水に通過する蒸発器と、一端の上部に大きな内外径を具備し上部空気層と前記上部空気層の空気を排出する上部の空気排出開口と水面上の水排出用開口とを備え前記凝縮器を内蔵する円筒状深層水貯蔵槽と前記円筒状深層水貯蔵槽の下部に他端の深層水取水開口を備えたライザー管と前記円筒状深層水貯蔵槽の内部を貫通し内部の水面が前記円筒状深層水貯蔵槽外の水面と同じである際前記水排出用開口を閉鎖する比重が水より小さな円筒内部貫通部材とを具備し前記円筒状深層水貯蔵槽内で前記上部空気層の空気を自然エネルギー手段により排気し前記深層水貯蔵槽内の水面を前記深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を前記円筒状深層水貯蔵槽の上部に移動させ前記水排出用開口より前記円筒状深層水貯蔵槽に貯蔵された深層水を外部に排出する円筒状深層水貯蔵浮体部材と 、底部から挿入される表層水を自然エネルギー発電手段により加熱する加熱手段と前記蒸発器を内蔵する円筒状表層水貯蔵浮体部材と、複数個の前記円筒状深層水貯蔵浮体部材及び前記円筒状表層水貯蔵浮体部材を円筒状に交互に配置する大型筒円筒状外形円筒浮体部材群と、作動流体の気体を内蔵すると共に円筒内部は太陽光を通過させる海面と略平行な内外径の大きな大型筒円筒型気密空間と、複数個の中間ボール或いは中間円筒コロと前記複数個の中間ボール或いは中間円筒コロと係合する内側壁を具備する大型外形支承部材及び前記複数個の中間ボール或いは中間円筒コロと係合する外側壁と作動気体の流れにより回転するため略等間隔の角度の固定された回転翼を具備する大型内側回転部材とを備え前記大型筒円筒型気密空間内に内蔵された海面と略平行な回転体構造物と、前記大型内側回転部材の回転と歯車連動によりに連動する磁石及びコイルが配置され電磁誘導により公知の如く発電する発電装置と、、前記大型筒円筒型気密空間の下部に配置された前記大型筒円筒状外形円筒浮体部材群と、前記大型筒円筒型気密空間と複数個の前記円筒状深層水貯蔵浮体部材に内蔵された前記凝縮器を連結する第一連結管を内蔵する複数個の第一の気密性柱部材と、前記回転翼に噴射する先端ノズルを備え前記大型筒円筒型気密空間と前記蒸発器を連結する第二連結管を内蔵する複数個の第二の気密性柱部材と、円筒状に交互に配置された複数個の円筒状深層水貯蔵浮体部材と円筒状表層水貯蔵浮体部材に内蔵された複数個の前記凝縮器と隣の複数個の前記蒸発器を連結する作動流体連結管を内蔵する複数個の断熱性遮断結合部材と、前記円筒状深層水貯蔵浮体部材と前記円筒状表層水貯蔵浮体部材の外側に位置し10メートル以上の空気層と津波に耐えうる重量を有し引張力に耐えうる厚みと高さを備えた一個或いは二個の穴を有する浮体部材の多数個を結合部材によって結合した環状外壁浮体部材と、前記多数個の浮体部材の何れかに備えられ底部に淡水を有する浮体部材と、前記多数個の浮体部材の何れかに配置された風力発電等の自然エネルギー発電装置と、前記環状外壁浮体部材により保持された漁撈装置或いは養殖装置と、前記環状外壁浮体部材を結合部材によって結合した鎖状環状外壁浮体部材をを具備し、記円筒状深層水貯蔵槽内で前記円筒内部貫通部材の上部の空気を排気し前記円筒状深層水貯蔵槽内の水面を前記円筒状深層水貯蔵槽外の水面より上部に移動させることにより前記円筒内部貫通部材を上部に移動させ前記水排出用開口より貯蔵された深層水を前記円筒状深層水貯蔵槽の外に排出して前記ライザー管内の海水又は湖水を上部に移動させ前記円筒状深層水貯蔵浮体部材内の海水又は湖水を循環することにより前記深層水取水開口より深層水を前記円筒状深層水貯蔵槽内に取水すると共に前記大型筒円筒型気密空間と前記凝縮器を連結する複数の前記第一連結管を通過した前記作動気体が前記円筒状深層水貯蔵槽内に内蔵する前記凝縮器により液体の作動流体となり、前記液体の作動流体は前記作動流体連結管を介して前記円筒状表層水貯蔵浮体部材に内蔵された複数の前記蒸発器を通過して気体の作動流体となり複数個の前記第二連結管に備えられた先端ノズルを介して大型内側回転部材の略等間隔の角度の固定された前記回転翼に噴射すると共に前記円筒状深層水貯蔵槽から排出された深層水を前記大型筒円筒型気密空間の大型円筒内の海に排出することを特徴とする。
The second embodiment of the tsunami countermeasure chain deep water temperature difference power generation annular fishery apparatus according to the present invention comprises a condenser passing through the working fluid shell deep water, an evaporator passing through the working fluid shell surface water, and an upper end of one end. A cylindrical deep water storage tank and cylinder including a large inner and outer diameter, an upper air layer, an upper air discharge opening for discharging air of the upper air layer, and a water discharge opening on a water surface Through the inside of the riser pipe with the deep water intake opening at the other end in the lower part of the deep water storage tank and the inside of the cylindrical deep water storage tank, and the water surface inside is the same as the water surface outside the cylindrical deep water storage tank And a cylindrical internal penetrating member having a specific gravity smaller than that of the water for closing the water discharge opening, wherein air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage tank, and the deep water storage tank Inside the water surface from the water surface outside the deep water storage tank The cylindrical internal penetrating member is moved to the upper part of the cylindrical deep water storage tank by moving it to a portion, and the deep water stored in the cylindrical deep water storage tank is discharged to the outside from the water discharge opening. Deep water storage floating body member, heating means for heating surface water inserted from the bottom by natural energy power generation means, cylindrical surface water storage floating body member incorporating the evaporator, and a plurality of the cylindrical deep water storage floating bodies A large cylindrical outer cylindrical floating body member group in which the members and the cylindrical surface water storage floating body members are alternately arranged in a cylindrical shape, a gas containing a working fluid and the inside of the cylinder substantially parallel to the sea surface passing sunlight Large external supporting member comprising a large cylindrical cylindrical air-tight space having a large inner and outer diameter, a plurality of intermediate balls or intermediate cylindrical rollers, and an inner side wall engaged with the plurality of intermediate balls or intermediate cylindrical rollers And the large inner rotating member having the outer wall engaged with the plurality of intermediate balls or the intermediate cylindrical rollers, and the large inner rotating member provided with the fixed rotary blades at substantially equal angles for rotating by the flow of the working gas A power generator for generating electric power as is known by electromagnetic induction by arranging a rotating body structure substantially parallel to the sea surface built in a cylindrical airtight space, a magnet and a coil interlocked with rotation of the large inner rotating member and gear interlocking a ,, and the large cylinder cylindrical airtight the large barrel cylindrical outer cylindrical body members groups arranged in the lower part of the space, is built on the large cylinder cylindrical airtight space and a plurality of said cylindrical deep water storage body members A plurality of first airtight column members incorporating a first connecting pipe for connecting the condenser, and a tip nozzle for injecting to the rotor, and connecting the large cylindrical cylindrical airtight space and the evaporator Second connecting pipe A plurality of second airtight columns, a plurality of cylindrical deep water storage floats alternately arranged in a cylindrical shape, and a plurality of the condensers embedded in the cylindrical surface water storage float. A plurality of adiabatic blocking coupling members incorporating a working fluid connection pipe connecting the plurality of adjacent evaporators, the cylindrical deep water storage floating body member and the outer surface of the cylindrical surface water storage floating body member An annular outer wall floating body in which a large number of floating body members having an air space of 10 meters or more, a weight capable of withstanding tsunami and a thickness and height capable of withstanding tensile force and having one or two holes are joined by a coupling member Member, a floating body member provided on any of the plurality of floating body members and having fresh water at the bottom, natural energy power generation apparatus such as wind power generation disposed on any of the plurality of floating body members, the annular outer wall Fishing held by floating body members And a chain-like annular outer wall floating body member in which the above-mentioned annular outer wall floating body member is connected by a coupling member, and exhausting the air above the cylindrical inner penetrating member in the cylindrical deep water storage tank. By moving the water surface in the cylindrical deep water storage tank above the water surface outside the cylindrical deep water storage tank, the cylindrical internal penetrating member is moved upward and the deep water stored from the water discharge opening is obtained. From the deep water intake opening by discharging it out of the cylindrical deep water storage tank and moving the seawater or lake water in the riser pipe to the top and circulating the seawater or lake water in the cylindrical deep water storage floating body member The working gas which has taken deep water into the cylindrical deep water storage tank and has passed through the plurality of first connection pipes connecting the large cylindrical cylindrical air-tight space and the condenser is the cylindrical deep water storage tank Within The condenser forms a working fluid of liquid, and the working fluid of liquid passes through the working fluid connection pipe and passes through the plurality of evaporators incorporated in the cylindrical surface water storage floating member, and working fluid of gas And jetted out from the cylindrical deep water storage tank while being jetted to the fixed blades at substantially equal angles of the large inner rotating member through the tip nozzles provided in the plurality of second connection pipes. Deep water is discharged to the sea in the large cylinder of the large cylindrical cylinder airtight space.
Claims (11)
The deep layer water temperature difference power generation tsunami countermeasure chain-like annular device according to claim 8 comprising a chain-like ring-like outer wall floating body member in which the annular outer wall floating body member is joined by a coupling member.
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CN111272260A (en) * | 2020-03-10 | 2020-06-12 | 潘景阳 | Be used for geotechnical engineering exploration groundwater monitoring detector |
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JP2020076219A (en) * | 2018-11-06 | 2020-05-21 | 嘉義 辻本 | Floating tsunami countermeasure device |
JP2020076287A (en) * | 2019-06-11 | 2020-05-21 | 嘉義 辻本 | Floating tsunami countermeasure device |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5497986A (en) * | 1978-01-18 | 1979-08-02 | Kawasaki Heavy Ind Ltd | Device for collecting deep layer water |
JPS5497984A (en) * | 1978-01-18 | 1979-08-02 | Kawasaki Heavy Ind Ltd | Plant barge |
US4430861A (en) * | 1982-06-03 | 1984-02-14 | The Johns Hopkins University | Open cycle OTEC plant |
US4497342A (en) * | 1983-06-20 | 1985-02-05 | Lockheed Missiles & Space Company, Inc. | Flexible retractable cold water pipe for an ocean thermal energy conversion system |
US4603553A (en) * | 1984-12-11 | 1986-08-05 | R & D Associates | Ballistic cold water pipe |
JPH01219360A (en) * | 1988-02-26 | 1989-09-01 | Shimizu Corp | Intake-drainage system for bathy-water |
JP2001292658A (en) * | 2000-04-10 | 2001-10-23 | Kawasaki Heavy Ind Ltd | Large-scale oceanic fishing ground system |
JP2015031288A (en) * | 2013-08-05 | 2015-02-16 | 國華 徐 | Ocean deep buoyancy power generation system |
JP2015214861A (en) * | 2014-05-13 | 2015-12-03 | 嘉義 辻本 | Tsunami countermeasure floating island |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP6259059B1 (en) * | 2016-12-14 | 2018-01-10 | 嘉義 辻本 | Deep water temperature difference generator |
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-
2018
- 2018-10-04 WO PCT/JP2018/037142 patent/WO2019073887A1/en active Application Filing
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5497986A (en) * | 1978-01-18 | 1979-08-02 | Kawasaki Heavy Ind Ltd | Device for collecting deep layer water |
JPS5497984A (en) * | 1978-01-18 | 1979-08-02 | Kawasaki Heavy Ind Ltd | Plant barge |
US4430861A (en) * | 1982-06-03 | 1984-02-14 | The Johns Hopkins University | Open cycle OTEC plant |
US4497342A (en) * | 1983-06-20 | 1985-02-05 | Lockheed Missiles & Space Company, Inc. | Flexible retractable cold water pipe for an ocean thermal energy conversion system |
US4603553A (en) * | 1984-12-11 | 1986-08-05 | R & D Associates | Ballistic cold water pipe |
JPH01219360A (en) * | 1988-02-26 | 1989-09-01 | Shimizu Corp | Intake-drainage system for bathy-water |
JP2001292658A (en) * | 2000-04-10 | 2001-10-23 | Kawasaki Heavy Ind Ltd | Large-scale oceanic fishing ground system |
JP2015031288A (en) * | 2013-08-05 | 2015-02-16 | 國華 徐 | Ocean deep buoyancy power generation system |
JP2015214861A (en) * | 2014-05-13 | 2015-12-03 | 嘉義 辻本 | Tsunami countermeasure floating island |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111272260A (en) * | 2020-03-10 | 2020-06-12 | 潘景阳 | Be used for geotechnical engineering exploration groundwater monitoring detector |
CN111272260B (en) * | 2020-03-10 | 2021-05-18 | 浙江中材工程勘测设计有限公司 | Be used for geotechnical engineering exploration groundwater monitoring detector |
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