CN104373278A - Ocean deep buoyancy generation system - Google Patents

Abstract

The invention discloses an ocean deep buoyancy generation system. The ocean deep buoyancy generation system comprises a water inlet pipe, a water suction pipe, a guiding pipe, a plurality of water suction devices, an inflating unit, a seawater power generation and collection device or a seawater temperature difference power generation and collection device, a first moving device and a second moving device, wherein the water inlet pipe is provided with a water inlet. The inflating unit inflates the water suction devices until the water suction devices generate buoyancy to ascend and drive seawater in the water suction pipe to rise, the first moving device moves the water suction devices above the water suction pipe to the guiding pipe and releases the water suction devices, the water suction devices can sink to the second moving device through the guiding pipe, the second moving device can move the water suction devices to the water inlet pipe from the lower side of the guiding pipe, the inflating unit inflates the water suction devices until the seawater in the water suction pipe can be continuously driven to rise to generate power. The ocean deep buoyancy generation system cannot generate air, water and noise pollution.

Description

Bathypelagic buoyance generating system

Technical field

The present invention relates to a kind of buoyance generating system, particularly deep sea water is brought to the power generation system producing electric energy above sea level by a kind of buoyancy.

Background technique

Existing hydroelectric power system, is common in the big power station such as power station and dam and uses, and normally utilizes the high-low-position drop of water, coordinates water wheels to rotate and produces mechanical kinetic energy, then this mechanical kinetic energy is converted to the step of electric energy by generator.But build the mode of dam water storage, easily cause the water erosion of below dam to aggravate, thus ecology damaged, and change large place in rainfall rate, often have drouth not rain cause water shortage cannot the situation of drive electrical generators generating.

Because the problems referred to above, TaiWan, China announces a kind of method that No. 500874 patent discloses buoyancy generating, its structure includes a pressure cylinder generally, the air chamber lattice, of multiple collection gas link that the crawler belt, two of the plurality of air chamber lattice is set in this crawler belt uploads moving axis and lower drive shaft, and one is linked in the generator that this uploads moving axis.Aforementioned structure is communicated in the air outlet of this pressure cylinder to this air chamber lattice water proof air inlet by one, but, these air chamber lattice are worsened immediately when crawler belt is delivered to top, if gas fails to be vented in time in time sinking, a reverse resistance will be produced to crawler belt, make crawler belt have the phenomenon of pause, and then cause the conversion of electric energy discontinuous, the situation such as then easily cause that electric accumulator or power supply system instability are even damaged under electric energy changes discontinuous situation.

Therefore, just have TaiWan, China to announce M428995 patent, it is a kind of continuous band dynamic formula buoyancy generating equipment, includes an electricity generating device, a floatage driving device, a high pressure store device of air and a control unit.This electricity generating device includes a rotating shaft and and is driven with the electromagnetic transducer producing electric energy by this rotating shaft.This floatage driving device includes multiple transmission group and is located in this rotating shaft, and this transmission group comprises the continuous motion stem limiting this rotating shaft axle rotating journey, and the buoyancy portion that is incorporated into this continuous motion stem.This high pressure stores device of air and includes the pressure cylinder saving pressurized gas, and multiple pipeline of giving vent to anger gas being delivered to this buoyancy portion by this pressure cylinder.This control unit determines this buoyancy portion input and output gas, swings up and down drive this rotating shaft axle to revolve so as to making this continuous motion stem, makes power generation process be continued to carry out uninterruptedly.

But said structure utilizes this rotating shaft axle of this continuous motion stem interlock to revolve, and generates electricity to produce power, larger space is needed to supply this buoyancy portion with this rotating shaft for axle center, and with this continuous motion stem for support arm carries out a rotating distance, and cause cost.This case utilizes pipeline of giving vent to anger to be communicated with this pressure cylinder and this buoyancy portion again, buoyancy is produced to this buoyancy portion to export gas, wherein this pipeline of giving vent to anger is along with reciprocally carrying out rotating distance in this buoyancy portion, can constantly be bent and easily damage and cause this gas to leak outside, even cannot export gas to this buoyancy portion, cause buoyancy portion to float time serious, and this rotating shaft of displacement interlock that can not recycle this buoyancy portion drive this electricity generating device to produce electric energy.

Summary of the invention

Main purpose of the present invention is to provide a kind of bathypelagic buoyance generating system, not only can not consume any fuel, no waste mine produces, can not manufacture atmospheric pollution, water pollutions, noise pollution, and whole power generation process discharges any greenhouse gases (such as carbon dioxide) hardly.

For reaching above-mentioned purpose, the invention provides a kind of bathypelagic buoyance generating system, including: an intake pipe being positioned at b.s.l. at least 500 meters of deep-seas place, this intake pipe has a water inlet; One connects this intake pipe and uprightly extends the bailing pipe on more than sea level; One is set in parallel in the guide tube by this intake pipe and this bailing pipe; The Water draw-off pump of multiple cyclic shift in this intake pipe, this bailing pipe and this guide tube; One to be connected with this intake pipe and to continue blanketing gas to this Water draw-off pump makes this Water draw-off pump produce buoyancy rising and drive this bailing pipe maritime interior waters to the inflation unit of top offset; One seawater dynamic power and the collecting device being converted to electric energy by this bailing pipe maritime interior waters to top offset kinetic energy; One by this Water draw-off pump by first mobile device of moving above this bailing pipe above this guide tube; And one by this Water draw-off pump by moving the second mobile device to this intake pipe below this guide tube; Make this Water draw-off pump produce buoyancy by this inflation unit blanketing gas to this Water draw-off pump and rise this bailing pipe maritime interior waters of drive to top offset, this Water draw-off pump discharges by moving above this bailing pipe after above this guide tube by this first mobile device again, this Water draw-off pump can sink down into this second mobile device via this guide tube, this second mobile device again by this Water draw-off pump by moving below this guide tube to this intake pipe, again by this inflation unit blanketing gas to this Water draw-off pump, namely reach the object continuing to drive this bailing pipe maritime interior waters upwards displacement generation.

Further, this bathypelagic buoyance generating system, also comprises one and utilizes this bailing pipe maritime interior waters to the difference variation of top offset to convert ocean temperature differential power and the collecting device of electric energy to.

Further, this inflation unit is a hydro-electrolytic hydrogen production device, and this Water draw-off pump is one raise dividing plate.

Further, this bathypelagic buoyance generating system, also comprises one and is positioned at the collection equipment collecting this Water draw-off pump evolved gas above this bailing pipe.

Further, this inflation unit is connected with this intake pipe by a suction tude.

For reaching above-mentioned purpose, the present invention also provides a kind of bathypelagic buoyance generating system, includes: an intake pipe being positioned at b.s.l. at least 500 meters of deep-seas place, and this intake pipe has a water inlet; One connects this intake pipe and uprightly extends the bailing pipe on more than sea level; One is set in parallel in the guide tube by this intake pipe and this bailing pipe; The Water draw-off pump of multiple cyclic shift in this intake pipe, this bailing pipe and this guide tube; One to be connected with this intake pipe and to continue blanketing gas to this Water draw-off pump makes this Water draw-off pump produce buoyancy rising and drive this bailing pipe maritime interior waters to the inflation unit of top offset; One utilizes this bailing pipe maritime interior waters to the difference variation of top offset to convert ocean temperature differential power and the collecting device of electric energy to; One by this Water draw-off pump by first mobile device of moving above this bailing pipe above this guide tube; And one by this Water draw-off pump by moving the second mobile device to this intake pipe below this guide tube; Make this Water draw-off pump produce buoyancy by this inflation unit blanketing gas to this Water draw-off pump and rise this bailing pipe maritime interior waters of drive to top offset, this Water draw-off pump discharges by moving above this bailing pipe after above this guide tube by this first mobile device again, this Water draw-off pump can sink down into this second mobile device via this guide tube, this second mobile device again by this Water draw-off pump by moving below this guide tube to this intake pipe, again by this inflation unit blanketing gas to this Water draw-off pump, namely reach the object continuing to drive this bailing pipe maritime interior waters upwards displacement generation.

Further, this inflation unit is a hydro-electrolytic hydrogen production device, and this Water draw-off pump is one raise dividing plate.

Further, this bathypelagic buoyance generating system, also comprises one and is positioned at the collection equipment collecting this Water draw-off pump evolved gas above this bailing pipe.

Further, this inflation unit is connected with this intake pipe by a suction tude.

The present invention not only can not consume any fuel, no waste mine produces, can not manufacture atmospheric pollution, water pollutions, noise pollution, and whole power generation process discharges any greenhouse gases (such as carbon dioxide) hardly, and all periods in every day all generate electricity Absorbable organic halogens; In addition, the by-product produced is operational fresh water especially.

Beneficial effect of the present invention is:

1. bathypelagic buoyance generating system of the present invention can not consume any fuel, no waste mine produces, can not manufacture atmospheric pollution, water pollutions, noise pollution, and whole power generation process discharges any greenhouse gases (such as carbon dioxide) hardly;

2. bathypelagic buoyance generating system of the present invention can all periods in every day, continue generating all Absorbable organic halogens;

3. bathypelagic buoyance generating system of the present invention can be movable type, is therefore highly suitable for operation on each marine site and unrestricted, does not also have and is subject to weather influences and cannot the problem of operation occurs;

4. the electric energy produced after bathypelagic buoyance generating system generating of the present invention, preferably storage means be by electric energy via hydro-electrolytic hydrogen production device to after producing hydrogen, be stored in bottle after again this pressurized with hydrogen being become liquid state, can be transported to land for convert back electric energy by;

5. bathypelagic buoyance generating system of the present invention the deep sea water that draws out can via desalination process, the by-product operational fresh water especially produced after its desalination, it contains very abundant mineral substance and trace element, has quite high economic value.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Accompanying drawing explanation

Fig. 1 is the system schematic of present pre-ferred embodiments.

Fig. 2 ~ Fig. 9 is the continuous action schematic diagram of Fig. 1 of the present invention.

Wherein, reference character:

1 bathypelagic buoyance generating system

SL sea level

10 intake pipes

11 water inlets

20 bailing pipes

30 guide tubes

40 Water draw-off pumps

50 inflation unit

51 suction tude

60 seawater dynamic power and collecting devices

70 ocean temperature differential powers and collecting device

80 collect equipment

91 first mobile devices

92 second mobile devices

Embodiment

Detailed description for the present invention and technology contents, now just coordinate graphic being described as follows:

Referring to Fig. 1, is the system schematic of present pre-ferred embodiments; As shown in the figure, the present invention is a kind of bathypelagic buoyance generating system 1, includes: an intake pipe 10 being positioned at sea level below SL at least 500 meters of deep-seas place, and this intake pipe 10 has a water inlet 11; One connects this intake pipe 10 and uprightly extends the bailing pipe 20 of sea level more than SL; One is set in parallel in this intake pipe 10 guide tube 30 other with this bailing pipe 20; Multiple cyclic shift is in this intake pipe 10, this bailing pipe 20 and the Water draw-off pump 40 in this guide tube 30, Water draw-off pump 40 of the present invention, be raise dividing plate for preferred embodiment with one, therefore the following stated Water draw-off pump 40 of the present invention, then will to raise dividing plate to be illustrated; One to be connected with this intake pipe 10 and to continue blanketing gas to this Water draw-off pump 40 (raising dividing plate) below makes this Water draw-off pump 40 (raising dividing plate) produce buoyancy rising and drive this bailing pipe 20 maritime interior waters to the inflation unit 50 of top offset; This inflation unit 50 is connected with this intake pipe 10 by a suction tude 51; But inflation unit 50 of the present invention is that the hydrogen produced with a hydro-electrolytic hydrogen production device continues to fill this Water draw-off pump 40 (raising dividing plate) below to produce buoyancy for preferred embodiment; Therefore, the following stated inflation unit 50 of the present invention, then all will to fill hydrogen to be illustrated; But it should be noted that the present invention certainly also can use air compressor to continue to fill air and be implemented to this Water draw-off pump 40 (raising dividing plate) below; In addition, due to this Water draw-off pump 40 buoyancy suffered by seawater, the weight of arranged seawater is equaled; That is, the weight that buoyancy=this Water draw-off pump 40 is alleviated in the seawater=this Water draw-off pump 40 weight in atmosphere-this Water draw-off pump 40 weight in the seawater=this Water draw-off pump 40 arrange seawater the seawater weight that arranges of volume × density of sea water × gravity accleration=this Water draw-off pump 40; Obviously, when this Water draw-off pump 40 floats, buoyancy is greater than the gravity of this Water draw-off pump 40, and when this Water draw-off pump 40 floats or suspends, buoyancy equals gravity; But when this Water draw-off pump 40 is in sinking state, buoyancy is less than gravity.According to the law of buoyancy, can show that this Water draw-off pump 40 drifts along and the relation of density: when this Water draw-off pump 40 floats, buoyancy is greater than the gravity that this Water draw-off pump 40 arranges seawater; When this Water draw-off pump 40 floats or suspends, buoyancy equals the gravity that this Water draw-off pump 40 arranges seawater; When this Water draw-off pump 40 sinks, buoyancy is less than the gravity that this Water draw-off pump 40 arranges seawater; So, when density of sea water is greater than this Water draw-off pump 40 density, this Water draw-off pump 40 floats; When density of sea water equals this Water draw-off pump 40 density this Water draw-off pump 40 floating or suspend; When density of sea water is less than this Water draw-off pump 40 density, this Water draw-off pump 40 sinks; In addition, about the flow process of water electrolysis hydrogen producing, be utilize electricity that water (electrolytic solution) electrolytic separation in electrolytic bath is generated the technology of hydrogen and oxygen; Alkaline water commonly used by electrolytic solution, and then constantly circulation inputs in electrolytic bath; Electrolytic bath is contacted by many electrolytic cells to connect, and each electrolytic cell is equipped with anode and cathode reaction sheet respectively, and there is one deck isolating film centre, in order to avoid oxygen mixes mutually with hydrogen; The hydrogen purity that electrolysis produces can reach more than 99.7%; This bathypelagic buoyance generating system 1 also comprises one to convert electric energy to top offset kinetic energy seawater dynamic power and collecting device 60 by this bailing pipe 20 maritime interior waters.It is worth mentioning that, this this bathypelagic buoyance generating system 1 also can comprise one and utilize this bailing pipe 20 maritime interior waters to the difference variation of top offset to convert ocean temperature differential power and the collecting device 70 of electric energy to; So-called " ocean temperature differential power " (Ocean Thermal Energy Conversion, OTEC) is a kind of renewable energy sources, mainly utilizes that surface seawater is different from the temperature of deep sea water to generate electricity.Irradiate because surface seawater is subject to sunlight, absorb energy and temperature is higher; But the seawater goed deep into after sea level below SL 200 meters, sunlight almost cannot arrive, and therefore temperature is relatively low; Therefore sea water advanced darker, its temperature is also lower; Ocean temperature differential power is the seawater utilizing surface layer temperature higher, makes low-boiling point liquid (such as: the ammonia) boiling in heat exchanger be steam, then pushing generator generating, imported another heat exchanger again, re-use deep sea water and cooled, so can be completed a circulation.This this bathypelagic buoyance generating system 1 also comprises one by this Water draw-off pump 40 (raising dividing plate) by first mobile device 91 of moving above this bailing pipe 20 above this guide tube 30, and one by this Water draw-off pump 40 (raising dividing plate) by moving to the second mobile device 92 in this intake pipe 10 below this guide tube 30, it should be noted that this bathypelagic buoyance generating system 1, one can also be comprised and be positioned at and above this bailing pipe 20, collect the collection equipment 80 that this Water draw-off pump 40 (raising dividing plate) disengages below hydrogen, that is, when this Water draw-off pump 40 driving this bailing pipe 20 maritime interior waters to top offset rises to sea level SL height, this this Water draw-off pump 40 (raising dividing plate) can be driven this bailing pipe 20 maritime interior waters upwards to raise to this first mobile device 91 again to the Water draw-off pump 40 (raising dividing plate) of top offset by the next one again, this Water draw-off pump 40 (raising dividing plate) can be moved above this guide tube 30 by this first mobile device 91, the hydrogen being now positioned at this Water draw-off pump 40 (raising dividing plate) below then can be released immediately to this collection equipment 80, hydrogen in this collection equipment 80 then again can be utilized and convert back electric energy for this inflation unit 50, or be stored in bottle after directly this pressurized with hydrogen being become liquid state, be transported to again land for convert back electric energy by.

In addition, the electric energy produced after generating electricity about seawater dynamic power and collecting device 60 or ocean temperature differential power and collecting device 70, except this first mobile device 91 self-supporting and this second mobile device 92 use, unnecessary electric energy directly can also provide use to land by connecting cable, but better embodiment of the present invention is, after this seawater dynamic power and collecting device 60 or this ocean temperature differential power and collecting device 70 generate electricity produce unnecessary electric energy, separately can produce hydrogen with a hydro-electrolytic hydrogen production device, then be stored in bottle after this pressurized with hydrogen being become liquid state, be transported to again land for convert back electric energy by, or can directly provide this inflation unit 50 to use, also because inflation unit 50 of the present invention is to produce hydrogen with hydro-electrolytic hydrogen production device, therefore the hydrogen that this collection equipment 80 was collected, getting final product after direct weighting becomes liquid state is stored in bottle, be transported to land again to be employed for converting back electric energy, how to revert back electric energy as hydrogen, this reduction technique is already present prior art morning, also not within the scope of technical discussion of the present invention, therefore is not described in detail for this reason.Certainly, for the sake of security, this hydrogen is pressurized to be stored in after in bottle, the storing region of those hydrogen storage bottles in the present invention, will maintain certain safe distance and quarantine measures with bathypelagic buoyance generating system 1 of the present invention, this is not also within the discussion scope of the technology of the present invention.But it is worth mentioning that, produce buoyancy about this Water draw-off pump 40 (raising dividing plate) of the present invention and rise this bailing pipe 20 maritime interior waters of drive to top offset, so can via desalination process by the deep sea water drawn out, the by-product operational fresh water especially produced after its desalination, it contains very abundant mineral substance and trace element, has quite high economic value.

In order to more clearly demonstrate the technology of the present invention content, separately please refer to Fig. 2 ~ Fig. 9, it is the continuous action schematic diagram of Fig. 1 of the present invention, first, as shown in Figure 2, first this Water draw-off pump 40 (raising dividing plate) is released into by above this guide tube 30, and first provide a little electric energy to be delivered to above this intake pipe 10 by this Water draw-off pump 40 (raising dividing plate) by this second mobile device 92, make this inflation unit 50 start to fill hydrogen to this Water draw-off pump 40 (raising dividing plate) below, simultaneously, again other Water draw-off pump 40 (raising dividing plate) is released into by above this guide tube 30 one by one, and rest on below this guide tube 30 and control to wait for by this second mobile device 92 opportunity sent in this intake pipe 10, arrive as shown in Figure 3 until hydrogen is filled in this Water draw-off pump 40 (raising dividing plate) below, now this Water draw-off pump 40 (raising dividing plate) can be raised by the buoyancy that below hydrogen produces and drive this bailing pipe 20 maritime interior waters to top offset as shown in Figure 4, this bailing pipe 20 maritime interior waters can be raised to be delivered to this seawater dynamic power and collecting device 60 and produces electric energy and stored, also can produce electric energy by this ocean temperature differential power and collecting device 70 and be stored simultaneously, when this Water draw-off pump 40 (raising dividing plate) arrives sea level SL, next Water draw-off pump 40 (raising dividing plate) then to be sent in this intake pipe 10 as shown in Figure 5 by this second mobile device 92, then deliver to above this intake pipe 10 and also continue to start to fill hydrogen to this Water draw-off pump 40 (raising dividing plate) below as shown in Figure 6 by this inflation unit 50, when this Water draw-off pump 40 (raising dividing plate) below filling hydrogen arrives as shown in Figure 7, now this Water draw-off pump 40 (raising dividing plate) can be raised by the buoyancy that below hydrogen produces again and drive this bailing pipe 20 maritime interior waters to top offset as shown in Figure 8, a upper Water draw-off pump 40 (raising dividing plate) then can be moved by this first mobile device 91 and insert in this guide tube 30 above this guide tube 30, the hydrogen being simultaneously positioned at this Water draw-off pump 40 (raising dividing plate) below then can be released immediately to this collection equipment 80, hydrogen in this collection equipment 80 then again can be utilized and converts back electric energy and stored, and this bailing pipe 20 maritime interior waters then sustainable being raised deliver to this seawater dynamic power and collecting device 60 and again produce electric energy and stored, to add by this ocean temperature differential power and collecting device 70 produce electric energy and stored as shown in Figure 9, in this way, above-mentioned produced electric energy, can repeat the action providing Fig. 6 ~ Fig. 9 persistent loop, and constantly can produce unnecessary electric energy and stored and be utilized, and thus reaches the object continuing to drive this bailing pipe 20 maritime interior waters upwards displacement generation.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art can make various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection domain that all should belong to the claims in the present invention.

Claims (10)

1. a bathypelagic buoyance generating system (1), is characterized in that, include:

One intake pipe (10) being positioned at least 500 meters of deep-seas place below, sea level (SL), this intake pipe (10) has a water inlet (11);

One connects this intake pipe (10) and uprightly extends the bailing pipe (20) on more than sea level (SL);

One is set in parallel in this intake pipe (10) guide tube (30) other with this bailing pipe (20);

Multiple cyclic shift is in this intake pipe (10), this bailing pipe (20) and the Water draw-off pump (40) in this guide tube (30);

One to be connected with this intake pipe (10) and to continue blanketing gas to this Water draw-off pump (40) makes this Water draw-off pump (40) produce buoyancy rising and drive this bailing pipe (20) maritime interior waters to the inflation unit (50) of top offset;

One seawater dynamic power and the collecting device (60) being converted to electric energy by this bailing pipe (20) maritime interior waters to top offset kinetic energy;

One by this Water draw-off pump (40) by this bailing pipe (20) top move to this guide tube (30) top the first mobile device (91); And

This Water draw-off pump (40) is moved to the second mobile device (92) in this intake pipe (10) by this guide tube (30) below by one;

Make this Water draw-off pump (40) produce buoyancy by this inflation unit (50) blanketing gas to this Water draw-off pump (40) and rise drive this bailing pipe (20) maritime interior waters to top offset, this Water draw-off pump (40) is moved release to this guide tube (30) top by this bailing pipe (20) top by this first mobile device (91) again, this Water draw-off pump (40) can sink down into this second mobile device (92) via this guide tube (30), this Water draw-off pump (40) is moved in this intake pipe (10) by this guide tube (30) below by this second mobile device (92) again, again by this inflation unit (50) blanketing gas to this Water draw-off pump (40), namely the object continuing to drive this bailing pipe (20) maritime interior waters upwards displacement generation is reached.

2. bathypelagic buoyance generating system according to claim 1, it is characterized in that, described bathypelagic buoyance generating system (1), also comprises one and utilizes this bailing pipe (20) maritime interior waters to the difference variation of top offset to convert ocean temperature differential power and the collecting device (70) of electric energy to.

3. bathypelagic buoyance generating system according to claim 1 and 2, is characterized in that, described inflation unit (50) is a hydro-electrolytic hydrogen production device, and this Water draw-off pump (40) is one raise dividing plate.

4. bathypelagic buoyance generating system according to claim 1 and 2, it is characterized in that, described bathypelagic buoyance generating system (1), also comprises one and is positioned at the collection equipment (80) that this Water draw-off pump (40) evolved gas is collected in this bailing pipe (20) top.

5. bathypelagic buoyance generating system according to claim 3, it is characterized in that, described bathypelagic buoyance generating system (1), also comprises one and is positioned at the collection equipment (80) that this Water draw-off pump (40) evolved gas is collected in this bailing pipe (20) top.

6. bathypelagic buoyance generating system according to claim 1 and 2, is characterized in that, described inflation unit (50) is connected with this intake pipe (10) by a suction tude (51).

7. a bathypelagic buoyance generating system (1), is characterized in that, include:

One intake pipe (10) being positioned at least 500 meters of deep-seas place below, sea level (SL), this intake pipe (10) has a water inlet (11);

One connects this intake pipe (10) and uprightly extends the bailing pipe (20) on more than sea level (SL);

One is set in parallel in this intake pipe (10) guide tube (30) other with this bailing pipe (20);

Multiple cyclic shift is in this intake pipe (10), this bailing pipe (20) and the Water draw-off pump (40) in this guide tube (30);

One to be connected with this intake pipe (10) and to continue blanketing gas to this Water draw-off pump (40) makes this Water draw-off pump (40) produce buoyancy rising and drive this bailing pipe (20) maritime interior waters to the inflation unit (50) of top offset;

One utilizes this bailing pipe (20) maritime interior waters to the difference variation of top offset to convert ocean temperature differential power and the collecting device (70) of electric energy to;

One by this Water draw-off pump (40) by this bailing pipe (20) top move to this guide tube (30) top the first mobile device (91); And

This Water draw-off pump (40) is moved to the second mobile device (92) in this intake pipe (10) by this guide tube (30) below by one;

Make this Water draw-off pump (40) produce buoyancy by this inflation unit (50) blanketing gas to this Water draw-off pump (40) and rise drive this bailing pipe (20) maritime interior waters to top offset, this Water draw-off pump (40) is moved release to this guide tube (30) top by this bailing pipe (20) top by this first mobile device (91) again, this Water draw-off pump (40) can sink down into this second mobile device (92) via this guide tube (30), this Water draw-off pump (40) is moved in this intake pipe (10) by this guide tube (30) below by this second mobile device (92) again, again by this inflation unit (50) blanketing gas to this Water draw-off pump (40), namely the object continuing to drive this bailing pipe (20) maritime interior waters upwards displacement generation is reached.

8. bathypelagic buoyance generating system according to claim 7, is characterized in that, described inflation unit (50) is a hydro-electrolytic hydrogen production device, and this Water draw-off pump (40) is one raise dividing plate.

9. the bathypelagic buoyance generating system according to claim 7 or 8, it is characterized in that, described bathypelagic buoyance generating system (1), also comprises one and is positioned at the collection equipment (80) that this Water draw-off pump (40) evolved gas is collected in this bailing pipe (20) top.

10. the bathypelagic buoyance generating system according to claim 7 or 8, is characterized in that, described inflation unit (50) is connected with this intake pipe (10) by a suction tude (51).