CN103233874A - Method and device for saving electricity for ice making and freezing through ocean tide pressurized-water cooling - Google Patents
Method and device for saving electricity for ice making and freezing through ocean tide pressurized-water cooling Download PDFInfo
- Publication number
- CN103233874A CN103233874A CN2013101766140A CN201310176614A CN103233874A CN 103233874 A CN103233874 A CN 103233874A CN 2013101766140 A CN2013101766140 A CN 2013101766140A CN 201310176614 A CN201310176614 A CN 201310176614A CN 103233874 A CN103233874 A CN 103233874A
- Authority
- CN
- China
- Prior art keywords
- scale
- water
- buoyancy aid
- way valve
- ice making
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Electromagnetic Pumps, Or The Like (AREA)
Abstract
The invention discloses a method and a device for saving electricity for an ice-making refrigeration plant through ocean tide pressurized-water cooling. Water is pumped by a water pump which is driven by tidal energy to a sea floor to absorb cold to be cooled and then is sent to a plant workshop for ice-making refrigeration and electrical energy saving. The device is simple and easy to manufacture, convenient to use, capable of bringing material benefit to users and applicable to coastal states and coastal areas of China.
Description
Technical field: the present invention is that a kind of energy of oceanic tide that utilizes promotes the water pump setting-out to seabed cold energy exchanger absorption cold energy, force feed is to the method and system device of ice making plant of seashore factory, the freezing using electricity wisely of refrigerated warehouse ice making again, and abbreviate as: the ocean tidal power setting-out is got cold ice making, freezing method of saving electric power and device thereof.
Technical background: the coastal state, especially the rural area, small towns, city of our Chinese vast coastal area has a large amount of ice making plant and refrigeration plant and refrigerated warehouses now, yet these requisite manufacturers have consumed a large amount of power supplys in process of production, are there what methods and device can reduce the production electricity consumption of ice making plant, refrigeration plant and refrigerated warehouse? reduce production costs? this is the subject matter that the present invention will solve.
Technological scheme: in order to realize the new and old ice making plant in coastal state and coastal area, refrigeration plant, production and operation producer units such as refrigerated warehouse, the purpose of using electricity wisely in production and operation, implementation methods of the present invention is: the morning and evening tides of taking to utilize the ocean all taking place every day, namely flood tide and the potential difference of sea level one rise and one drop at ebb tide changes rule, utilize large-scale buoyancy aid platform to be set in triangle or the square cylinder cover and on predetermined sea, fall with tidal rise, and on the bearing frame on triangle or square cylinder top and on the bearing frame at large-scale buoyancy aid center several cylinder sleeve pistons that can fall suction between the two by predetermined scheme with the tidal rise setting-out are being installed respectively.Fresh water pressure deliver in the dark cold energy exchanger of seabed 300-400 rice inhale the cold 6-10 of being cooled to degree after, compressing insulation water reservoir or the direct sending of delivering to the seashore eminence recycles to the factory floor ice making or as cooling water again, reaches the purpose of the 40%-80% that economizes on electricity.Concrete connection scheme is: adopt two schemes to implement respectively.Embodiment one, adopt the thick foam plate of stainless steel plate holder one deck to be built into a large-area large-scale buoyancy aid platform that presets on the sea in any zone, also can adopt other across the sea long-lived material build large-scale buoyancy aid platform.Then, lay the load-bearing beam column at the end and the face of monoblock buoyancy aid platform anyhow by predetermined ratio, connect the supporting frame that the two sides disjunctor is made in weldering.Next step, in the seabed, erect and exceed rise some circle posts of the topnotch predetermined altitude that rises of sea tide, the circle post passes the preformed hole of large-scale buoyancy aid, large-scale buoyancy aid platform is fixed in the sea of pre-selected, and control this large-scale buoyancy aid platform can the lifting with the tide fluctuation, but cannot be with being beaten by wind and waves and the position that drifts about.Anyhow setting up back timber frame and welding or plate oncomelania silk at some circle capital ends fixes, then the Large Piston back-off is fixed under the back timber frame, and on the supporting frame of the corresponding large-scale buoyancy aid of Large Piston, fix one with the Large Piston large-scale cylinder sleeve that is inserted in of suitable sealing mutually, the structure of this cylinder sleeve piston and ordinary bicycle are inflated sample of inflator, are that used manufactured materials and size is inequality.Install in large-scale cylinder sleeve bottom one can only intake can not water outlet one-way valve, the preformed hole that the cylindrical shell lower nozzle of one-way valve passes large-scale buoyancy aid platform and seashore water valve from the beginning are connected.The one-way valve that can only water outlet can not intake is installed at the top of Large Piston, after the outlet of one-way valve connects a water valve, is gone into water one-way valve with the high tower insulation water reservoir of seashore again with aqueduct and be connected.The outlet valve that is incubated water reservoir then is communicated with respectively with user's water delivery thermal insulation pipes such as ice making plant or refrigeration plant, refrigerated warehouses again.The structure of scheme two and scheme one are basic identical, difference is that the compressed water generation apparatus that adopts is not large-scale cylinder sleeve piston, but adopt withstand voltage anti-folded soft material to make, be used for usually inflating blowing the flexible the same shape performance of bag of calming the anger of cortex, a large-scale flexible setting-out bag.The end of the large-scale setting-out bag that this is scalable and face be individually fixed on the large-scale buoyancy aid platform and column back timber frame at the bottom of, connect in the bottom of large-scale setting-out bag then one can only intake can not water-break one-way valve, and the valve lower nozzle is passed large-scale buoyancy aid platform be connected with the water valve from the beginning of seashore, and connect the one-way valve that can only water outlet can not intake at the top of flexible large-scale setting-out bag, one-way valve is connected with the water one-way valve of going into of the insulation water reservoir of seashore eminence, and the rise thermal insulation delivery pipe that is incubated the users such as outlet valve connection ice making refrigeration plant of water reservoir then connects logical respectively.Arrive this, the assembling of scheme two connects to be finished.
Working principle: tide goes up, and large-scale buoyancy aid and large-scale cylinder sleeve float, and the tap water in the compressing cylinder sleeve enters and is sent to seashore eminence insulation water reservoir after seabed cold energy exchanger is inhaled cold cooling, delivers to use conserver power source such as factory's ice making by insulation water reservoir branch again.Because use the tap water ice making of normal temperature 26-30 degree to need power consumption to many 50%-70% than the ice making of employing 6-10 degree cold water, but the present invention conserver power source thus.
Social benefit: the main costs of industry such as coastal ice making, freezing, refrigerated warehouse are electricity charge expenditures, if having half user as above to obtain technique device of the present invention uses, the number of power sources of its saving all is very huge, the investment of building the morning and evening tides compressed water generation apparatus except investment is shared, economic benefit will be very considerable.All-round popularization therefore of the present invention is used, and will have very active operation significance to coastal state and China's Coastal Areas.
Claims (3)
1. the oceanic tide setting-out is got the freezing method of saving electric power of cold ice making and device thereof, main implementation methods is: the morning and evening tides of taking to utilize the ocean all taking place every day, namely flood tide and the potential difference of sea level one rise and one drop at ebb tide changes rule, utilize large-scale buoyancy aid platform to be set in triangle or the square cylinder cover and on predetermined sea, fall with tidal rise, and on the bearing frame on triangle or square cylinder top and on the bearing frame at large-scale buoyancy aid center several cylinder sleeve pistons that can fall suction between the two by predetermined scheme with the tidal rise setting-out are being installed respectively.Fresh water pressure deliver in the dark cold energy exchanger of seabed 300-400 rice inhale the cold 6-10 of being cooled to degree after, compressing insulation water reservoir or the direct sending of delivering to the seashore eminence recycles to the factory floor ice making or as cooling water again, reaches the purpose of the 40%-80% that economizes on electricity.
2. the oceanic tide setting-out is got the scheme one that the device of the freezing method of saving electric power of cold ice making and device thereof build to install connects and is: adopt the thick foam plate of stainless steel plate holder one deck to be built into a large-area large-scale buoyancy aid platform that presets on the sea in any zone, also can adopt other across the sea long-lived material build large-scale buoyancy aid platform.Then, lay the load-bearing beam column at the end and the face of monoblock buoyancy aid platform anyhow by predetermined ratio, connect the supporting frame that the two sides disjunctor is made in weldering.Next step, in the seabed, erect and exceed rise some circle posts of the topnotch predetermined altitude that rises of sea tide, the circle post passes the preformed hole of large-scale buoyancy aid, large-scale buoyancy aid platform is fixed in the sea of pre-selected, and control this large-scale buoyancy aid platform can the lifting with the tide fluctuation, but cannot be with being beaten by wind and waves and the position that drifts about.Anyhow setting up back timber frame and welding or plate oncomelania silk at some circle capital ends fixes, then the Large Piston back-off is fixed under the back timber frame, and on the supporting frame of the corresponding large-scale buoyancy aid of Large Piston, fix one with the Large Piston large-scale cylinder sleeve that is inserted in of suitable sealing mutually, the structure of this cylinder sleeve piston and ordinary bicycle are inflated sample of inflator, are that used manufactured materials and size is inequality.Install in large-scale cylinder sleeve bottom one can only intake can not water outlet one-way valve, the preformed hole that the cylindrical shell lower nozzle of one-way valve passes large-scale buoyancy aid platform and seashore water valve from the beginning are connected.The one-way valve that can only water outlet can not intake is installed at the top of Large Piston, after the outlet of one-way valve connects a water valve, is gone into water one-way valve with the high tower insulation water reservoir of seashore again with aqueduct and be connected.The outlet valve that is incubated water reservoir then is communicated with respectively with user's water delivery thermal insulation pipes such as ice making plant or refrigeration plant, refrigerated warehouses again.
3. the oceanic tide setting-out device of getting the freezing method of saving electric power of cold ice making and device thereof is installed connectivity scenario two and is: the structure of scheme two and scheme one are basic identical, difference is that the compressed water generation apparatus that adopts is not large-scale cylinder sleeve piston, but adopt withstand voltage anti-folded soft material to make, be used for usually inflating blowing the flexible the same shape performance of bag of calming the anger of cortex, a large-scale flexible setting-out bag.The end of the large-scale setting-out bag that this is scalable and face be individually fixed on the large-scale buoyancy aid platform and column back timber frame at the bottom of, connect in the bottom of large-scale setting-out bag then one can only intake can not water-break one-way valve, and the valve lower nozzle is passed large-scale buoyancy aid platform be connected with the water valve from the beginning of seashore, and connect the one-way valve that can only water outlet can not intake at the top of flexible large-scale setting-out bag, one-way valve is connected with the water one-way valve of going into of the insulation water reservoir of seashore eminence, and the rise thermal insulation delivery pipe that is incubated the users such as outlet valve connection ice making refrigeration plant of water reservoir then connects logical respectively.Arrive this, the assembling of scheme two connects to be finished.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2013101766140A CN103233874A (en) | 2013-05-14 | 2013-05-14 | Method and device for saving electricity for ice making and freezing through ocean tide pressurized-water cooling |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2013101766140A CN103233874A (en) | 2013-05-14 | 2013-05-14 | Method and device for saving electricity for ice making and freezing through ocean tide pressurized-water cooling |
Publications (1)
Publication Number | Publication Date |
---|---|
CN103233874A true CN103233874A (en) | 2013-08-07 |
Family
ID=48881933
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2013101766140A Pending CN103233874A (en) | 2013-05-14 | 2013-05-14 | Method and device for saving electricity for ice making and freezing through ocean tide pressurized-water cooling |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN103233874A (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB191119115A (en) * | 1911-08-25 | 1912-01-11 | Enos Andrew Wall | Improvements in connected with Wave Motors. |
CN2456111Y (en) * | 2000-12-29 | 2001-10-24 | 深圳市玉霖工业设计有限公司 | Ice maker from seawater |
CN101539347A (en) * | 2008-03-21 | 2009-09-23 | 郭芳声 | Seafloor cold-water-pipe water taking system for ocean thermal energy conversion power plants |
CN102261304A (en) * | 2010-05-28 | 2011-11-30 | 郑涛 | Rocker arm type ocean wave driven piston pump |
CN103453707A (en) * | 2013-01-04 | 2013-12-18 | 李宏江 | Electricity-saving ice-making and freezing method utilizing ocean tide to press water to cool and device thereof |
-
2013
- 2013-05-14 CN CN2013101766140A patent/CN103233874A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB191119115A (en) * | 1911-08-25 | 1912-01-11 | Enos Andrew Wall | Improvements in connected with Wave Motors. |
CN2456111Y (en) * | 2000-12-29 | 2001-10-24 | 深圳市玉霖工业设计有限公司 | Ice maker from seawater |
CN101539347A (en) * | 2008-03-21 | 2009-09-23 | 郭芳声 | Seafloor cold-water-pipe water taking system for ocean thermal energy conversion power plants |
CN102261304A (en) * | 2010-05-28 | 2011-11-30 | 郑涛 | Rocker arm type ocean wave driven piston pump |
CN103453707A (en) * | 2013-01-04 | 2013-12-18 | 李宏江 | Electricity-saving ice-making and freezing method utilizing ocean tide to press water to cool and device thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
TWI510710B (en) | Marine power generation system | |
EP3256716A1 (en) | Hydro-pneumatic energy storage system | |
CN103011343B (en) | Novel energy saving environment-friendly sea water desalination system | |
CN105756843A (en) | Double-shell type pumped storage system | |
CN206673032U (en) | All-vanadium liquid flow energy storage battery is electrolysed liquid pipeline integrated system | |
CN201526405U (en) | Vacuum siphon water-passing power generation device | |
CN104454357A (en) | Wind energy and wave energy combined electricity generation device | |
CN103161657A (en) | Hydraulic type water-surface power generating device | |
WO2014101369A1 (en) | Pressurised-water integrated-type energy conversion and power-generation system collecting marine wave energy | |
CN103453707A (en) | Electricity-saving ice-making and freezing method utilizing ocean tide to press water to cool and device thereof | |
CN103061990B (en) | A kind of renewable energy source microgrid system of oil-field oil pumper | |
CN102094214B (en) | Hydrogen/oxygen energy generator | |
CN103615357A (en) | Cyclic wind, solar and wave power generation and sea water desalination system | |
CN203584686U (en) | Wind-energy, solar-energy and wave-energy circular and complementary power generating and seawater desalting device | |
CN103233874A (en) | Method and device for saving electricity for ice making and freezing through ocean tide pressurized-water cooling | |
CN202936230U (en) | Novel energy-saving an environment-friendly seawater desalination system | |
CN201901708U (en) | Oxyhydrogen energy source generator | |
CN203837311U (en) | Sea-wave-comprehensive-utilization heating, electricity generation and sea water desalination system | |
CN103822388B (en) | A kind of heat supply generating of wave comprehensive utilization and seawater desalination system | |
CN202030557U (en) | Gravity-flow spray evaporation system | |
CN103033009A (en) | Electricity-saving method and device for ice making by pumping water into deep sea using sea waves to absorb cold energy | |
CN104452879A (en) | Horizontal wind-solar complementary device extracting water from air | |
CN203130356U (en) | Pneumatic type transmission device and pneumatic type transmission system | |
CN203575246U (en) | Device for lifting water to irrigate trees from rainwater collection tank by hydrogen cell powered lift pump | |
CN103061317A (en) | Ocean tide water-pressurizing power station |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20130807 |