CN202550924U - Solar photovoltaic power generation set based on water-ponding strip mine pit - Google Patents
Solar photovoltaic power generation set based on water-ponding strip mine pit Download PDFInfo
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S20/00—Supporting structures for PV modules
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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
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The utility model relates to a solar photovoltaic power generation device based on a water-ponding strip mine pit. The device comprises a bearing-platform photovoltaic assembly, cables and inversion equipment, wherein the bearing-platform photovoltaic assembly comprises a floating bearing platform on water surface formed by float bowls, connecting devices, a bearing-platform fixing and regulating device, photovoltaic subassemblies and supporting frames, the supporting frames are connected among the float bowls, the photovoltaic subassemblies are mounted on the supporting frames, the bearing-platform fixing and regulating device is arranged by establishing foundation piles and pile bearing platforms in the center or at the edge of the mint pit as well as by erecting ropes, and the pile bearing platforms are provided with robe sliding components. The solar photovoltaic power generation device is advantaged in that: (1) the water-ponding surface of the strip mine pit with huge developing difficulty is effectively utilized; (2) the problems of the installation and service life of the power plant caused by the complicacy of geology in the subsequent continuous subsidence area of the mine pit are effectively solved; (3) and the problems such as the intensified efficient implementation and maintenance during the construction of the photovoltaic power plant are effectively solved.
Description
Technical field:
The utility model relates to solar energy photovoltaic generator.
Background technology:
Solar energy photovoltaic generator has been widely used in ground, roof, and the solar power system of installation has become a tool importance of the human use energy.The solar power system on ground, roof does not have tracking means.
Human in the activity of all kinds of mineral products of digging (like coal, heavy metal etc.); Form the open-air pit that area is wide, the degree of depth is considerable through regular meeting; Because of reasons such as landform, hydrogeologys; These open-air pits tend to compile the man-made lake that forms particular types behind all kinds of water sources such as waste water that Atmospheric precipitation, underground water, digging activity produce, promptly open-air pit ponding.
The open-air pit ponding water body that is arranged in the mining area is rich in chemical substances such as slag, heavy metal and arsenic, cadmium, copper, zinc, pyrite, sulfuric acid usually; Show as and have more highly acid sewage; Aquatic organism can't be in such water body survival, and human lives and industrial and agricultural production water also can not be obtained by this type water body.Simultaneously, open-air pit ponding has also taken a large amount of soils, but can't produce any benefit.It is thus clear that open-air pit ponding has become current great environmental pollution and the land seizure problem of needing solution badly.
The utility model content:
The utility model purpose is; For addressing the above problem; Consider that particularly area, China central and east land area capable of using is nervous, the energy lacks; But exist the present situation of the open-air pit of a large amount of unserviceable larger areas ponding simultaneously, propose solar energy photovoltaic generator, utilize technology to combine the open-air pit ponding water surface with solar energy (photovoltaic, photo-thermal) generation technology based on the open-air pit of ponding; Design a kind of possess good economy and engineering; Based on the device of solar generating of open-air pit ponding, to realize that effective utilization, especially solar power system to open-air pit ponding water surface area and cooling effect are the electricity generation systems with tracking means.The output clean electric power supplies life and industrial and agricultural production to use, and makes the open-air pit ponding that is in discarded state at present basically can create the economic benefit of generating, can create the social benefit that reduces discharging, protection environment again.
The utility model purpose is especially: to the open-air pit ponding that has been polluted; Proposition can be applicable to the photovoltaic generation scheme in this environment, comprising: members such as the floating cushion cap of safe, stable, anticorrosion, the eco-friendly water surface and relevant connects, battery installation, cable connection; Be applicable to ponding water surface photovoltaic generating system design of open-air pit and implementation method that different geographic regions, climatic environment, geological structure, area and water quality constitute.Adopt the cushion cap pattern that photovoltaic module is installed, the container Design Pattern becomes power distribution room, in different mining areas or the same pit zones of different cap design of pile of different schemes respectively.
The technical scheme of the utility model is: based on the solar energy photovoltaic generator in the open-air pit of ponding; Comprise cushion cap photovoltaic module, cable and contravariant equipment, it is characterized in that the cushion cap photovoltaic module comprises that floating drum constitutes floating cushion cap of the water surface and jockey, cushion cap is fixing and adjusting device, photovoltaic module and support; Support is connected between the floating drum, and photovoltaic module is rack-mount, and cushion cap is fixing and adjusting device is on the limit, pit or central authorities set up foundation pile and pile framing and set up rope, installing rope slip member on the pile framing.
Cushion cap is provided with the device of following the tracks of rotation with the variation of solar azimuth.
It is hollow cylindrical shell (metal or plastics all can) that the floating drum material adopts compression foam particle or floating drum.
Solar energy photovoltaic generator based on the open-air pit of ponding; Comprise cushion cap photovoltaic module, electric equipment, environment measuring appearance, watch-dog, cable and contravariant equipment, the cushion cap photovoltaic module comprises floating cushion cap of the water surface and jockey, cushion cap is fixing and members such as adjusting device, photovoltaic module and support; Cushion cap is fixed and adjusting device is to set up foundation pile and set up rope on the bank in ponding pit, installing rope slip member on the foundation pile; Rope passes (slip) slotted eye on the cushion cap, to eliminate invalid floating moving.Cushion cap is provided with the slip slotted eye to be influenced due to the water level fuctuation within a narrow range of eliminating the ponding pit, pile foundation be provided with sliding component significantly go up and down with the water level of eliminating the ponding pit due to influence.
Cushion cap can be followed the tracks of rotation with the variation of solar azimuth; Can be with the up-down of going up and down to float of pit ponding; And effectively utilize the temperature drop characteristic of the water surface to improve the photovoltaic module generating efficiency, thus realize improving unit assembly area energy output, and can independently adapt to pit water accumulation level variation.
The cushion cap adjusting device is, is provided with rope coiling drive unit on the foundation pile in the installing rope slip member, through electronic or manually make the length drives cushion cap of rope to change on the foundation pile of diverse location, and cushion cap is followed the tracks of rotation with the variation of solar azimuth.
First kind of cushion cap adopts keg float to splice and combine and forms, and keg float has been the market-ripe member at present, can directly purchase.Second kind of special-purpose cushion cap mould of photovoltaic waterborne that cushion cap adopts design voluntarily produced special-purpose floating cushion cap, reduces the mold design cost through mass production.
The keg float material adopts the compression foam particle; Keg float and special-purpose photovoltaic cap mold tool hard link part can adopt engineering plastics; Two kinds of scheme all materials are anti-rotten, antifreeze, anti-oxidant, anti-ultraviolet reinforcement material, do not receive the erosion of open-air pit heavy metal ponding, chemicals, medicament, oil stain and (possible) aquatic organism; Pollution-free, do not destroy environment.Cushion cap has high-bearing capacity, and cylindrical shell is steady, durable, and the moulding specialty is installed simple and easy.The heavy snow that design taken into full account its wind load, met standard in 30 years one overstocks and other relevant criterion, and the special-purpose cushion cap bearing capacity of single keg float bearing capacity and single photovoltaic all has enough nargin.
First kind of cushion cap can adopt water mode under land assembling, the integral body, also can adopt water under local installation of going ahead of the rest, and water section is as the operating platform of subsequent installation under the elder generation.Second kind of cushion cap adopts the micromodule installation, disposes according to the job site needs fully.Two kinds of easily assembled, quick, flexible, various shapesization of scheme, integral body adopts modular structure, can cooperate the demand of various situations, changes the platform moulding rapidly.
The structure of cushion cap is: adopt the interconnected cushion cap of unimodule modularization; Constitute photovoltaic module cushion cap on the dedicated water; This cushion cap is formed by many component compositions, is connected to form single photovoltaic module installation template cushion cap through the engineering plastics screw rod, regulates assembling according to the dimensions realization of photovoltaic module; According to project latitude and weather conditions and photovoltaic module characteristic adjusting part inclination angle; According to project economic and technical norms configuration module cushion cap group string, form the cushion cap string.
The utility model is with the effective utilization in open-air ponding pit and the combination of green energy resource, is applicable to ponding water surface photovoltaic generating system design of open-air pit and implementation method that different geographic regions, climatic environment, geological structure, area and water quality constitute.Adopt the cushion cap pattern that photovoltaic module is installed, the container Design Pattern becomes power distribution room, in different mining areas or the same pit zones of different cap design of pile of different schemes respectively.The utility model is to various open-air ponding pit (comprising the open-air ponding pit of being polluted), designs the photovoltaic generation scheme that can be applicable in this environment.Its key element bag cushion cap waterborne, cushion cap adopt multicompartment modular unit cushion cap, and the polylith solar photovoltaic assembly is assembled in modular unit cushion cap.Same cushion cap is installed the modes such as quantity, inclination angle and electric equipment design of photovoltaic module, can be provided with and dispose according to different photovoltaic module type selectings and project economic and technical norms.Cushion cap is connected in the cushion cap stake through rope (steel or stainless steel cable or chain, nylon rope etc.), and same cushion cap stake can connect a plurality of cushion caps.
Photovoltaic module electric equipment outside the cushion cap modularization, environment measuring appearance, watch-dog, contravariant equipment are existing apparatus.
Electric equipment is installed: above-mentioned two kinds of cushion cap schemes all can adopt centralized (the removable electric equipment of container center) and distributing (independent box being dispersed in around the open-air ponding pit) to install; These two kinds of mounting meanss are eliminated through cushion cap stake and rope to be influenced due to the SEA LEVEL VARIATION, thereby solves power supply offshore transportation problem.Adopt wireless communication technology to realize data acquisition and transmission, thereby implement operation monitoring, offshore diagnosis and data maintenance easily.
The utility model is applicable to the solar photo-voltaic power generation station system schema in the environment of open-air ponding pit; System applies comprises: electric equipment, environment measuring appearance, watch-dog, contravariant equipment etc., and the field of photovoltaic power generation application in full field in the pit in the open.
The utility model beneficial effect is: based on the device of solar generating of open-air pit ponding; Through safety, the floating cushion cap of stable, anticorrosion, the eco-friendly water surface; To realize the effective utilization to open-air pit ponding water surface area and cooling effect, can design solar power system is to have tracking means.The output clean electric power supplies life and industrial and agricultural production to use, and makes the open-air pit ponding that is in discarded state at present basically can create the economic benefit of generating, can create the social benefit that reduces discharging, protection environment again.The utility model can effectively utilize the extensive and discarded useless open-air pit ponding water surface of present distribution; Under the situation that does not take the industrial or agricultural land used; Build the large solar photovoltaic generating system with lower cost; The output clean energy resource provides life and industrial or agricultural electricity consumption, obtains good society and economic benefit.
The utility model proposes to be applicable to the solar photo-voltaic power generation station system schema in the environment of open-air ponding pit; Comprise: electric equipment, environment measuring appearance, watch-dog, contravariant equipment, cushion cap modular optical photovoltaic assembly etc.; And the field of photovoltaic power generation application in full field in the pit in the open, the useful innovation of energy-saving and emission-reduction.Photovoltaic generating system has solved following problems in the ponding environment of the open-air pit of the utility model: (1) effectively utilizes the greatly open-air pit of the development difficulty ponding water surface, solves such environment photovoltaic generation land occupation problem of resource.(2) efficiently solve that power station that follow-up subsidence area successively, pit complicated geology brings is installed and useful life problem.(3) complex technology and the mining area that effectively solves the efficient implementation issue of intensification in the photovoltaic plant construction, the later maintenance uncertain problem that subsides.The core of the utility model is the effective utilization in open-air ponding pit and the combination of green energy resource, and the design of its key element bag A. cushion cap waterborne, B. have proposed solution to the problem that photovoltaic generating system in the ponding environment of open-air pit faces.
The economy of the open-air ponding of the utility model pit TRT is also obvious: the land use zero cost; Open-air pit electricity generation system becomes distribution section device fabrication, civil engineering and installing engineering, all adopts standardization, compares with the ground light photovoltaic generating system, has reduced design and manufacture cost and management cost.Photovoltaic cushion cap processing technology requires ripe, and material is general, cost economic, and the cushion cap fitting operation is simple, the later maintenance cost.
Description of drawings
Fig. 1 is the utility model photovoltaic cells module vertical view
Fig. 2 is the utility model pile framing structural representation;
Fig. 3 is the utility model side supports scheme of installation;
Fig. 4 is that the utility model pile framing is connected sketch map with unit module;
Fig. 5 is the utility model application examples side supports scheme of installation;
Fig. 6 is the draw-in groove sketch map of the utility model self-contained battery plate;
Fig. 7 is the special-purpose buoyancy tank sketch map of the utility model.
Floating drum 1, horizontal plane 2, the collar 3, pre-buried bar 4, wirerope 5, stake 6, pile framing 7, unit module photovoltaic module 8, steel bracket 9.
Embodiment:
Open-air ponding pit solar energy power generating scheme implementation example: following description is to the applicating example of the utility model " open-air ponding pit solar energy photovoltaic generator ".The utility model comprises but is not limited to following applicating example.
1) photovoltaic generating system arrangement
Should be with selecting amorphous silicon thin-film solar cell (also can adopt higher monocrystalline of efficient or polysilicon solar cell) for example for use; Unit module has 108 photovoltaic modulies and forms; Single photovoltaic module is placed according to horizontal (the long limit of photovoltaic module East and West direction is arranged) mode, vertically places 9, and being connected in series, it is a string to become; Laterally place 12 group strings, be connected to 12 at last and advance 1 and go out header box.
As the module cushion cap, North and South direction is evenly arranged 9 keg floats with keg float, and keg float is laterally placed, each interval 13cm; East-west direction is evenly arranged 25 keg floats, and keg float is vertically placed, each interval 17cm, the whole frame type structure that forms.Be equipped with the photovoltaic cells mounting bracket between the adjacent keg float and constitute cushion cap; Support is the support of the high-end 1350cm height in southern side low side 80cm, north side on the cushion cap; In order to the fixed solar cell panel, photovoltaic cells module mounted angle is 10 degree-35 degree (solar panel has different inclination angle angles at the different geographic latitude).
The cushion cap fixture can be arranged many in order to fixed bearing platform around each unit module; Fig. 4 is the cushion cap fixture; Stake and pile framing that main body is made up of concrete, and the pre-buried bar of waterproof anti-corrosion is set in a side, and utilize the collar, rope to be connected with shaped steel in the unit module; Connect floating drum by rope, be equipped with photovoltaic cells mounting bracket formation cushion cap between the keg float and can fluctuate with water surface fluctuation.Being equipped with the photovoltaic cells mounting bracket between the keg float can be longitudinally, also can be horizontal, or horizontal, vertically use side by side.
When design cell module photovoltaic module total capacity is 4968Wp, 68 of shared keg floats, each needs 4760 yuan of costs by 70 yuan, and then the keg float investment is about 958 yuan every kilowatt.Suppose that this device generate output is 500kW, select a 500kW inverter for use, then whole system has 100 unit modules composition that is connected to each other; 1200 groups of optical crosstalk photovoltaic assemblies are arranged, need 100 header boxs, for wiring simple; Reduce the cable consumption; Reduce the construction complexity, several header boxs can carry out secondary and conflux, and insert inverter then.
2) another embodiment: in the photovoltaic module both sides with keg float is set each other as the photovoltaic module cushion cap, the every row of east-west direction is evenly arranged 11 keg floats, and keg float is vertically placed, and each interval 70cm forms overall structure through steelframe.Lay the support of southern side low side 80cm, the high-end 1050cm height in north side on the cushion cap, in order to the fixed solar cell panel, every solar panel mounted angle is 10 degree, every line spacing 40cm.
Photovoltaic system unit module vertical view is seen Fig. 1, and side cross-section support scheme of installation is seen Fig. 3.
The module fixed form is with using the foregoing description; Around each photovoltaic cells module, arrange many pile framings; The cushion cap main body has concrete to constitute; And the pre-buried bar of waterproof anti-corrosion is set in a side, and utilize the collar, wirerope rope to be connected with shaped steel in the unit module, can fluctuate with water surface fluctuation.
Like design cell module photovoltaic module total capacity is 6624Wp, and shared keg float 1 is 99, and each needs 6390 yuan of costs by 70 yuan, and then the keg float investment is about 1046 yuan every kilowatt.Suppose that this routine generate output is 500kW, select a 500kW inverter for use, then whole system has 75 unit modules composition that is connected to each other; 1200 groups of optical crosstalk photovoltaic assemblies are arranged, need 75 header boxs, for wiring simple; Reduce the cable consumption; Reduce the construction complexity, several header boxs can carry out secondary and conflux, and insert inverter then.Total capacity is 9 * 16 * 75 * 46Wp=496800Wp.
3) should be with selecting polysilicon solar cell for example for use; Unit module is made up of 20 photovoltaic modulies altogether; Single photovoltaic module is placed according to vertical (north-south, the long limit of photovoltaic module is arranged) mode, laterally places 20 and is connected in series and becomes a stringly, a stringly is a unit module.11 unit modules are formed module groups, are connected to 12 at last and advance 1 and go out header box.Photovoltaic module connects sketch map and sees Fig. 1 photovoltaic module layout sketch map.
Keg float is vertically placed, and sets up a solar panel (photovoltaic module) on two keg floats, and cell panel is 30 degree inclination angles, and low side is fixed within the draw-in groove, is fixed on the keg float of southern side through shaped steel, high-endly is connected on the keg float of north side through the 90cm support.Each unit module north and south spacing on the 2m, flexibly connects through circular steel at least at interval.Photovoltaic system unit module vertical view is seen Fig. 1, and the side supports scheme of installation is seen Fig. 5, and the draw-in groove sketch map is seen Fig. 6.
The module fixed form is seen pile framing; Arrange a plurality of pile framings in each unit module thing both sides, the pile framing main body has concrete to constitute, and in a side the pre-buried bar of waterproof anti-corrosion is set; And utilize the collar, rope to be connected with shaped steel in the unit module, can fluctuate with water surface fluctuation.
Unit module photovoltaic module total capacity is 4600Wp, and shared keg float is 40, and each needs 2800 yuan of costs by 70 yuan, and then the keg float investment is about 609 yuan every kilowatt.
Suppose that this project generate output is 500kW, select a 500kW inverter for use, then whole system has 110 unit modules composition that is connected to each other, and 110 groups of optical crosstalk photovoltaic assemblies are arranged, and needs 10 header boxs to insert inverters.
Total capacity is 20 * 11 * 10 * 230Wp=506000Wp.
If the water surface is little, also can be provided with four pile framings at puddle four jiaos, at the fixing all photovoltaic system unit modules of these four bigger pile framings, installation cost is lower like this.
4) this example is selected amorphous silicon thin-film solar cell for use, and the cell panel long side of photovoltaic cells is positioned in the groove of groove type buoyancy tank, and through bolt, cell panel can be regulated the inclination angle.Every cell panel is an absolute construction in this example; Can be according to waters shape and designing requirement; Connect through buoyancy tank diagonal angle engaging lug each other; Composite assembly become different area size electricity generation system, be different from that some cell panels are fixed on the keg float cushion cap through steelframe in above three kinds of applicating examples, no longer stick to the module of fixed size.
The groove type buoyancy tank is seen Fig. 7.The latter half is a spar structures, and there are two vertical circular hole designs the centre, is used to place round bar so that fix the distance of two buoyancy tanks, and there is the diagonal angle engaging lug at position, four corners; The first half of groove type buoyancy tank is provided with the cell panel long side groove of placing photovoltaic cells, and groove is slotted at a side direction, and there is (three) set bolt on the top of groove, is used for fixing cell panel; Buoyancy tank length can be carried out custom-made according to panel size.
Claims (7)
1. based on the solar energy photovoltaic generator in the open-air pit of ponding; Comprise cushion cap photovoltaic module, cable and contravariant equipment, it is characterized in that the cushion cap photovoltaic module comprises that floating drum constitutes floating cushion cap of the water surface and jockey, cushion cap is fixing and adjusting device, photovoltaic module and support; Support is connected between the floating drum, and photovoltaic module is rack-mount, and cushion cap is fixing and adjusting device is on the limit, pit or central authorities set up foundation pile and pile framing and set up rope, installing rope slip member on the pile framing.
2. the solar energy photovoltaic generator based on the open-air pit of ponding according to claim 1 is characterized in that cushion cap is provided with the device of following the tracks of rotation with the variation of solar azimuth.
3. the solar energy photovoltaic generator based on the open-air pit of ponding according to claim 1 and 2 is characterized in that said cushion cap adjusting device is, foundation pile is provided with the rope coiling drive unit that connects cushion cap.
4. the solar energy photovoltaic generator based on the open-air pit of ponding according to claim 1 and 2 is characterized in that floating drum adopts compression foam particle or hollow cylindrical shell.
5. the solar energy photovoltaic generator based on the open-air pit of ponding according to claim 1 and 2, it is characterized in that the structure of cushion cap is: a plurality of floating drums combine, and are connected to form photovoltaic module installation template cushion cap through the engineering plastics screw rod.
6. the solar energy photovoltaic generator based on the open-air pit of ponding according to claim 1 and 2 is characterized in that four jiaos in the pit are provided with four pile framings, at the fixing all cushion cap photovoltaic modulies of these four bigger pile framings.
7. the solar energy photovoltaic generator based on the open-air pit of ponding according to claim 1 and 2; It is characterized in that said floating drum is the groove type buoyancy tank; The latter half of groove type buoyancy tank is a floating box structure, in the middle of the buoyancy tank two vertical circular holes is arranged, and there is the diagonal angle engaging lug at the position, four corners of buoyancy tank; The first half of groove type buoyancy tank is provided with the cell panel long side groove of placing photovoltaic cells, and groove is slotted at a side direction, and there is set bolt on the top of groove.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200584451U CN202550924U (en) | 2012-02-21 | 2012-02-21 | Solar photovoltaic power generation set based on water-ponding strip mine pit |
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CN105186977A (en) * | 2015-08-26 | 2015-12-23 | 浙江融聚节能设备制造有限公司 | Waterborne solar photovoltaic power generation system |
CN105227062A (en) * | 2015-10-28 | 2016-01-06 | 上海箔梧能源有限公司 | Photovoltaic bracket system waterborne |
CN105227063A (en) * | 2015-10-28 | 2016-01-06 | 上海箔梧能源有限公司 | Floatation type photovoltaic panel mounting platform |
CN105227064A (en) * | 2015-10-28 | 2016-01-06 | 上海箔梧能源有限公司 | Floatation type photovoltaic bracket system |
CN105245161A (en) * | 2015-10-28 | 2016-01-13 | 上海箔梧能源有限公司 | Floating power station installation platform |
TWI711268B (en) * | 2016-08-31 | 2020-11-21 | 日商環境資源開發顧問股份有限公司 | Solar power generator set on water |
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2012
- 2012-02-21 CN CN2012200584451U patent/CN202550924U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105186977A (en) * | 2015-08-26 | 2015-12-23 | 浙江融聚节能设备制造有限公司 | Waterborne solar photovoltaic power generation system |
CN105227062A (en) * | 2015-10-28 | 2016-01-06 | 上海箔梧能源有限公司 | Photovoltaic bracket system waterborne |
CN105227063A (en) * | 2015-10-28 | 2016-01-06 | 上海箔梧能源有限公司 | Floatation type photovoltaic panel mounting platform |
CN105227064A (en) * | 2015-10-28 | 2016-01-06 | 上海箔梧能源有限公司 | Floatation type photovoltaic bracket system |
CN105245161A (en) * | 2015-10-28 | 2016-01-13 | 上海箔梧能源有限公司 | Floating power station installation platform |
CN105227063B (en) * | 2015-10-28 | 2018-05-04 | 上海箔梧能源有限公司 | Floatation type photovoltaic panel mounting platform |
TWI711268B (en) * | 2016-08-31 | 2020-11-21 | 日商環境資源開發顧問股份有限公司 | Solar power generator set on water |
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