CN203951405U - The gallium arsenide film solar cell floating on water power station that lithium ion battery ship is dilatory - Google Patents

Abstract

The utility model relates to the dilatory gallium arsenide film solar cell floating on water power station of lithium ion battery ship, belongs to technical field of new energy application.Lithium ion battery power traction ship first is by left drag rope, and lithium ion battery power traction ship second is travelled on the water surface by the dilatory floating on water of right drag rope power station.Solar radiation is arranged on the electric current of the gallium arsenide film solar cell generation on floating on water power station and inputs photovoltaic controller, shunt by conductor wire, from the electric current of shunt output, by a conductor wire, input charging device first, electric power storage lithium ion battery first, from electric power storage lithium ion battery first, to rotation beacon, searchlight, power lithium-ion battery first and motor first, power, produce the power in dilatory floating on water power station.From the electric current of shunt output, by another root conductor wire input charging device second, electric power storage lithium ion battery second, from electric power storage lithium ion battery second to power lithium-ion battery second with the power supply of motor second, produce the power in dilatory floating on water power station.

Description

The gallium arsenide film solar cell floating on water power station that lithium ion battery ship is dilatory

Technical field

The utility model relates to the dilatory gallium arsenide film solar cell floating on water power station of lithium ion battery ship, belongs to technical field of new energy application.

Background technology

Nearly ten years, the global size of population increases sharply, and expects 2014 and will reach 7,200,000,000 people, will reach 8,000,000,000 people to the year two thousand forty.Chinese per capita household electricity consumption 3483 kilowatt hours in 2011, increase by 351 kilowatt hours than last year, surpass world average level, estimate that, before the year two thousand thirty, the size of population of China, per capita household electricity consumption level and electric power are supplied with still can be increased.In since industrialization more than 200 year of human society, a large amount of burning coals and oil generating, promoted industrial production, improved the people's living standard, discharged a large amount of carbon dioxide, sulfur dioxide and particulate pollutant in air simultaneously.The increase of gas concentration lwevel in atmosphere on earth surface, causes occurring on earth surface greenhouse effect, has caused climate change, flood, arid, high temperature have had influence on many crowds' life.The increase of sulfur dioxide concentration in atmosphere on earth surface, causes on earth surface deacidification rain frequently, acid rain corrosion a large amount of building and cultural relics and historic sites, the seawater of acidifying and the fresh water of acidifying have had influence on the normal growth of fish and shrimps.The pollutant rolling up on earth surface, has caused air pollution, water pollution and soil pollution, and eco-environmental quality is declined.The capacity of environment carrying pollutant is limited, and it is very difficult curbing environmental pollution.Current energy revolution, the clean energy resourcies that use have been proposed, use or do not use less fossil energy, clean energy resource has solar energy, wind energy, oceanic energy, solar photovoltaic technology is the clean energy technology that is worth large-scale popularization, extensive use, to produce the solar cell of manufacturing with more raw material on the one hand, will increase on the one hand the erection space of solar cell as far as possible, could increase the quantity of utilizing clean energy resource generating.

On May 12nd, 2014, the secretary Luo Zhijun of Zhong Gong Jiangsu Provincial Party Committee has investigated Guodian Photovoltaic (Jiangsu) Co., Ltd. in Jiangyin City.The GaAs flexible thin-film solar cell of National Electricity Co.'s research and development, indices reaches world-class levels, and becomes the enterprise that advanced flexible gallium arsenide solar cell technology is manufactured in domestic unique grasp.Luo Zhijun emphasizes, Jiangsu Province, as photovoltaic industry the largest province, further strengthen key technology research and development, does new technology deposit well, seizes the commanding elevation of Mirae Corp.'s competition.The flexible gallium arsenide film solar cell that has had extensive manufacture, installs the application technology deficiency that a large amount of flexible gallium arsenide film solar cells carry out photovoltaic generation.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, provides lithium ion battery ship dilatory gallium arsenide film solar cell floating on water power station.

Gallium arsenide film solar cell has many advantages: 1. radioresistance.Being suitable for space photovoltaic plant, is aerospace craft high-performance, long-life space main power source, and ' Heavenly Palace ' spacelab of China's transmitting in 2011, adopts three-junction gallium arsenide solar cell to power aloft.2. high temperature resistant.Under the condition of 250 ℃, opto-electronic conversion performance is still good, is applicable to making optically focused thin-film solar cells, and under high-effective concentration device, the photoelectric conversion efficiency of gallium arsenide film solar cell reaches 28%, has surpassed the photoelectric conversion efficiency of all silicon solar cells.3. good development prospect.Gallium arsenide solar cell is a kind of semi-conducting material of direct band gap, its energy gap is in absorbing the more optimum value of sunlight, be applied to the new technologies such as quantum dot solar cell and lamination solar cell on gallium arsenide film solar cell future, and its photoelectric conversion efficiency is hopeful to break through 30%.The photoelectric conversion efficiency of thin-film solar cells is higher, illustrates with clean energy resource generating than having improved by the market competitiveness of fossil energy generating.

Tellurian land surface is only taken up an area 29% of ball surface area, in limited land surface, to plant cereal crops and industrial crops, guarantee the needs that a large amount of population is had a meal and worn the clothes, to supply soil to real estate, meet the needs of a large amount of population houses, build on land photovoltaic plant, large-area solar cell is installed need to be taken large stretch of soil, silicon solar cell photovoltaic plant land occupation for up to 25 years, the energy with plant grain, plant vegetables, build a house, the land used contradiction of greening, traffic is increasing.Gallium arsenide film solar cell manufacturing enterprise wishes the area large, that can expose to sunlight, gallium arsenide film solar cell is installed in a large number, this large area can only be implemented on the water surface that takes up an area ball surface area 71%, wherein ocean area accounts for 70%, the fresh water water surface accounts for 1%, particularly flexible gallium arsenide film solar cell is applicable to being arranged on and on the upper face in floating on water power station, carries out with ripple by unrestrained photovoltaic generation, in ocean, the clean energy resource generating of not discharging carbon dioxide, sulfur dioxide and particulate pollutant of lake, rivers, reservoir.Only greatly develop photovoltaic generation waterborne and provide in a large number clean electric power to human society, could reduce human society to using the dependence of fossil energy generating, accelerate the process that global governance is polluted.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

By the lithium ion battery power traction ship first 2 on the water surface 1, driver's cabin first 3, network information transmitting-receiving storage device first 4, rotation beacon 5, searchlight 6, electric power storage lithium ion battery first 7, charging device first 8, conductor wire 9, power lithium-ion battery first 10, motor first 11, power transmission shaft first 12, screw first 13, lithium ion battery power traction ship second 14, driver's cabin second 15, network information transmitting-receiving storage device second 16, electric power storage lithium ion battery second 17, charging device second 18, power lithium-ion battery second 19, motor second 20, power transmission shaft second 21, screw second 22, floating on water power station 23, flotation gear 24, shunt 25, photovoltaic controller 26, gallium arsenide film solar cell 27, right drag rope 28, left drag rope 29 forms jointly,

Driver's cabin first 3 is installed in front portion in lithium ion battery power traction ship first 2, network information transmitting-receiving storage device first 4 is installed on the top of driver's cabin first 3, at the rear of driver's cabin first 3, rotation beacon 5 is installed, top at rotation beacon 5 is provided with searchlight 6, at the middle part of lithium ion battery power traction ship first 2, electric power storage lithium ion battery first 7 is installed, charging device first 8, conductor wire 9, installs power lithium-ion battery first 10 at the rear portion of lithium ion battery power traction ship first 2, motor first 11, power transmission shaft first 12, screw first 13, left drag rope 29, driver's cabin second 15 is installed in front portion in lithium ion battery power traction ship second 14, network information transmitting-receiving storage device second 16 is installed on the top of driver's cabin second 15, at the middle part of lithium ion battery power traction ship second 14, electric power storage lithium ion battery second 17 is installed, charging device second 18, conductor wire 9, installs power lithium-ion battery second 19 at the rear portion of lithium ion battery power traction ship second 14, motor second 20, power transmission shaft second 21, screw second 22, right drag rope 28, installs flotation gear 24 in the bottom in floating on water power station 23, and shunt 25 is installed in the front portion on the upper face in floating on water power station 23, photovoltaic controller 26, conductor wire 9, gallium arsenide film solar cell 27 is installed at the middle part on the upper face in floating on water power station 23 and rear portion,

In lithium ion battery power traction ship first 2, electric power storage lithium ion battery first 7 is by conductor wire 9 and rotation beacon 5, searchlight 6, driver's cabin first 3 is connected with network information transmitting-receiving storage device first 4, electric power storage lithium ion battery first 7 is connected with power lithium-ion battery first 10 by conductor wire 9, power lithium-ion battery first 10 is connected with motor first 11 by conductor wire 9, motor first 11 is connected with screw first 13 by power transmission shaft first 12, charging device first 8 in electric power storage lithium ion battery first 7 is connected with the shunt 25 on floating on water power station 23 by conductor wire 9, lithium ion battery power traction ship first 2 is connected with floating on water power station 23 by left drag rope 29, in lithium ion battery power traction ship second 14, electric power storage lithium ion battery second 17 is connected with power lithium-ion battery second 19 by conductor wire 9, power lithium-ion battery second 19 is connected with motor second 20 by conductor wire 9, motor second 20 is connected with screw second 22 by power transmission shaft second 21, charging device second 18 in electric power storage lithium ion battery second 17 is connected with the shunt 25 on floating on water power station 23 by conductor wire 9, lithium ion battery power traction ship second 14 is connected with floating on water power station 23 by right drag rope 28, on the upper face in floating on water power station 23, gallium arsenide film solar cell 27 is connected with photovoltaic controller 26 by conductor wire 9, photovoltaic controller 26 is connected with shunt 25 by conductor wire 9.

Electric power storage lithium ion battery first 7, power lithium-ion battery first 10, electric power storage lithium ion battery second 17 and power lithium-ion battery second 19 are ferric phosphate lithium ion battery or cobalt acid lithium ion battery or lithium titanate lithium ion battery or manganate lithium ion battery.

Compared with prior art, the beneficial effects of the utility model are: 1. near terrestrial equator, on the strong high temperature sea of solar radiation, travelling the floating on water power station of flexible gallium arsenide film solar cell is being installed, due to gallium arsenide film solar-electricity pool high temperature resistant, energy normal power generation on tropical sea, to the rotation beacon and the searchlight power supply that are arranged in lithium ion battery power traction ship first, the bright light beam of searchlight transmitting illuminates the mark on navigation channel, guarantees navigation safety.2. because the electricity conversion of gallium arsenide film solar cell is high, energy output in unit are is relatively large, so, receive from the more substantial electric current of gallium arsenide film solar cell output with the larger accumulate capacity of four lithium ion batteries respectively to electric power storage lithium ion battery first, the power lithium-ion battery first in lithium ion battery power traction ship first and electric power storage lithium ion battery second, the power lithium-ion battery second input current in lithium ion battery power traction ship second by shunt.The energy output in gallium arsenide film solar cell floating on water power station is large, and utilization benefit is good.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Embodiment

Lithium ion battery power traction ship first is by left drag rope, and lithium ion battery power traction ship second is travelled on the water surface by the dilatory floating on water of right drag rope power station.Solar radiation is arranged on the electric current of the gallium arsenide film solar cell generation on floating on water power station and inputs photovoltaic controller, shunt by conductor wire, from the electric current of shunt output, by a conductor wire, input charging device first, electric power storage lithium ion battery first, from electric power storage lithium ion battery first, to rotation beacon, searchlight, power lithium-ion battery first and motor first, power, produce the power in dilatory floating on water power station.From the electric current of shunt output, by another root conductor wire input charging device second, electric power storage lithium ion battery second, from electric power storage lithium ion battery second to power lithium-ion battery second with the power supply of motor second, produce the power in dilatory floating on water power station.

The utility model is further described in connection with the embodiment in accompanying drawing below:

By the lithium ion battery power traction ship first 2 on the water surface 1, driver's cabin first 3, network information transmitting-receiving storage device first 4, rotation beacon 5, searchlight 6, electric power storage lithium ion battery first 7, charging device first 8, conductor wire 9, power lithium-ion battery first 10, motor first 11, power transmission shaft first 12, screw first 13, lithium ion battery power traction ship second 14, driver's cabin second 15, network information transmitting-receiving storage device second 16, electric power storage lithium ion battery second 17, charging device second 18, power lithium-ion battery second 19, motor second 20, power transmission shaft second 21, screw second 22, floating on water power station 23, flotation gear 24, shunt 25, photovoltaic controller 26, gallium arsenide film solar cell 27, right drag rope 28, left drag rope 29 forms jointly,

Driver's cabin first 3 is installed in front portion in lithium ion battery power traction ship first 2, network information transmitting-receiving storage device first 4 is installed on the top of driver's cabin first 3, at the rear of driver's cabin first 3, rotation beacon 5 is installed, top at rotation beacon 5 is provided with searchlight 6, at the middle part of lithium ion battery power traction ship first 2, electric power storage lithium ion battery first 7 is installed, charging device first 8, conductor wire 9, installs power lithium-ion battery first 10 at the rear portion of lithium ion battery power traction ship first 2, motor first 11, power transmission shaft first 12, screw first 13, left drag rope 29, driver's cabin second 15 is installed in front portion in lithium ion battery power traction ship second 14, network information transmitting-receiving storage device second 16 is installed on the top of driver's cabin second 15, at the middle part of lithium ion battery power traction ship second 14, electric power storage lithium ion battery second 17 is installed, charging device second 18, conductor wire 9, installs power lithium-ion battery second 19 at the rear portion of lithium ion battery power traction ship second 14, motor second 20, power transmission shaft second 21, screw second 22, right drag rope 28, installs flotation gear 24 in the bottom in floating on water power station 23, and shunt 25 is installed in the front portion on the upper face in floating on water power station 23, photovoltaic controller 26, conductor wire 9, gallium arsenide film solar cell 27 is installed at the middle part on the upper face in floating on water power station 23 and rear portion,

In lithium ion battery power traction ship first 2, electric power storage lithium ion battery first 7 is by conductor wire 9 and rotation beacon 5, searchlight 6, driver's cabin first 3 is connected with network information transmitting-receiving storage device first 4, electric power storage lithium ion battery first 7 is connected with power lithium-ion battery first 10 by conductor wire 9, power lithium-ion battery first 10 is connected with motor first 11 by conductor wire 9, motor first 11 is connected with screw first 13 by power transmission shaft first 12, charging device first 8 in electric power storage lithium ion battery first 7 is connected with the shunt 25 on floating on water power station 23 by conductor wire 9, lithium ion battery power traction ship first 2 is connected with floating on water power station 23 by left drag rope 29, in lithium ion battery power traction ship second 14, electric power storage lithium ion battery second 17 is connected with power lithium-ion battery second 19 by conductor wire 9, power lithium-ion battery second 19 is connected with motor second 20 by conductor wire 9, motor second 20 is connected with screw second 22 by power transmission shaft second 21, charging device second 18 in electric power storage lithium ion battery second 17 is connected with the shunt 25 on floating on water power station 23 by conductor wire 9, lithium ion battery power traction ship second 14 is connected with floating on water power station 23 by right drag rope 28, on the upper face in floating on water power station 23, gallium arsenide film solar cell 27 is connected with photovoltaic controller 26 by conductor wire 9, photovoltaic controller 26 is connected with shunt 25 by conductor wire 9.

Electric power storage lithium ion battery first 7, power lithium-ion battery first 10, electric power storage lithium ion battery second 17 and power lithium-ion battery second 19 are ferric phosphate lithium ion battery or cobalt acid lithium ion battery or lithium titanate lithium ion battery or manganate lithium ion battery.

The buoyancy that the floating material using in the flotation gear of bottom, floating on water power station provides must support the total weight in floating on water power station.Needs due to developing surface, the needs of ocean development particularly, the polyurethane foam material of high density PE expanded material, EVA rubber plastic foam material, Polymers high-strength light floating material, the compound floating material of thermosetting lightweight macromolecule, the high buoyancy of high strength, exploitation and the practical application of closed-cell foam floating material, nano plastic floatation of foam material, pipeline floating material, hollow ball floating material, can provide the flotation gear of enough buoyancy to create condition for building for a long time.

Strong solar light irradiation is arranged on the electric current that the gallium arsenide film solar cell on the upper face in floating on water power station produces and inputs photovoltaic controller by conductor wire, from the electric current of photovoltaic controller output, by conductor wire, input shunt, from one electric current of shunt output, by conductor wire, input the electric power storage lithium ion battery first lithium ion battery power traction ship first, the electric current of forwards exporting from electric power storage lithium ion battery first is inputted rotation beacon by conductor wire, searchlight, driver's cabin first and network information transmitting-receiving storage device first, the electric current of rearward exporting from electric power storage lithium ion battery first is by conductor wire input power lithium ion battery first and motor first.From another strand of electric current of shunt output, by conductor wire, input the electric power storage lithium ion battery second lithium ion battery power traction ship second, the electric current of forwards exporting from electric power storage lithium ion battery second is inputted driver's cabin second, network information transmitting-receiving storage device second by conductor wire, and the electric current of rearward exporting from electric power storage lithium ion battery second is by conductor wire input power lithium ion battery second and motor second.Network information transmitting-receiving storage device first and network information transmitting-receiving storage device second keep radio communication to get in touch with by radio communication and command post.Be worth should be mentioned that, better condition has been created in the enforcement that the high-quality power lithium-ion battery peculiar to vessel that New Times battery Jiangyin Co., Ltd manufactures is this patent.

Now enumerate embodiment as follows:

Embodiment mono-:

Ferric phosphate lithium ion battery power traction ship first is by left drag rope, and ferric phosphate lithium ion battery power traction ship second is made a concerted effort to draw floating on water power station by right drag rope and travelled on the water surface.Strong solar light irradiation is arranged on the electric current of the gallium arsenide film solar cell generation on the upper face of floating on water power station and inputs photovoltaic controller adjustment by conductor wire, from the electric current of photovoltaic controller output, by conductor wire, input shunt, from the electric current of shunt output, by a conductor wire, input charging device first, electric power storage ferric phosphate lithium ion battery first, the electric current of forwards exporting from electric power storage ferric phosphate lithium ion battery first by conductor wire to rotation beacon, searchlight, driver's cabin first and the power supply of network information transmitting-receiving storage device first, the electric current of rearward exporting from electric power storage ferric phosphate lithium ion battery first is powered to power ferric phosphate lithium ion battery first and motor first by conductor wire, produce the power in dilatory floating on water power station.From the electric current of shunt output, by another root conductor wire, input charging device second, electric power storage ferric phosphate lithium ion battery second, the electric current of forwards carrying from electric power storage ferric phosphate lithium ion battery second is powered to driver's cabin second, network information transmitting-receiving storage device second by conductor wire, the electric current of rearward carrying from electric power storage ferric phosphate lithium ion battery second is powered to power ferric phosphate lithium ion battery second and motor second by conductor wire, produces the power in dilatory floating on water power station.

Embodiment bis-:

Cobalt acid lithium ion battery power traction ship first is by left drag rope, and cobalt acid lithium ion battery power traction ship second is made a concerted effort to draw floating on water power station by right drag rope and travelled on the water surface.Strong solar light irradiation is arranged on the electric current of the gallium arsenide film solar cell generation on the upper face of floating on water power station and inputs photovoltaic controller adjustment by conductor wire, from the electric current of photovoltaic controller output, by conductor wire, input shunt, from the electric current of shunt output, by a conductor wire, input charging device first, electric power storage cobalt acid lithium ion battery first, the electric current of forwards exporting from electric power storage cobalt acid lithium ion battery first by conductor wire to rotation beacon, searchlight, driver's cabin first and the power supply of network information transmitting-receiving storage device first, the electric current of rearward exporting from electric power storage cobalt acid lithium ion battery first is powered to power cobalt acid lithium ion battery first and motor first by conductor wire, produce the power in dilatory floating on water power station.From the electric current of shunt output, by another root conductor wire, input charging device second, electric power storage cobalt acid lithium ion battery second, the electric current of forwards carrying from electric power storage cobalt acid lithium ion battery second is powered to driver's cabin second, network information transmitting-receiving storage device second by conductor wire, the electric current of rearward carrying from electric power storage cobalt acid lithium ion battery second is powered to power cobalt acid lithium ion battery second and motor second by conductor wire, produces the power in dilatory floating on water power station.

Claims (2)

1. the dilatory gallium arsenide film solar cell floating on water power station of lithium ion battery ship, is characterized in that, by the lithium ion battery power traction ship first (2) on the water surface (1), driver's cabin first (3), network information transmitting-receiving storage device first (4), rotation beacon (5), searchlight (6), electric power storage lithium ion battery first (7), charging device first (8), conductor wire (9), power lithium-ion battery first (10), motor first (11), power transmission shaft first (12), screw first (13), lithium ion battery power traction ship second (14), driver's cabin second (15), network information transmitting-receiving storage device second (16), electric power storage lithium ion battery second (17), charging device second (18), power lithium-ion battery second (19), motor second (20), power transmission shaft second (21), screw second (22), floating on water power station (23), flotation gear (24), shunt (25), photovoltaic controller (26), gallium arsenide film solar cell (27), right drag rope (28), left drag rope (29) forms jointly,

Driver's cabin first (3) is installed in front portion in lithium ion battery power traction ship first (2), network information transmitting-receiving storage device first (4) is installed on the top of driver's cabin first (3), at the rear of driver's cabin first (3), rotation beacon (5) is installed, top at rotation beacon (5) is provided with searchlight (6), electric power storage lithium ion battery first (7) is installed at middle part in lithium ion battery power traction ship first (2), charging device first (8), conductor wire (9), power lithium-ion battery first (10) is installed at rear portion in lithium ion battery power traction ship first (2), motor first (11), power transmission shaft first (12), screw first (13), left drag rope (29), driver's cabin second (15) is installed in front portion in lithium ion battery power traction ship second (14), network information transmitting-receiving storage device second (16) is installed on the top of driver's cabin second (15), electric power storage lithium ion battery second (17) is installed at middle part in lithium ion battery power traction ship second (14), charging device second (18), conductor wire (9), power lithium-ion battery second (19) is installed at rear portion in lithium ion battery power traction ship second (14), motor second (20), power transmission shaft second (21), screw second (22), right drag rope (28), flotation gear (24) is installed in bottom in floating on water power station (23), shunt (25) is installed in front portion on the upper face of floating on water power station (23), photovoltaic controller (26), conductor wire (9), gallium arsenide film solar cell (27) is installed at middle part on the upper face of floating on water power station (23) and rear portion,

In lithium ion battery power traction ship first (2), electric power storage lithium ion battery first (7) is by conductor wire (9) and rotation beacon (5), searchlight (6), driver's cabin first (3) is connected with network information transmitting-receiving storage device first (4), electric power storage lithium ion battery first (7) is connected with power lithium-ion battery first (10) by conductor wire (9), power lithium-ion battery first (10) is connected with motor first (11) by conductor wire (9), motor first (11) is connected with screw first (13) by power transmission shaft first (12), charging device first (8) in electric power storage lithium ion battery first (7) is connected with the shunt (25) on floating on water power station (23) by conductor wire (9), lithium ion battery power traction ship first (2) is connected with floating on water power station (23) by left drag rope (29), in lithium ion battery power traction ship second (14), electric power storage lithium ion battery second (17) is connected with power lithium-ion battery second (19) by conductor wire (9), power lithium-ion battery second (19) is connected with motor second (20) by conductor wire (9), motor second (20) is connected with screw second (22) by power transmission shaft second (21), charging device second (18) in electric power storage lithium ion battery second (17) is connected with the shunt (25) on floating on water power station (23) by conductor wire (9), lithium ion battery power traction ship second (14) is connected with floating on water power station (23) by right drag rope (28), on the upper face of floating on water power station (23), gallium arsenide film solar cell (27) is connected with photovoltaic controller (26) by conductor wire (9), photovoltaic controller (26) is connected with shunt (25) by conductor wire (9).

2. the dilatory gallium arsenide film solar cell floating on water power station of lithium ion battery ship according to claim 1, it is characterized in that, described electric power storage lithium ion battery first (7), power lithium-ion battery first (10), electric power storage lithium ion battery second (17) and power lithium-ion battery second (19) are ferric phosphate lithium ion battery or cobalt acid lithium ion battery or lithium titanate lithium ion battery or manganate lithium ion battery.