CN104320044B - Lake surface is built photovoltaic module and the photovoltaic plant of composite buoyancy material system electrolysis water - Google Patents

Abstract

The invention relates to a photovoltaic power station for building electrolytic water made of photovoltaic modules and composite buoyancy materials on a lake, and belongs to the technical field of application of solar cell floating power generation. The current output from the solar cell A installed on the top surface of the PIN structural foam composite sandwich buoyancy matrix material platform A is input to the controller A and the current collector installed on the PIN structural foam composite sandwich buoyancy matrix material platform C, from the current installed on The current output by the solar cell B on the top surface of the PIN structure foam composite sandwich buoyancy matrix material platform B is input to the controller B and the confluence installed on the PIN structure foam composite sandwich buoyancy matrix material platform C, and the current output from the confluence Power is supplied to the electrolytic cell and the water suction pump through the shunt in the electrolytic water machine, and the water sucked by the water suction pump through the suction pipe enters the electrolytic water machine through the filter screen, electrolyzes in the electrolytic cell in the electrolytic water machine, and flows out alkaline electrolyzed water For human drinking, outflow of acidic electrolyzed water to supply domestic water.

Description

Build a photovoltaic power station with photovoltaic modules and composite buoyancy materials to make electrolyzed water on the lake

technical field

The invention relates to a photovoltaic power station for building electrolytic water made of photovoltaic modules and composite buoyancy materials on a lake, and belongs to the technical field of application of solar cell floating power generation.

Background technique

From October 7th to 11th, 2014, the Beijing-Tianjin wing region experienced the first smog weather process of this year, and then from October 17th to 20th, the Beijing-Tianjin wing area encountered another smog day. Some experts said that due to the large proportion of coal-fired power generation, a large amount of harmful gases are emitted into the air, and the number of fuel vehicles is large, which also emits a large amount of harmful gases into the air. The adjustment of industrial structure and energy structure has a process. The atmosphere on the earth has a limited carrying capacity of carbon dioxide and pollutants. In order to survive and develop, human beings will struggle with the smog on the ground and the haze clouds (brown clouds) in the sky. is long term. Haze is poisonous and seriously threatens human health. At present, an effective way to control haze is to vigorously develop solar photovoltaic power generation that does not emit carbon dioxide and pollutants into the air. Increasing photovoltaic power generation and reducing coal-fired power generation have become the unanimous voice of people all over the world.

Since May 29, 2007, due to the outbreak of blue-green algae in Taihu Lake, the quality of tap water in the homes of a large number of urban residents in Wuxi City, Jiangsu Province has deteriorated, and the smell is unpleasant, making them unable to drink normally. Then shut down 772 chemical factories along the lake to reduce the source of pollution in Taihu Lake. Water pollution led to the development of environmental protection industry in Yixing, Wuxi. In September 2014, the inventor Miao Tongchun went to Yixing Environmental Protection Park to visit Shuiyuantianxia Water Treatment Enterprise. Health is very beneficial. Popularizing the use of electrolyzed water requires increased power consumption. At present, coal power accounts for 70% of the power supplied by the power supply network in the Yangtze River Delta region. More power consumption will inevitably burn more coal. In the process of coal-fired power generation It will emit pollutants into the air and increase air pollution.

The inventor Miao Tongchun has been dreaming of developing photovoltaic power generation on the water surface of Taihu Lake for many years. Since the service life of solar cells is as long as 25 years, it is difficult to find a durable buoyancy material with good buoyancy performance that can reach 25 years. Floating on the water supports the weight of solar photovoltaic modules in a large area and performs large-scale photovoltaic power generation. At present, there is no photovoltaic power station on lakes in various places.

Contents of the invention

The purpose of the present invention is to overcome the deficiencies in the prior art, and provide a photovoltaic power station that builds photovoltaic modules and composite buoyancy materials to produce electrolyzed water on the lake.

There is Taihu Lake, one of the five largest freshwater lakes in China, between Jiangsu Province and Zhejiang Province. Facing the 36,000 hectares of beautiful Taihu Lake, Miao Tongchun, the inventor of the present invention, thought of large-scale photovoltaic power generation on Taihu Lake, using photovoltaic current to produce electrolyzed water , to further improve the quality of drinking water for the people in the Taihu Lake area, and at the same time improve the air quality and drinking water quality. In Shanghai in the summer of 2014, Miao Tongchun talked to Cui Weicheng, a professor at Shanghai Ocean University and the first deputy chief designer of China's "Jiaolong", about the dream of "building a large-scale floating photovoltaic power station". Cui Weicheng encouraged Miao Tongchun and said, "This idea is very good."

In the past ten years, the photovoltaic industry in Jiangsu Province and Zhejiang Province has developed rapidly. It can be said that the total area of crystalline silicon solar cells produced by photovoltaic enterprises in Jiangsu Province and Zhejiang Province can cover one-twentieth of the water of Taihu Lake. surface area, the photoelectric conversion efficiency of monocrystalline silicon solar cells reaches 20%, the photoelectric conversion efficiency of polycrystalline silicon solar cells reaches 18%, the power output stability of solar photovoltaic modules is guaranteed for 25 years, and the photoelectric conversion efficiency of crystalline silicon solar cells will Continuous improvement, the manufacturing cost of crystalline silicon solar cells will continue to decline. The silicon element on the earth accounts for 26.3% of the total weight of the earth's crust, and the raw materials for making silicon solar cells are abundant. The photoelectric conversion efficiency of lighter amorphous silicon thin film solar cells, copper indium gallium selenide thin film solar cells, cadmium telluride thin film solar cells, and gallium arsenide thin film solar cells has also increased rapidly, all of which have laid the foundation for the development of floating photovoltaic power generation. solid foundation.

The key technology to realize floating photovoltaic power generation on water is to use high-performance buoyancy materials to support solar photovoltaic modules above the water surface, and receive sunlight to generate current. After three years of unremitting efforts, the inventor Miao Tongchun finally screened out a high-performance composite floating material with a closed-cell structure produced by European technology, which is suitable for supporting solar photovoltaic modules in China's five major lakes and building large-scale power generation. Large photovoltaic power plants use the electricity provided by photovoltaic power plants built on the lake to improve the quality of lake water, produce electrolyzed water in large quantities to supply residents' lives, and improve the quality of drinking water. The full name of this high-performance new buoyancy material is PIN structural foam composite sandwich buoyancy matrix material, PIN is the material of the new material, structural foam composite sandwich is the structural form of the new material, buoyancy is a function of the new material, and the matrix It is another function of the new material, and the buoyancy matrix is the name of the two functions combined into one. It can be seen in the laboratory that the buoyancy coefficient of the PIN structural foam composite sandwich buoyancy matrix material on the water surface is only 0.045-0.05, and a buoyant block with a thickness of 12 mm and made of PIN structural foam composite sandwich buoyancy matrix material is used. When holding up a crystalline silicon solar cell with a thickness of 2.5 mm, the lower part of the floating block with a thickness of 12 mm has a floating block with a thickness of 6 mm sinking below the water surface, and the upper part of the floating block has a floating block with a thickness of 6 mm exposed to the water surface Above the air, the entire floating block floats on the surface of the water body. If there are parts other than solar cells in the solar cell module that need the floating block to bear the weight, only need to increase the thickness of the floating block, and the floating block can provide a larger The buoyancy of the solar cell module supports the entire solar cell assembly above the water surface. Solar cells and related components can be embedded and fixed on the surface of the buoy, or can be glued and fixed on the surface of the buoy. The service life of this composite buoyancy material is the same as that of the solar cell, which is 25 years. The PIN structural foam composite sandwich buoyancy matrix material platform is made of new materials such as special resins resistant to ultraviolet radiation. The outer layer of protection around the platform can work safely for 25 years on the water surface irradiated by the sun, and it is very strong and durable. The scientific and technological management personnel of the foreign-funded enterprise that manufactures this high-performance composite buoyancy material confirmed that: the inventor Miao Tongchun first proposed to apply the PIN structure foam composite sandwich buoyancy matrix material to the construction of floating photovoltaic power plants on the water surface, so that the floating photovoltaic power station can be used on the water surface of a vast lake. Building one photovoltaic power plant after another becomes an achievable goal. It is impossible to realize large-scale and long-term floating photovoltaic power generation on the water surface without using modern high-tech composite buoyancy materials with strong, good buoyancy performance and closed-cell structure to manufacture water surface floating platforms or foundations.

Water accounts for 70% of the body weight, 83% of the water in the human blood, 76% in the muscles, 80% in the heart and lungs, 83% in the kidneys, and 83% in the liver. Water accounts for 68%, brain water accounts for 75%, bone water accounts for 20%, water is the first element of human life. The water on the earth cannot exist in the form of a single water molecule. It often consists of more than 10 water molecules to form a macromolecular water. Tap water is all macromolecular water. The macromolecular water is electrolyzed into small molecular water in the electrolytic water machine. The penetration, diffusion, peristaltic, dissolving, and metabolic powers of small molecular clusters of water are stronger than those of large molecular clusters of water, which can easily promote metabolism through cells, increase the exchange of water inside and outside cells, and help excrete harmful acidity in the human body matter and waste. In the past 30 years, many lakes have suffered from water pollution. People look forward to drinking high-quality water, and vigorously develop photovoltaic power generation on the lake to supply electricity to the electrolytic water machine. The alkaline electrolyzed water is for drinking, and the acidic electrolyzed water flowing out from the anode of the electrolytic cell is for daily use. Drinking high-quality small molecule alkaline electrolyzed water is beneficial to the health and longevity of people in the lake area.

In order to solve the above technical problems, the present invention is achieved through the following technical solutions:

Solar battery A1, junction box A2, conductive wire 3, PIN structure foam composite sandwich buoyancy matrix material platform A4, stainless steel chain A5, solar battery B6, junction box B7, PIN floating on the lake surface 10 Structural foam composite sandwich buoyancy matrix material platform B 8, stainless steel chain B 9, energy storage battery A 11, controller A 12, energy storage battery B 13, controller B 14, confluence 15, transformer 16, PIN structural foam composite Sandwich buoyancy matrix material platform C 17, electrolytic water machine 18, flow divider 19, water suction pump 20, water suction pipe 21, filter screen 22, waterproof conductive wire 23, electrolytic tank A 24, electrolytic tank B 25, alkaline electrolyzed water outlet The water pipe 26, the acidic electrolyzed water outlet pipe 27, and the electrolyzed water equipment installation plate 28 jointly form a photovoltaic power station for building electrolyzed water with photovoltaic modules and composite buoyancy materials on the lake;

On the lake surface 10, build the PIN structure foam composite sandwich buoyancy matrix material platform A 4, the PIN structure foam composite sandwich buoyancy matrix material platform B 8 and the PIN structure foam floating on the lake surface 10 with the PIN structure foam composite sandwich buoyancy matrix material Composite sandwich buoyancy matrix material platform C 17 three platforms, between the PIN structure foam composite sandwich buoyancy matrix material platform A 4 on the lake surface 10 and the PIN structure foam composite sandwich buoyancy matrix material platform B 8 keep 2 meters - 6 Parallel distance of 10 meters, while being arranged on the lake surface 10 on the same side of the PIN structure foam composite sandwich buoyancy matrix material platform C 17, solar cells are installed on the surface of the upper top of the PIN structure foam composite sandwich buoyancy matrix material platform A 4 A1, install junction box A2 on the back of solar cell A1, install solar cell B6 on the surface of the upper top of PIN structure foam composite sandwich buoyancy matrix material platform B8, and install wiring on the back of solar cell B6 Box B 7, install the electrolysis water equipment installation plate 28 on the surface of the upper top of the PIN structure foam composite sandwich buoyancy matrix material platform C 17, and install the electrolysis water equipment installation plate 28 adjacent to the PIN structure foam composite sandwich core on the surface of the electrolysis equipment installation plate 28 The right half of the buoyancy matrix material platform A 4 is installed with an energy storage battery A 11, a controller A 12, a conductive wire 3, and a confluence 15, and is adjacent to the PIN structure foam composite sandwich buoyancy matrix on the surface of the electrolysis water equipment installation plate 28 The right half of material platform B 8 is equipped with energy storage battery B 13, controller B 14, and the left half of the upper surface of the electrolyzed water equipment mounting plate 28 is installed with transformer 16 and electrolyzed water machine 18, and electrolyzed water machine 18 The inside installs shunt 19, electrolytic tank A 24, electrolytic tank B 25, alkaline electrolyzed water outlet pipe 26, acidic electrolyzed water outlet pipe 27, and a water suction pipe extending outward from the water suction pump 20 in the electrolyzed water machine 18 21 stretches into the water body below the lake surface 10, and filter screen 22 is installed in the inside of suction pipe 21;

The junction box A 2 on the back of the solar cell A 1 is connected to the controller A 12 through the conductive wire 3, the controller A 12 is connected to the energy storage battery A 11 through the conductive wire 3, and the controller A 12 is connected to the confluence 15 through the conductive wire 3 , the junction box B7 on the back of the solar battery B6 is connected to the controller B14 through the conductive wire 3, the controller B14 is connected to the energy storage battery B13 through the conductive wire 3, and the controller B14 is connected to the confluencer 15 through the conductive wire 3 connection, the confluence 15 is connected to the transformer 16 through the conductive wire 3, the transformer 16 is connected to the shunt 19 through the conductive wire 3, the shunt 19 is connected to the electrolytic cell A 24 through the conductive wire 3, and the electrolytic cell A 24 is connected to the electrolytic cell through the conductive wire 3. The tank B is connected with 25, the shunt 19 is connected with the suction pump 20 through the conductive wire 3, the PIN structural foam composite sandwich buoyancy matrix material platform A4 is connected with the PIN structural foam composite sandwich buoyancy matrix material through the left and right two stainless steel chains A5 The platform C 17 is connected, and the platform B 8 of the PIN structural foam composite sandwich buoyancy matrix material is connected with the PIN structural foam composite sandwich buoyancy matrix material platform C 17 through two left and right stainless steel chains B 9 .

Solar cell A 1 and solar cell B 6 are monocrystalline silicon solar cells or polycrystalline silicon solar cells or amorphous silicon thin film solar cells or compound solar cells.

The energy storage battery A 11 and the energy storage battery B 13 are lithium ion batteries or nickel hydrogen batteries or nickel zinc batteries or fuel cells.

The structural form of the electrolyzed water machine 18 is a single connection type or a lifting type.

Electrolyzer A 24 is a three-piece electrolyzer that can electrolyze macromolecular water into alkaline electrolyzed water of small molecules and acidic electrolyzed water of small molecules.

Electrolyzer B 25 is a five-piece electrolyzer that can electrolyze macromolecular water into small molecule alkaline electrolyzed water and small molecule acidic electrolyzed water.

Compared with the prior art, the beneficial effects of the present invention are: ① make full use of the sunlight irradiated on the floating photovoltaic power station on the lake surface, carry out photovoltaic power generation on the water, supply power to electrolyzed water machines, and produce high-quality electrolyzed water in large quantities For residents to use, significantly improve the health of people in the Lake District. ② Due to the use of solar cells with a service life of 25 years and the PIN structure foam composite sandwich buoyancy matrix material, the completed lake surface floating photovoltaic power station is durable and has a long service life. ③The floating photovoltaic power station on the lake can move on the lake, from the rainy lake to the sunny lake, receiving more sunlight and generating more power.

Description of drawings

Fig. 1 is a structural schematic diagram of the present invention.

detailed description

The current output from the solar cell A installed on the top surface of the PIN structure foam composite sandwich buoyancy matrix material platform A is input to the controller A and the current collector installed on the PIN structure foam composite sandwich buoyancy matrix material platform C, from the current installed on The current output by the solar cell B on the top surface of the PIN structure foam composite sandwich buoyancy matrix material platform B is input to the controller B and the confluence installed on the PIN structure foam composite sandwich buoyancy matrix material platform C, and the current output from the confluence Power is supplied to the electrolytic cell and the water suction pump through the shunt in the electrolytic water machine, and the water sucked by the water suction pump through the suction pipe enters the electrolytic water machine through the filter, and is electrolyzed in the electrolytic cell in the electrolytic water machine to flow out alkaline electrolyzed water For human drinking, acidic electrolyzed water flows out to supply domestic water.

Below the present invention will be further described in conjunction with the embodiment in the accompanying drawing:

Solar battery A1, junction box A2, conductive wire 3, PIN structure foam composite sandwich buoyancy matrix material platform A4, stainless steel chain A5, solar battery B6, junction box B7, PIN floating on the lake surface 10 Structural foam composite sandwich buoyancy matrix material platform B 8, stainless steel chain B 9, energy storage battery A 11, controller A 12, energy storage battery B 13, controller B 14, confluence 15, transformer 16, PIN structural foam composite Sandwich buoyancy matrix material platform C 17, electrolytic water machine 18, flow divider 19, water suction pump 20, water suction pipe 21, filter screen 22, waterproof conductive wire 23, electrolytic tank A 24, electrolytic tank B 25, alkaline electrolyzed water outlet The water pipe 26, the acidic electrolyzed water outlet pipe 27, and the electrolyzed water equipment installation plate 28 jointly form a photovoltaic power station for building electrolyzed water with photovoltaic modules and composite buoyancy materials on the lake;

On the lake surface 10, build the PIN structure foam composite sandwich buoyancy matrix material platform A 4, the PIN structure foam composite sandwich buoyancy matrix material platform B 8 and the PIN structure foam floating on the lake surface 10 with the PIN structure foam composite sandwich buoyancy matrix material Composite sandwich buoyancy matrix material platform C 17 three platforms, between the PIN structure foam composite sandwich buoyancy matrix material platform A 4 on the lake surface 10 and the PIN structure foam composite sandwich buoyancy matrix material platform B 8 keep 2 meters - 6 Parallel distance of 10 meters, while being arranged on the lake surface 10 on the same side of the PIN structure foam composite sandwich buoyancy matrix material platform C 17, solar cells are installed on the surface of the upper top of the PIN structure foam composite sandwich buoyancy matrix material platform A 4 A1, install junction box A2 on the back of solar cell A1, install solar cell B6 on the surface of the upper top of PIN structure foam composite sandwich buoyancy matrix material platform B8, and install wiring on the back of solar cell B6 Box B 7, install the electrolysis water equipment installation plate 28 on the surface of the upper top of the PIN structure foam composite sandwich buoyancy matrix material platform C 17, and install the electrolysis water equipment installation plate 28 adjacent to the PIN structure foam composite sandwich core on the surface of the electrolysis equipment installation plate 28 The right half of the buoyancy matrix material platform A 4 is installed with an energy storage battery A 11, a controller A 12, a conductive wire 3, and a confluence 15, and is adjacent to the PIN structure foam composite sandwich buoyancy matrix on the surface of the electrolysis water equipment installation plate 28 The right half of material platform B 8 is equipped with energy storage battery B 13, controller B 14, and the left half of the upper surface of the electrolyzed water equipment mounting plate 28 is installed with transformer 16 and electrolyzed water machine 18, and electrolyzed water machine 18 The inside installs shunt 19, electrolytic tank A 24, electrolytic tank B 25, alkaline electrolyzed water outlet pipe 26, acidic electrolyzed water outlet pipe 27, and a water suction pipe extending outward from the water suction pump 20 in the electrolyzed water machine 18 21 stretches into the water body below the lake surface 10, and filter screen 22 is installed in the inside of suction pipe 21;

The junction box A 2 on the back of the solar cell A 1 is connected to the controller A 12 through the conductive wire 3, the controller A 12 is connected to the energy storage battery A 11 through the conductive wire 3, and the controller A 12 is connected to the confluence 15 through the conductive wire 3 , the junction box B7 on the back of the solar battery B6 is connected to the controller B14 through the conductive wire 3, the controller B14 is connected to the energy storage battery B13 through the conductive wire 3, and the controller B14 is connected to the confluencer 15 through the conductive wire 3 connection, the confluence 15 is connected to the transformer 16 through the conductive wire 3, the transformer 16 is connected to the shunt 19 through the conductive wire 3, the shunt 19 is connected to the electrolytic cell A 24 through the conductive wire 3, and the electrolytic cell A 24 is connected to the electrolytic cell through the conductive wire 3. The tank B is connected with 25, the shunt 19 is connected with the suction pump 20 through the conductive wire 3, the PIN structural foam composite sandwich buoyancy matrix material platform A4 is connected with the PIN structural foam composite sandwich buoyancy matrix material through the left and right two stainless steel chains A5 The platform C 17 is connected, and the platform B 8 of the PIN structural foam composite sandwich buoyancy matrix material is connected with the PIN structural foam composite sandwich buoyancy matrix material platform C 17 through two left and right stainless steel chains B 9 .

Solar cell A 1 and solar cell B 6 are monocrystalline silicon solar cells or polycrystalline silicon solar cells or amorphous silicon thin film solar cells or compound solar cells.

The energy storage battery A 11 and the energy storage battery B 13 are lithium ion batteries or nickel hydrogen batteries or nickel zinc batteries or fuel cells.

The structural form of the electrolyzed water machine 18 is a single connection type or a lifting type.

Electrolyzer A 24 is a three-piece electrolyzer that can electrolyze macromolecular water into alkaline electrolyzed water of small molecules and acidic electrolyzed water of small molecules.

Electrolyzer B 25 is a five-piece electrolyzer that can electrolyze macromolecular water into small molecule alkaline electrolyzed water and small molecule acidic electrolyzed water.

Three floating platforms were built on the lake: PIN structural foam composite sandwich buoyancy matrix material platform A, PIN structural foam composite core buoyancy matrix material platform B and PIN structural foam composite sandwich buoyancy matrix material platform C. Sunlight irradiates the solar cell A mounted on the top of the PIN structural foam composite sandwich buoyancy matrix material platform A to generate current, and the current output from the junction box A on the back of the solar cell A is input into the PIN structural foam installed not far away through conductive wires The controller A on the composite sandwich buoyancy matrix material platform C, the current output from the controller A is input into the confluence through the conductive wire, and the sunlight is irradiated by the solar cell B installed on the top of the PIN structure foam composite sandwich buoyancy matrix material platform B to generate Current, the current output from the junction box B on the back of the solar cell B is input to the controller B installed on the PIN structure foam composite sandwich buoyancy matrix material platform C not far away through the conductive wire, and the current output from the controller B is passed through The conductive wire is input into the confluence, and the current output from the confluence is converted into a current with a suitable voltage through the conductive wire into the transformer. The current output from the transformer is divided into the shunt installed in the electrolytic water machine through the conductive wire. The current drives the suction pump to absorb the lake water through the suction pipe. The lake water is filtered by the three-layer filter in the suction pipe and enters the electrolytic water machine. Another current is input into electrolytic tank A and electrolytic tank B to supply power to electrolytic tank A and electrolytic tank B. The lake water of molecular clusters becomes alkaline electrolyzed water of small molecular clusters and acidic electrolyzed water of small molecular clusters. The acidic electrolyzed water with small molecular clusters can be used in people's daily life.

Surrounding Taihu Lake are the economically developed cities of Suzhou, Wuxi, and Changzhou in Jiangsu Province, and Jiaxing and Huzhou in Zhejiang Province. It is not far from Shanghai, Nanjing, and Hangzhou. The industry and agriculture along the Taihu Lake are developed, there are many towns, and land resources are in short supply. Rising land costs have made it impossible to use large tracts of land to build photovoltaic power stations. This area at the junction of Jiangsu, Zhejiang and Shanghai needs to develop photovoltaic power generation to deal with the smog in the air, and more importantly, to develop photovoltaic power generation to improve the water quality of Taihu Lake and mass-produce electrolysis. Water is supplied to urban and rural residents for drinking. This area has strong technological, economic and cultural strengths. It is expected to use the technical solution of the present invention to build multiple photovoltaic power stations in Taihu Lake, making Taihu Lake a demonstration lake for floating photovoltaic power generation as soon as possible.

Now give examples as follows:

Embodiment one:

The current output from the monocrystalline silicon solar cell A installed on the top surface of the PIN structural foam composite sandwich buoyancy matrix material platform A is input to the controller A and the confluence installed on the PIN structural foam composite sandwich buoyancy matrix material platform C, The current output from the monocrystalline silicon solar cell B installed on the top surface of the PIN structural foam composite sandwich buoyancy matrix material platform B is input to the controller B and the confluence installed on the PIN structural foam composite sandwich buoyancy matrix material platform C, The current output from the confluence passes through the shunt in the electrolytic water machine to supply power to the electrolytic tank and the water suction pump respectively. The water sucked in by the water suction pump through the suction pipe enters the electrolytic water machine through the filter screen, and is electrolyzed in the electrolytic tank in the electrolytic water machine , the alkaline electrolyzed water flowing out of small molecular groups is for human drinking, and the acidic electrolyzed water flowing out of small molecular groups is used for domestic water supply.

Embodiment two:

The current output from the polycrystalline silicon solar cell A installed on the top surface of the PIN structure foam composite sandwich buoyancy matrix material platform A is input to the controller A and the current collector installed on the PIN structure foam composite sandwich buoyancy matrix material platform C, from the installation The current output from the polycrystalline silicon solar cell B on the top surface of the PIN structure foam composite sandwich buoyancy matrix material platform B is input to the controller B and the confluence installed on the PIN structure foam composite sandwich buoyancy matrix material platform C, and output from the confluence The current passes through the shunt in the electrolyzed water machine to supply power to the electrolytic cell and the water suction pump respectively. The water sucked by the water suction pump through the suction pipe enters the electrolyzed water machine through the filter screen, and is electrolyzed in the electrolyzed cell in the electrolyzed water machine, and small molecules flow out The alkaline electrolyzed water in clusters is for drinking, and the acidic electrolyzed water flowing out of small molecular clusters is used for domestic water supply.

Claims (6)

1. null1. on lake surface, build photovoltaic module and the photovoltaic plant of composite buoyancy material system electrolysis water，It is characterized in that，By the solaode first (1) swum on lake surface (10)、Rosette first (2)、Conductor wire (3)、PIN structural foam compound sandwich buoyancy matrix material platform first (4)、Stainless steel chain first (5)、Solaode second (6)、Rosette second (7)、PIN structural foam compound sandwich buoyancy matrix material platform second (8)、Stainless steel chain second (9)、Energy-storage battery first (11)、Controller first (12)、Energy-storage battery second (13)、Controller second (14)、Junction station (15)、Transformator (16)、PIN structural foam compound sandwich buoyancy matrix material platform third (17)、Electrolyzed water machine (18)、Diverter (19)、Pulsating pump (20)、Suction hose (21)、Drainage screen (22)、Waterproof conductor wire (23)、Electrolysis bath first (24)、Electrolysis bath second (25)、Electrolyzed alkaline water outlet pipe (26)、Acidic electrolytic water outlet pipe (27)、System electrolysis wetting system installing plate (28) collectively constitutes builds photovoltaic module and the photovoltaic plant of composite buoyancy material system electrolysis water on lake surface；

   nullLake surface (10) is built with PIN structural foam compound sandwich buoyancy matrix material and swims in PIN structural foam compound sandwich buoyancy matrix material platform first (4) on lake surface (10)、PIN structural foam compound sandwich buoyancy matrix material platform second (8) and PIN structural foam third (17) three platform of compound sandwich buoyancy matrix material platform，The parallel distance of 2 meters 6 meters is kept between PIN structural foam compound sandwich buoyancy matrix material platform first (4) and PIN structural foam compound sandwich buoyancy matrix material platform second (8) on lake surface (10)、On the lake surface (10) of the same side being simultaneously arranged in PIN structural foam compound sandwich buoyancy matrix material platform third (17)，The surface of the upper top of PIN structural foam compound sandwich buoyancy matrix material platform first (4) is installed solaode first (1)，Rosette first (2) is installed at the back side of solaode first (1)，The surface of the upper top of PIN structural foam compound sandwich buoyancy matrix material platform second (8) is installed solaode second (6)，Rosette second (7) is installed at the back side of solaode second (6)，The surface of the upper top of PIN structural foam compound sandwich buoyancy matrix material platform third (17) is installed system electrolysis wetting system installing plate (28)，On the surface of system electrolysis wetting system installing plate (28), the right-hand part of neighbouring PIN structural foam compound sandwich buoyancy matrix material platform first (4) installs energy-storage battery first (11)、Controller first (12)、Conductor wire (3) and junction station (15)，On the surface of system electrolysis wetting system installing plate (28), the right-hand part of neighbouring PIN structural foam compound sandwich buoyancy matrix material platform second (8) installs energy-storage battery second (13)、Controller second (14)、Transformator (16) and electrolyzed water machine (18) are installed in left side on the upper surface of system electrolysis wetting system installing plate (28)，Internally installed diverter (19) at electrolyzed water machine (18)、Electrolysis bath first (24)、Electrolysis bath second (25)、Electrolyzed alkaline water outlet pipe (26) and acidic electrolytic water outlet pipe (27)，During pulsating pump (20) in electrolyzed water machine (18), outwardly directed suction hose (21) puts in lake surface (10) water body below，Internally installed drainage screen (22) at suction hose (21)；

   nullThe rosette first (2) at solaode first (1) back side is connected with controller first (12) by conductor wire (3)，Controller first (12) is connected with energy-storage battery first (11) by conductor wire (3)，Controller first (12) is connected with junction station (15) by conductor wire (3)，The rosette second (7) at solaode second (6) back side is connected with controller second (14) by conductor wire (3)，Controller second (14) is connected with energy-storage battery second (13) by conductor wire (3)，Controller second (14) is connected with junction station (15) by conductor wire (3)，Junction station (15) is connected with transformator (16) by conductor wire (3)，Transformator (16) is connected with diverter (19) by conductor wire (3)，Diverter (19) is connected with electrolysis bath first (24) by conductor wire (3)，Electrolysis bath first (24) is connected with electrolysis bath second (25) by conductor wire (3)，Diverter (19) is connected with pulsating pump (20) by conductor wire (3)，PIN structural foam compound sandwich buoyancy matrix material platform first (4) is by a left side、Right two stainless steel chain first (5) are connected with PIN structural foam compound sandwich buoyancy matrix material platform third (17)，PIN structural foam compound sandwich buoyancy matrix material platform second (8) is by a left side、Right two stainless steel chain second (9) are connected with PIN structural foam compound sandwich buoyancy matrix material platform third (17).
2. The photovoltaic plant building photovoltaic module and composite buoyancy material system electrolysis water on lake surface the most according to claim 1, it is characterized in that, described solaode first (1) and solaode second (6) are monocrystaline silicon solar cell or polysilicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.
3. The photovoltaic plant building photovoltaic module and composite buoyancy material system electrolysis water on lake surface the most according to claim 1, it is characterized in that, described energy-storage battery first (11) and energy-storage battery second (13) are lithium ion battery or Ni-MH battery or nickel-zinc cell or fuel cell.
4. The photovoltaic plant building photovoltaic module and composite buoyancy material system electrolysis water on lake surface the most according to claim 1, is characterized in that, the version of described electrolyzed water machine (18) is single-plicate or lifts the formula of opening.
5. The photovoltaic plant building photovoltaic module and composite buoyancy material system electrolysis water on lake surface the most according to claim 1, it is characterized in that, described electrolysis bath first (24) is that macromole water electrolysis can become three electrolysis baths of the electrolyzed alkaline water of little molecule and the acidic electrolytic water of little molecule.
6. The photovoltaic plant building photovoltaic module and composite buoyancy material system electrolysis water on lake surface the most according to claim 1, it is characterized in that, described electrolysis bath second (25) is that macromole water electrolysis can become five electrolysis baths of the electrolyzed alkaline water of little molecule and the acidic electrolytic water of little molecule.