CN102983591B - Solar power station with temperature sensors, humidity sensors and illumination sensors on coastal mud flat - Google Patents

Abstract

The invention relates to a solar power station with temperature sensors, humidity sensors and illumination sensors on a coastal mud flat, and belongs to the field of information technology. An upper mud flat power transmission iron tower is built on a high concrete pier at the coastal mud flat; an upper coast power transmission iron tower is built on a coast; the upper mud flat power transmission iron tower is connected with the upper coast power transmission iron tower by conductors; a hull-shaped solar power station A and a hull-shaped solar power station B are built on the two sides of the upper mud flat power transmission iron tower; a sloping-bench solar power station I and a sloping-bench solar power station II are built on the two sides of the upper coast power transmission iron tower; wireless temperature sensors, wireless humidity sensors and wireless illumination sensors are mounted on the solar power station A, the solar power station B, the solar power station I and the solar power station II respectively; perceived temperature information, humidity information and illumination information are sent out; and after a temperature receiving antenna, a humidity receiving antenna and an illumination receiving antenna receive the information, the information is input to a temperature information memory, a humidity information memory and an illumination information memory respectively, and to a comprehensive computer analysis center and a computer processing center for analyzing and processing. The efficiency of the solar power station is improved.

Description

Solar power station on coastal beach with temperature, humidity, optical sensor

Technical field

The present invention relates to the solar power station on the coastal beach with temperature, humidity, optical sensor, belong to areas of information technology.

Background technology

Nearly one over 100 years, the development of global economy mainly relies on the fossil fuel such as burning coal, oil and natural gas, give off a large amount of carbon dioxide, cause that significant variation occurs tellurian weather, occur natural calamity weather such as torrential rain, severe cold, heat, the target that Copenhagen climate Conference proposes is: in this century, global temperature on average only rises 2 degrees Celsius, but because the discharge capacity of countries in the world carbon dioxide constantly increases, within 2011, global CO2 emissions has increased by 3%, reach 9,500,000,000 tonnes, may increase 2.6% the end of the year 2012 again.From 2000 to 2011, global CO2 emissions increased by 3.1% every year on average.CO2 emission is more, and global temperature on average rises faster, and the difficulty that realizes the target that Copenhagen conference sets is increasing.

The mankind, in order to reduce in process of production the discharge of carbon dioxide, respond actively climate change, accelerate development clean energy resource, regenerative resource.In the process of solar energy power generating, do not discharge carbon dioxide, the electric power that photovoltaic generation provides belongs to clean energy resource.The photovoltaic industry of manufacturing photovoltaic power generation equipment is industry with fastest developing speed in the strategic new industry in Jiangsu, grasp completely to the key technology of the system integration from manufacturing photovoltaic cell and assembly, photovoltaic industry developing application market, particularly domestic terminal market is fundamental solution.

Jiangsu coast has a thousand li beach soil, physical features smooth; the geological conditions in some beach soil is applicable to building solar power station; temperature on solar power station, humidity, illumination condition are for the useful life of protection solar cell; calculate the energy output of solar power station; the safe operation that ensures solar power station is very important; but, on existing solar power station, all there is no the equipment of installation and measuring temperature, humidity and illumination.

Summary of the invention

The object of the invention is to overcome deficiency of the prior art, the solar power station on the coastal beach with temperature, humidity, optical sensor is provided.

Be positioned at hull shape solar power station A and the hull shape solar power station B of coastal beach descending, due to close seawater, seawater raises at the incoming tide, hull upwards floats, seawater declines at ebb tide, hull is stranded on beach ground, the solar cell that is arranged on hull top is accepted the irradiation generation current of sunlight, most of electric current is inputted energy-storage battery, is then inputted power supply network by conductor wire by controller, and fraction electric current provides work electricity consumption by conductor wire to radio temperature sensor, wireless humidity sensor and wireless optical sensor.Be positioned at sloping platform formula solar power station first and sloping platform formula solar power station second that coastal beach goes up a slope, due to close seashore, geological foundation is firm, the solar cell that is arranged on sloping platform top is accepted the irradiation generation current of sunlight, most of electric current is inputted energy-storage battery by controller, then input power supply network by conductor wire, fraction electric current provides work electricity consumption by conductor wire to radio temperature sensor, wireless humidity sensor and wireless optical sensor.

The radio temperature sensor that is arranged on each solar power station perceives the variation of temperature, and convert the variation of temperature to the signal of telecommunication and launched by wireless transmission antenna, temperature information reception antenna receives after the signal of telecommunication, the storage of input temp information-storing device, temperature information is then comprehensively analyzed and is processed by built-in conductor wire input computer generalization analysis center and computer processing center.The wireless humidity sensor that is arranged on each solar power station perceives the variation of humidity, and convert the variation of humidity to the signal of telecommunication and launched by wireless transmission antenna, humidity information reception antenna receives after the signal of telecommunication, input humidity information memory stores, humidity information is then comprehensively analyzed and is processed by built-in conductor wire input computer generalization analysis center and computer processing center.Be arranged on wireless optical variation to intensity of illumination according to sensor senses of each solar power station, and convert the variation of intensity of illumination to the signal of telecommunication and sent by wireless transmission antenna, illumination information reception antenna receives after the signal of telecommunication, the storage of input illumination information-storing device, illumination information is then comprehensively analyzed and is processed by built-in conductor wire input computer generalization analysis center and computer processing center.

Simultaneously total score eutectoid temperature, humidity and three kinds of information of illumination in computer generalization analysis center, understand temperature conditions, humidity situation, the light conditions of each solar power station, in time for taking targetedly regulation measure.

Main technical schemes of the present invention is achieved in that

By the high pier 4 of concrete, electric power pylon 5 on beach, electric power pylon 6 on seashore, conductor wire 7, hull shape solar power station A8, solar cell A9, energy-storage battery A10, controller A11, radio temperature sensor A12, wireless humidity sensor A13, wireless optical is according to sensors A 14, hull shape solar power station B15, solar cell B16, energy-storage battery B17, controller B18, radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21, sloping platform formula solar power station second 22, solar cell second 23, energy-storage battery second 24, controller second 25, radio temperature sensor second 26, wireless humidity sensor second 27, wireless optical sensor second 28, sloping platform formula solar power station first 29, solar cell first 30, controller first 31, energy-storage battery first 32, radio temperature sensor first 33, wireless humidity sensor first 34, wireless optical sensor first 35, computer processing center 36, computer generalization analysis center 37, illumination information-storing device 38, illumination information reception antenna 39, humidity information memory 40, humidity information reception antenna 41, temperature memory 42, the common composition band of temperature information reception antenna 43 temperature, humidity, solar power station on the coastal beach of optical sensor is seawater 1 below coastal beach 2, is seashore 3 above coastal beach 2,

Below coastal beach 2, water 1 place in coastal waters builds the high pier 4 of concrete, on the high pier 4 of concrete, build electric power pylon 5 on beach, on seashore 3, build electric power pylon 6 on seashore, connect on beach electric power pylon 6 on electric power pylon 5 and seashore with conductor wire 7 and build up transmission line, on beach, the left of electric power pylon 5 is provided with by solar cell A9, energy-storage battery A10, controller A11, radio temperature sensor A12, wireless humidity sensor A13, the hull shape solar power station A8 that wireless optical forms according to sensors A 14, on beach, the right-hand of electric power pylon 5 is provided with by solar cell B16, energy-storage battery B17, controller B18, radio temperature sensor B19, wireless humidity sensor B20, the hull shape solar power station B15 of wireless optical sensor B21 composition, the lower right of electric power pylon 6 is provided with by solar cell second 23 by the sea, energy-storage battery second 24, controller second 25, radio temperature sensor second 26, wireless humidity sensor second 27, the sloping platform formula solar power station second 22 that wireless optical sensor second 28 forms, the lower left of electric power pylon 6 is provided with by solar cell first 30 by the sea, controller first 31, energy-storage battery first 32, radio temperature sensor first 33, wireless humidity sensor first 34, the sloping platform formula solar power station first 29 that wireless optical sensor first 35 forms is provided with by computer processing center 36 on seashore 3, computer generalization analysis center 37, illumination information-storing device 38, illumination information reception antenna 39, humidity information memory 40, humidity information reception antenna 41, temperature memory 42, the temperature of the solar power station on the coastal beach that temperature information reception antenna 43 forms, humidity, the information storage of illumination, comprehensive analysis and treatment system,

On beach, electric power pylon 5 is connected with electric power pylon on seashore 6 by conductor wire 7, on beach, electric power pylon 5 is connected with the energy-storage battery A10 of hull shape solar power station A8 by conductor wire 7, energy-storage battery A10 is connected with controller A11 by conductor wire 7, solar cell A9 is connected with controller A11 by conductor wire 7, controller A11 is by conductor wire 7 and radio temperature sensor A12, wireless humidity sensor A13, wireless optical connects according to sensors A 14, on beach, electric power pylon 5 is connected with the energy-storage battery B17 of hull shape solar power station B15 by conductor wire 7, solar cell B16 is connected with controller B18 by conductor wire 7, controller B18 is by conductor wire 7 and radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21 connects, on seashore, electric power pylon 6 is connected with the energy-storage battery second 24 of sloping platform formula solar power station second 22 by conductor wire 7, energy-storage battery second 24 is connected with controller second 25 by conductor wire 7, solar cell second 23 is connected with controller second 25 by conductor wire 7, controller second 25 is by conductor wire 7 and radio temperature sensor second 26, wireless humidity sensor second 27, wireless optical sensor second 28 connects, on seashore, electric power pylon 6 is connected with the energy-storage battery first 32 of sloping platform formula solar power station first 29 by conductor wire 7, energy-storage battery first 32 is connected with controller first 31 by conductor wire 7, solar cell first 30 is connected with controller first 31 by conductor wire 7, controller first 31 is by conductor wire 7 and radio temperature sensor first 33, wireless humidity sensor first 34, wireless optical sensor first 35 connects, computer processing center 36 on seashore 3 is connected with computer generalization analysis center 37 by built-in conductor wire 7, computer generalization analysis center 37 by built-in conductor wire 7 respectively with illumination information-storing device 38, humidity information memory 40, temperature memory 42 connects, illumination information-storing device 38 is connected with illumination information reception antenna 39 by built-in conductor wire, humidity information memory 40 is connected with humidity information reception antenna 41 by built-in conductor wire, temperature memory 42 is connected with temperature information reception antenna 43 by built-in conductor wire.

Solar cell A9 and solar cell B16 are that area is the monocrystaline silicon solar cell of 100 square metres-500 square metres.

Solar cell second 23 and solar cell first 30 are that area is the polysilicon solar cell of 200 square metres-1000 square metres.

Compared with prior art, the invention has the beneficial effects as follows: 1. can obtain fast temperature, humidity, illumination information in hull shape solar power station A, hull shape solar power station B, sloping platform formula solar power station first and sloping platform formula solar power station second, solve the difficulty of removing the numerical value of the moment variation of measuring respectively temperature, humidity and illumination on each solar power station of the artificial coastal beach to traffic difficulties.2. can accurately obtain hull shape solar power station A, hull shape solar power station B, each radio temperature sensor in sloping platform formula solar power station first and sloping platform formula solar power station second, wireless humidity sensor, wireless optical sensor sends to temperature information memory by wireless network, reception antenna on humidity information memory and illumination information-storing device receives and inputs the Temperature numerical of storage, humidity, illumination numerical value in time input computer generalization analysis center and computer processing center are comprehensively analyzed and process, for the managerial skills that improve each solar power station provide scientific basis.

Brief description of the drawings

Fig. 1 is structural representation of the present invention.

Embodiment

The present invention relates to the solar power station on the coastal beach with temperature, humidity, optical sensor, belong to areas of information technology.On the high pier of concrete of coastal beach, build electric power pylon on beach, build by the sea electric power pylon on seashore, with electric power pylon on electric power pylon and seashore on conductor wire connection beach.On beach, hull shape solar power station A and hull shape solar power station B are built in the both sides of electric power pylon, sloping platform formula solar power station first and sloping platform formula solar power station second are built in the both sides of electric power pylon by the sea, on each solar power station, radio temperature sensor is installed, wireless humidity sensor, wireless optical sensor, by the temperature of perception, humidity, illumination information sends, temperature, humidity, three reception antennas of illumination are received after information, input temp respectively, humidity, three information-storing devices of illumination, input information computer generalization analysis center and computer processing center are analyzed, process, improve the efficiency of solar power plant.

The present invention is below further described in connection with the embodiment in accompanying drawing:

By the high pier 4 of concrete, electric power pylon 5 on beach, electric power pylon 6 on seashore, conductor wire 7, hull shape solar power station A8, solar cell A9, energy-storage battery A10, controller A11, radio temperature sensor A12, wireless humidity sensor A13, wireless optical is according to sensors A 14, hull shape solar power station B15, solar cell B16, energy-storage battery B17, controller B18, radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21, sloping platform formula solar power station second 22, solar cell second 23, energy-storage battery second 24, controller second 25, radio temperature sensor second 26, wireless humidity sensor second 27, wireless optical sensor second 28, sloping platform formula solar power station first 29, solar cell first 30, controller first 31, energy-storage battery first 32, radio temperature sensor first 33, wireless humidity sensor first 34, wireless optical sensor first 35, computer processing center 36, computer generalization analysis center 37, illumination information-storing device 38, illumination information reception antenna 39, humidity information memory 40, humidity information reception antenna 41, temperature memory 42, the common composition band of temperature information reception antenna 43 temperature, humidity, solar power station on the coastal beach of optical sensor is seawater 1 below coastal beach 2, is seashore 3 above coastal beach 2,

Below coastal beach 2, water 1 place in coastal waters builds the high pier 4 of concrete, on the high pier 4 of concrete, build electric power pylon 5 on beach, on seashore 3, build electric power pylon 6 on seashore, connect on beach electric power pylon 6 on electric power pylon 5 and seashore with conductor wire 7 and build up transmission line, on beach, the left of electric power pylon 5 is provided with by solar cell A9, energy-storage battery A10, controller A11, radio temperature sensor A12, wireless humidity sensor A13, the hull shape solar power station A8 that wireless optical forms according to sensors A 14, on beach, the right-hand of electric power pylon 5 is provided with by solar cell B16, energy-storage battery B17, controller B18, radio temperature sensor B19, wireless humidity sensor B20, the hull shape solar power station B15 of wireless optical sensor B21 composition, the lower right of electric power pylon 6 is provided with by solar cell second 23 by the sea, energy-storage battery second 24, controller second 25, radio temperature sensor second 26, wireless humidity sensor second 27, the sloping platform formula solar power station second 22 that wireless optical sensor second 28 forms, the lower left of electric power pylon 6 is provided with by solar cell first 30 by the sea, controller first 31, energy-storage battery first 32, radio temperature sensor first 33, wireless humidity sensor first 34, the sloping platform formula solar power station first 29 that wireless optical sensor first 35 forms is provided with by computer processing center 36 on seashore 3, computer generalization analysis center 37, illumination information-storing device 38, illumination information reception antenna 39, humidity information memory 40, humidity information reception antenna 41, temperature memory 42, the temperature of the solar power station on the coastal beach that temperature information reception antenna 43 forms, humidity, the information storage of illumination, comprehensive analysis and treatment system,

On beach, electric power pylon 5 is connected with electric power pylon on seashore 6 by conductor wire 7, on beach, electric power pylon 5 is connected with the energy-storage battery A10 of hull shape solar power station A8 by conductor wire 7, energy-storage battery A10 is connected with controller A11 by conductor wire 7, solar cell A9 is connected with controller A11 by conductor wire 7, controller A11 is by conductor wire 7 and radio temperature sensor A12, wireless humidity sensor A13, wireless optical connects according to sensors A 14, on beach, electric power pylon 5 is connected with the energy-storage battery B17 of hull shape solar power station B15 by conductor wire 7, solar cell B16 is connected with controller B18 by conductor wire 7, controller B18 is by conductor wire 7 and radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21 connects, on seashore, electric power pylon 6 is connected with the energy-storage battery second 24 of sloping platform formula solar power station second 22 by conductor wire 7, energy-storage battery second 24 is connected with controller second 25 by conductor wire 7, solar cell second 23 is connected with controller second 25 by conductor wire 7, controller second 25 is by conductor wire 7 and radio temperature sensor second 26, wireless humidity sensor second 27, wireless optical sensor second 28 connects, on seashore, electric power pylon 6 is connected with the energy-storage battery first 32 of sloping platform formula solar power station first 29 by conductor wire 7, energy-storage battery first 32 is connected with controller first 31 by conductor wire 7, solar cell first 30 is connected with controller first 31 by conductor wire 7, controller first 31 is by conductor wire 7 and radio temperature sensor first 33, wireless humidity sensor first 34, wireless optical sensor first 35 connects, computer processing center 36 on seashore 3 is connected with computer generalization analysis center 37 by built-in conductor wire 7, computer generalization analysis center 37 by built-in conductor wire 7 respectively with illumination information-storing device 38, humidity information memory 40, temperature memory 42 connects, illumination information-storing device 38 is connected with illumination information reception antenna 39 by built-in conductor wire, humidity information memory 40 is connected with humidity information reception antenna 41 by built-in conductor wire, temperature memory 42 is connected with temperature information reception antenna 43 by built-in conductor wire.

Solar cell A9 and solar cell B16 are that area is the monocrystaline silicon solar cell of 100 square metres-500 square metres.

Solar cell second 23 and solar cell first 30 are that area is the polysilicon solar cell of 200 square metres-1000 square metres.

Coastal beach is a soft slope, and below is seawater, and centre is that width is the coastal beach of several kilometers to tens kilometers, and top is seashore.Because salt content in the soil of coastal beach is high, most of crops can not grow, soil can not get fine utilization for a long time, only just there is the coastal beach of more than 1,000 ten thousand mu the coastal area in the north, Jiangsu Province, China, simultaneously, Jiangsu Province is again a large province of photovoltaic, the output whole nation first of silicon solar cell, within 2012, the domestic silicon solar cell of American-European centering does anti-dumping, anti-subsidy, silicon solar cell outlet is obstructed, be badly in need of developing home sale market, the market inside the province of Jiangsu Province's photovoltaic industry progressively expands, realize the target of 3 years parallel network power generation 400 megawatts, the soil of Jiangsu Coastal Areas beach is to build solar power station, the good place of solar cell is installed.Build hull shape solar power station A and hull shape solar power station B at coastal beach near seawater place, seawater rises at the incoming tide, hull shape solar power station A and hull shape solar power station B rise with seawater, seawater declines at ebb tide, hull shape solar power station A and hull shape solar power station B decline with seawater, no matter be to rise or decline, being arranged on solar cell on hull shape solar power station can generation current under the irradiation of sunlight, electric current is by conductor wire input control device, then input energy-storage battery by conductor wire, the electric current of exporting from energy-storage battery is by the power supply network of electric power pylon on electric power pylon and seashore the grid-connected input connection of conductor wire beach, build sloping platform formula solar power station first and sloping platform formula solar power station second at coastal beach near seashore place, sunlight is aimed on the inclined-plane of sloping platform, solar cell generation current under the irradiation of sunlight, electric current is by conductor wire input control device, then input energy-storage battery, the most of electric current of electric current of exporting from energy-storage battery is by the power supply network of electric power pylon on electric power pylon and seashore the grid-connected input connection of conductor wire beach.At hull shape solar power station A, hull shape solar power station B, sloping platform formula solar power station first, radio temperature sensor is installed respectively above sloping platform formula solar power station second, wireless humidity sensor and wireless optical sensor, by the temperature information perceiving, humidity information, illumination information sends by wireless network respectively, illumination information-storing device is by the sea installed, humidity information memory, reception antenna on temperature information memory receives after information, input respectively relevant memory stores, then by computer generalization analysis center and computer processing center, to temperature information, humidity information, illumination information is comprehensively analyzed, scientific utilization in addition, improve generating efficiency and the managerial skills of each solar power station.

Now enumerate embodiment as follows:

Embodiment mono-:

On the high pier of concrete of coastal beach, build electric power pylon on beach, build by the sea electric power pylon on seashore, with electric power pylon on electric power pylon and seashore on conductor wire connection beach, on beach, the both sides of electric power pylon construction area is respectively the monocrystaline silicon solar cell A of 200 square metres and hull shape solar power station A and the hull shape solar power station B of monocrystaline silicon solar cell B, construction area in the both sides of electric power pylon is respectively the polysilicon solar cell first of 500 square metres and sloping platform formula solar power station first and the sloping platform formula solar power station second of polysilicon solar cell second by the sea, on each solar power station, radio temperature sensor is installed, wireless humidity sensor, wireless optical sensor, by the temperature of perception, humidity, illumination information sends, temperature, humidity, three reception antennas of illumination are received after information, input temp respectively, humidity, three information-storing devices of illumination, input information computer generalization analysis center and computer processing center are analyzed, process, improve the efficiency of solar power plant.

Embodiment bis-:

On the high pier of concrete of coastal beach, build electric power pylon on beach, build by the sea electric power pylon on seashore, with electric power pylon on electric power pylon and seashore on conductor wire connection beach, on beach, the both sides of electric power pylon construction area is respectively the monocrystaline silicon solar cell A of 300 square metres and hull shape solar power station A and the hull shape solar power station B of monocrystaline silicon solar cell B, construction area in the both sides of electric power pylon is respectively the polysilicon solar cell first of 600 square metres and sloping platform formula solar power station first and the sloping platform formula solar power station second of polysilicon solar cell second by the sea, on each solar power station, radio temperature sensor is installed, wireless humidity sensor, wireless optical sensor, by the temperature of perception, humidity, illumination information sends, temperature, humidity, three reception antennas of illumination are received after information, input temp respectively, humidity, three information-storing devices of illumination, input information computer generalization analysis center and computer processing center are analyzed, process, improve the efficiency of solar power plant.

Claims (3)

1. band temperature, humidity, solar power station on the coastal beach of optical sensor, is characterized in that, by the high pier 4 of concrete, electric power pylon 5 on beach, electric power pylon 6 on seashore, conductor wire 7, hull shape solar power station A8, solar cell A9, energy-storage battery A10, controller A11, radio temperature sensor A12, wireless humidity sensor A13, wireless optical is according to sensors A 14, hull shape solar power station B15, solar cell B16, energy-storage battery B17, controller B18, radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21, sloping platform formula solar power station second 22, solar cell second 23, energy-storage battery second 24, controller second 25, radio temperature sensor second 26, wireless humidity sensor second 27, wireless optical sensor second 28, sloping platform formula solar power station first 29, solar cell first 30, controller first 31, energy-storage battery first 32, radio temperature sensor first 33, wireless humidity sensor first 34, wireless optical sensor first 35, computer processing center 36, computer generalization analysis center 37, illumination information-storing device 38, illumination information reception antenna 39, humidity information memory 40, humidity information reception antenna 41, temperature memory 42, the common composition band of temperature information reception antenna 43 temperature, humidity, solar power station on the coastal beach of optical sensor is seawater 1 below coastal beach 2, is seashore 3 above coastal beach 2,

Below coastal beach 2, water 1 place in coastal waters builds the high pier 4 of concrete, on the high pier 4 of concrete, build electric power pylon 5 on beach, on seashore 3, build electric power pylon 6 on seashore, connect on beach electric power pylon 6 on electric power pylon 5 and seashore with conductor wire 7 and build up transmission line, on beach, the left of electric power pylon 5 is provided with by solar cell A9, energy-storage battery A10, controller A11, radio temperature sensor A12, wireless humidity sensor A13, the hull shape solar power station A8 that wireless optical forms according to sensors A 14, on beach, the right-hand of electric power pylon 5 is provided with by solar cell B16, energy-storage battery B17, controller B18, radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21 composition hull shape solar power station B15, the lower right of electric power pylon 6 is provided with by solar cell second 23 by the sea, energy-storage battery second 24, controller second 25, radio temperature sensor second 26, wireless humidity sensor second 27, the sloping platform formula solar power station second 22 that wireless optical sensor second 28 forms, the lower left of electric power pylon 6 is provided with by solar cell first 30 by the sea, controller first 31, energy-storage battery first 32, radio temperature sensor first 33, wireless humidity sensor first 34, the sloping platform formula solar power station first 29 that wireless optical sensor first 35 forms is provided with by computer processing center 36 on seashore 3, computer generalization analysis center 37, illumination information-storing device 38, illumination information reception antenna 39, humidity information memory 40, humidity information reception antenna 41, temperature memory 42, the temperature of the solar power station on the coastal beach that temperature information reception antenna 43 forms, the information storage of humidity illumination, comprehensive analysis and treatment system,

On beach, electric power pylon 5 is connected with electric power pylon on seashore 6 by conductor wire 7, on beach, electric power pylon 5 is connected with the energy-storage battery A10 of hull shape solar power station A8 by conductor wire 7, energy-storage battery A10 is connected with controller A11 by conductor wire 7, solar cell A9 is connected with controller A11 by conductor wire 7, controller A11 is by conductor wire 7 and radio temperature sensor A12, wireless humidity sensor A13, wireless optical connects according to sensors A 14, on beach, electric power pylon 5 is connected with the energy-storage battery B17 of hull shape solar power station B15 by conductor wire 7, solar cell B16 is connected with controller B18 by conductor wire 7, controller B18 is by conductor wire 7 and radio temperature sensor B19, wireless humidity sensor B20, wireless optical sensor B21 connects, on seashore, electric power pylon 6 is connected with the energy-storage battery second 24 of sloping platform formula solar power station second 22 by conductor wire 7, energy-storage battery second 24 is connected with controller second 25 by conductor wire 7, solar cell second 23 is connected with controller second 25 by conductor wire 7, controller second 25 is by conductor wire 7 and radio temperature sensor second 26, wireless humidity sensor second 27, wireless optical sensor second 28 connects, on seashore, electric power pylon 6 is connected with the energy-storage battery first 32 of sloping platform formula solar power station first 29 by conductor wire 7, energy-storage battery first 32 is connected with controller first 31 by conductor wire 7, solar cell first 30 is connected with controller first 31 by conductor wire 7, controller first 31 is by conductor wire 7 and radio temperature sensor first 33, wireless humidity sensor first 34, wireless optical sensor first 35 connects, computer processing center 36 on seashore 3 is connected with computer generalization analysis center 37 by built-in conductor wire 7, computer generalization analysis center 37 by built-in conductor wire 7 respectively with illumination information-storing device 38, humidity information memory 40, temperature memory 42 connects, illumination information-storing device 38 is connected with illumination information reception antenna 39 by built-in conductor wire, humidity information memory 40 is connected with humidity information reception antenna 41 by built-in conductor wire, temperature memory 42 is connected with temperature information reception antenna 43 by built-in conductor wire.

2. the solar power station on the coastal beach with temperature, humidity, optical sensor according to claim 1, it is characterized in that, described solar cell A9 and solar cell B16 are that area is the monocrystaline silicon solar cell of 100 square metres-500 square metres.

3. the solar power station on the coastal beach with temperature, humidity, optical sensor according to claim 1, it is characterized in that, described solar cell second 23 and solar cell first 30 are that area is the polysilicon solar cell of 200 square metres-1000 square metres.

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