CN203773843U - Building model of natural gas hydrate processing factory utilizing wind-solar hybrid electric power on sea island - Google Patents

Abstract

The utility model relates to a building model of a natural gas hydrate processing factory utilizing wind-solar hybrid electric power on a sea island, which belongs to the technical field of sea clean energy development. Electric currents which are generated by a solar photovoltaic power generation system and a wind-driven power generation system on mountain of the sea island are respectively input into a junction box and then enter a diverter. One branch of electric current which is output from the diverter is input into an electric device of an electric conveyor belt through a conductor wire. The electric energy is converted to mechanical energy. The electric conveyor belt depends on the mechanical energy for operation. Natural gas hydrate sealed storage/transportation cabinets are conveyed into a natural gas hydrate sealed accumulating cabinet storage/transportation cabinet warehouse through a natural gas hydrate sealed storage/transportation cabinet conveying channel. The natural gas hydrate is taken out of the cabinet and is upwards conveyed to a natural gas hydrate gasification workshop. Another branch of electric current which is output from the diverter generates thermal energy through a conductor wire input warming device for increasing the temperature of the natural gas hydrate gasification workshop. Air pressure is reduced after a decompression control valve is opened. Methane gas released from the natural gas hydrate is checked by a methane gas checking workshop and is then filtered by a molecular sieve filtering device. Then the methane gas is supplied to users through gas pipeline.

Description

On island, utilize the BUILDINGS MODELS of combustible ice processing factory of the electric power of wind light mutual complementing

Technical field

The utility model relates to the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island, belongs to ocean development of clean energy technical field.

Background technology

The best-of-breed technology scheme that haze repeatedly occurs for China solution Beijing-Tianjin wing area and Yangtze River Delta Area is exactly to readjust the energy structure energetically.Long-term to rely on coal generating be the main cause that forms haze, and in the process of coal fired power generation, the tall and big chimney in fuel-burning power plant can be to the polluter that discharges a large amount of carbon dioxide, sulphuric dioxide and other infringement human healths in air.Carbon dioxide can form greenhouse, and sulphuric dioxide can produce acid rain, and multiple pollutant matter causes airborne pellet PM10 and can enter lung fine particle PM2.5 and rolls up, serious harm health.Nearly 2 years, the Wuxi City of Yangtze River Delta, Nantong City worked out the planning of building gas power plant, determined to replace coal fired power generation with fuel gas generation, alleviated the harm of haze to ecologic environment.

What Eastern China built that gas power plant need to have that a large amount of rock gas (being mainly methane gas) ensures gas power plant in a large number uses gas demand.Existing ' transfering natural gas from the west to the east ' engineering can be supplied many rock gases, but occurred that in recent years source of the gas is in short supply, gas price starts the problem going up, and the biogas amount providing is in the localities large not, and this just need to open up source new, that rock gas can be provided in a large number.The combustible ice that can produce ocean natural gas in Eastern China and southern ocean has attracted many knowledgeable people's eye.The flood dragon manned deep-sea vehicle of Wuxi China Shipbuilding Industry Corporation 702 manufacturings successfully slip into 1000 meters, seabed dark, 7000 meters dark, for opening up Liao Xin road in combustible ice ore deposit, Chinese exploratory development seabed.In September, 2013, inventor's Miao TongChun of 4 Japan's patent was participated in international thalassography art forum in Shanghai International Exhibition Centre, the director of abyss think factory of Shanghai Ocean University, ' flood dragon ' number manned underwater vehicle are overall has done academic report with integrated project responsible official, the heroic Cui Weicheng of manned deep diving, the miniatures that Miao TongChun has carefully watched a plurality of national marine company to make, finds to lack the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, and the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island is provided.

On wide ocean, be distributed with many islands, wherein existing solar energy resources on the island of a part, has again wind energy resources.Nearly ten years, the technology of made in China solar panel, solar photovoltaic assembly is greatly improved, the photoelectric transformation efficiency of solar panel is in advanced international standard, it is many that the raising of solar photovoltaic assembly efficiency increases photovoltaic power generation quantity, and the level of manufacturing the aerogenerator of different capacity improves equally greatly.Premier Li Keqiang of State Council of the People's Republic of China proposes encourage growth wind energy, sun power, biomass energy in the government work report on March 5th, 2014.Exploitation combustible ice ore deposit, seabed, make full use of island and build combustible ice processing factory, and makes full use of solar electrical energy generation and wind-power electricity generation Lai Xiang combustible ice processing factory provides the needed energy.In process due to solar energy power generating and wind-power electricity generation, all do not discharge pollutants, avoided causing marine pollution.There is the variation at daytime and night in solar electrical energy generation, wind-power electricity generation exists the variation of wind-force size, and wind light mutual complementing power generation can make up defect each other, guarantees the stable market supply of electric power.

Combustible ice is solid state in seabed, but combustible ice is transported to sea from seabed, because temperature rising and pressure on sea reduce, combustible ice can discharge methane gas in atmospheric envelope, causing aspect global warming, large 20 times than carbon dioxide of methane roles, thus strong greenhouse caused.In the technical scheme of the utility model exploitation and processing combustible ice, all the time emphasize combustible ice to be placed in the combustible ice sealing Storage and transport case container of sealing, the combustible ice sealing Storage and transport case transport channel, the combustible ice that are placed in sealing seal between Storage and transport case accumulating warehouse, combustible ice gasification workshop, methane gas inspection vehicle and gas pipe line transportation and processing combustible ice or methane gas, guarantee that methane gas Vent does not occur and leaks.Under the condition of sealing, combustible ice is converted into methane gas, both taken full advantage of natural resources, guaranteed again safety in production.Thereby make the combustion of natural gas value that makes from combustible ice high; in transportation, processing and the process used, to advantages such as discharging waste gas in air and residues, be not fully exerted; because the reserves of seabed combustible ice are very large; what extensive security development and processing combustible ice could meet increasing gas power plant on the earth uses gas demand; both a large amount of supplies of clean energy resource had been met, the ecologic environment on effectively preserving our planet again.

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

Each ingredient by the model in the window frame of the face glass window frame 1 of this BUILDINGS MODELS and the face glass window frame 1 of this BUILDINGS MODELS: island massif 3, undersea mining robot 4, combustible ice ore deposit, seabed 5, combustible ice sealing Storage and transport case transport channel 6, combustible ice sealing Storage and transport case 7, combustible ice sealing Storage and transport case pallet for transporting 8, electric conveyor belt 9, aerogenerator 10, wind-powered electricity generation energy-storage battery 11, wind-powered electricity generation controller 12, wind-powered electricity generation inverter 13, conductor wire 14, junction station 15, photovoltaic DC-to-AC converter 16, photovoltaic controller 17, photovoltaic energy storage battery 18, photovoltaic pillar 19, solar cell 20, shunt 21, combustible ice sealing Storage and transport case accumulating warehouse 22, combustible ice gasification workshop 23, pressure reduction control valve 24, heating device 25, between methane gas inspection vehicle 27, molecular sieve filter device 28, supercharging gasing pump 29, gas pipe line 30 forms the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island jointly, in the surrounding of island massif 3, has seawater 2, in combustible ice gasification workshop 23, is placed with combustible ice 26,

On the highland, right side of island massif 3, distributed solar energy photovoltaic generating system is installed, distributed solar energy photovoltaic generating system comprises: solar cell 20, photovoltaic pillar 19, conductor wire 14, photovoltaic energy storage battery 18, photovoltaic controller 17, photovoltaic DC-to-AC converter 16, junction station 15, on the highland, left side of island massif 3, distributed wind-power generator system is installed, distributed wind-power generator system comprises: aerogenerator 10, wind-powered electricity generation energy-storage battery 11, wind-powered electricity generation controller 12, wind-powered electricity generation inverter 13, conductor wire 14, junction station 15, conductor wire 14 is installed below junction station 15, shunt 21, in the hill-side of island massif 3 portion, combustible ice gasification workshop 23 is installed, on the sidewall that faces distributed solar energy photovoltaic generating system and distributed wind-power generator system in combustible ice gasification workshop 23, heating device 25 and pressure reduction control valve 24 are installed, combustible ice sealing Storage and transport case accumulating warehouse 22 is installed below combustible ice gasification workshop 23, electric conveyor belt 9 is installed in bottom in combustible ice sealing Storage and transport case accumulating warehouse 22, in combustible ice sealing Storage and transport case accumulating warehouse 22, face on the sidewall of seawater 2 combustible ice sealing Storage and transport case transport channel 6 is installed, combustible ice sealing Storage and transport case transport channel 6 stretches out island massif 3 and bends towards the plane of seawater 2 and in seawater 2, extend combustible ice ore deposit, through seabed 5 downwards under backward, electric conveyor belt 9 is installed in inside at combustible ice sealing Storage and transport case transport channel 6, combustible ice sealing Storage and transport case accumulating warehouse 22 is connected intercommunication with combustible ice sealing Storage and transport case transport channel 6, electric conveyor belt 9 runs through the bottom in combustible ice sealing Storage and transport case transport channel 6 and combustible ice sealing Storage and transport case accumulating warehouse 22, 50-950 combustible ices sealing Storage and transport case pallet for transporting 8 are installed on electric conveyor belt 9, on 50-950 combustible ices sealing Storage and transport case pallet for transporting 8,50-950 combustible ices of corresponding installation seal Storage and transport cases 7 one to one, below combustible ice sealing Storage and transport case transport channel 6, there is combustible ice ore deposit, seabed 5, on the superficial layer in combustible ice ore deposit, seabed 5, there is 6-18Ge undersea mining robot 4, 6-18Ge undersea mining robot, 4 combustible ice ore deposits, digging seabed 5, the combustible ice of turn up 26 is packed into after 7 sealings of combustible ice sealing Storage and transport case, be placed on combustible ice sealing Storage and transport case pallet for transporting 8 and transport,

Solar cell 20 is connected with photovoltaic controller 17 by conductor wire 14, photovoltaic controller 17 is connected with photovoltaic energy storage battery 18 by conductor wire 14, photovoltaic controller 17 is connected with photovoltaic DC-to-AC converter 16 by conductor wire 14, photovoltaic DC-to-AC converter 16 is connected with junction station 15 by conductor wire 14, aerogenerator 10 is connected with wind-powered electricity generation controller 12 by conductor wire 14, wind-powered electricity generation controller 12 is connected with wind-powered electricity generation energy-storage battery 11 by conductor wire 14, wind-powered electricity generation controller 12 is connected with wind-powered electricity generation inverter 13 by conductor wire 14, wind-powered electricity generation inverter 13 is connected with junction station 15 by conductor wire 14, junction station 15 is connected with shunt 21 by conductor wire 14, shunt 21 is connected with heating device 25 by conductor wire 14, shunt 21 is connected with the electric device of electric conveyor belt 9 by conductor wire 14, the electric conveyor belt 9 of the bottom in combustible ice sealing Storage and transport case accumulating warehouse 22 is the electric conveyor belts that can transmit continuously 9 with the electric conveyor belt 9 in combustible ice sealing Storage and transport case transport channel 6.

Solar cell 20 is monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or compound solar cell.

Aerogenerator 10 is horizontal axial type aerogenerator or perpendicular axis type wind-driven generator.

Compared with prior art, the beneficial effects of the utility model are: 1. can source clean, and free from environmental pollution.Make full use of solar energy resources and wind energy resources generating on island, and complement one another, transportation and combustible ice gasification workshop increase temperature to combustible ice sealing Storage and transport case provide electric energy, owing to not discharging any pollutant in the process of solar electrical energy generation and wind-power electricity generation, provide whole are clean energy resourcies free from environmental pollution.That 2. in the environment of sealing, exploit, transports, processes combustible ice and utilize that combustible ice produces take the rock gas that methane is principal ingredient, to Vent in air, does not leak methane gas, realizes that rock gas is kept the safety in production and combustible ice resource makes full use of.

Accompanying drawing explanation

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

Embodiment

After inputting respectively junction station, the electric current that solar photovoltaic generation system on the massif of island and wind generator system produce enters shunt, from one electric current of shunt output, by conductor wire, input the electric device of electric conveyor belt, electric energy converts mechanical energy to, electric conveyor belt is by mechanical energy running, combustible ice is sealed to Storage and transport case to be sealed Storage and transport case transport channel by combustible ice and transports combustible ice sealing Storage and transport case accumulating warehouse, combustible ice is taken out and is upwards transported combustible ice gasification workshop from cabinet, from another strand of electric current of shunt output, by conductor wire, input heating device and produce the temperature that heat energy increases combustible ice gasification workshop, pressure reduction control valve is opened rear air pressure and is reduced, the methane gas discharging from combustible ice is through checking between methane gas inspection vehicle, molecular sieve filter device filters, follow by gas pipe line to user's air feed.

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

Each ingredient by the model in the window frame of the face glass window frame 1 of this BUILDINGS MODELS and the face glass window frame 1 of this BUILDINGS MODELS: island massif 3, undersea mining robot 4, combustible ice ore deposit, seabed 5, combustible ice sealing Storage and transport case transport channel 6, combustible ice sealing Storage and transport case 7, combustible ice sealing Storage and transport case pallet for transporting 8, electric conveyor belt 9, aerogenerator 10, wind-powered electricity generation energy-storage battery 11, wind-powered electricity generation controller 12, wind-powered electricity generation inverter 13, conductor wire 14, junction station 15, photovoltaic DC-to-AC converter 16, photovoltaic controller 17, photovoltaic energy storage battery 18, photovoltaic pillar 19, solar cell 20, shunt 21, combustible ice sealing Storage and transport case accumulating warehouse 22, combustible ice gasification workshop 23, pressure reduction control valve 24, heating device 25, between methane gas inspection vehicle 27, molecular sieve filter device 28, supercharging gasing pump 29, gas pipe line 30 forms the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island jointly, in the surrounding of island massif 3, has seawater 2, in combustible ice gasification workshop 23, is placed with combustible ice 26,

On the highland, right side of island massif 3, distributed solar energy photovoltaic generating system is installed, distributed solar energy photovoltaic generating system comprises: solar cell 20, photovoltaic pillar 19, conductor wire 14, photovoltaic energy storage battery 18, photovoltaic controller 17, photovoltaic DC-to-AC converter 16, junction station 15, on the highland, left side of island massif 3, distributed wind-power generator system is installed, distributed wind-power generator system comprises: aerogenerator 10, wind-powered electricity generation energy-storage battery 11, wind-powered electricity generation controller 12, wind-powered electricity generation inverter 13, conductor wire 14, junction station 15, conductor wire 14 is installed below junction station 15, shunt 21, in the hill-side of island massif 3 portion, combustible ice gasification workshop 23 is installed, on the sidewall that faces distributed solar energy photovoltaic generating system and distributed wind-power generator system in combustible ice gasification workshop 23, heating device 25 and pressure reduction control valve 24 are installed, combustible ice sealing Storage and transport case accumulating warehouse 22 is installed below combustible ice gasification workshop 23, electric conveyor belt 9 is installed in bottom in combustible ice sealing Storage and transport case accumulating warehouse 22, in combustible ice sealing Storage and transport case accumulating warehouse 22, face on the sidewall of seawater 2 combustible ice sealing Storage and transport case transport channel 6 is installed, combustible ice sealing Storage and transport case transport channel 6 stretches out island massif 3 and bends towards the plane of seawater 2 and in seawater 2, extend combustible ice ore deposit, through seabed 5 downwards under backward, electric conveyor belt 9 is installed in inside at combustible ice sealing Storage and transport case transport channel 6, combustible ice sealing Storage and transport case accumulating warehouse 22 is connected intercommunication with combustible ice sealing Storage and transport case transport channel 6, electric conveyor belt 9 runs through the bottom in combustible ice sealing Storage and transport case transport channel 6 and combustible ice sealing Storage and transport case accumulating warehouse 22, 50-950 combustible ices sealing Storage and transport case pallet for transporting 8 are installed on electric conveyor belt 9, on 50-950 combustible ices sealing Storage and transport case pallet for transporting 8,50-950 combustible ices of corresponding installation seal Storage and transport cases 7 one to one, below combustible ice sealing Storage and transport case transport channel 6, there is combustible ice ore deposit, seabed 5, on the superficial layer in combustible ice ore deposit, seabed 5, there is 6-18Ge undersea mining robot 4, 6-18Ge undersea mining robot, 4 combustible ice ore deposits, digging seabed 5, the combustible ice of turn up 26 is packed into after 7 sealings of combustible ice sealing Storage and transport case, be placed on combustible ice sealing Storage and transport case pallet for transporting 8 and transport,

Solar cell 20 is connected with photovoltaic controller 17 by conductor wire 14, photovoltaic controller 17 is connected with photovoltaic energy storage battery 18 by conductor wire 14, photovoltaic controller 17 is connected with photovoltaic DC-to-AC converter 16 by conductor wire 14, photovoltaic DC-to-AC converter 16 is connected with junction station 15 by conductor wire 14, aerogenerator 10 is connected with wind-powered electricity generation controller 12 by conductor wire 14, wind-powered electricity generation controller 12 is connected with wind-powered electricity generation energy-storage battery 11 by conductor wire 14, wind-powered electricity generation controller 12 is connected with wind-powered electricity generation inverter 13 by conductor wire 14, wind-powered electricity generation inverter 13 is connected with junction station 15 by conductor wire 14, junction station 15 is connected with shunt 21 by conductor wire 14, shunt 21 is connected with heating device 25 by conductor wire 14, shunt 21 is connected with the electric device of electric conveyor belt 9 by conductor wire 14, the electric conveyor belt 9 of the bottom in combustible ice sealing Storage and transport case accumulating warehouse 22 is the electric conveyor belts that can transmit continuously 9 with the electric conveyor belt 9 in combustible ice sealing Storage and transport case transport channel 6.

Solar cell 20 is monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or compound solar cell.

Aerogenerator 10 is horizontal axial type aerogenerator or perpendicular axis type wind-driven generator.

Solar light irradiation solar cell produces direct current, direct current is inputted photovoltaic controller by conductor wire, from the direct current of photovoltaic controller output, by conductor wire, input photovoltaic energy storage battery storage electric energy, from the direct current of photovoltaic controller output, by conductor wire, input photovoltaic DC-to-AC converter, converting direct-current power into alternating-current power in photovoltaic DC-to-AC converter, from the alternating current of photovoltaic DC-to-AC converter output, by conductor wire, input junction station, wind blows direct current aerogenerator produces direct current, direct current is inputted wind-powered electricity generation controller by conductor wire, from the direct current of wind-powered electricity generation controller output, by conductor wire, input wind-powered electricity generation energy-storage battery, from the direct current of wind-powered electricity generation controller output, by conductor wire, input wind-powered electricity generation inverter, converting direct-current power into alternating-current power in wind-powered electricity generation inverter, from the alternating current of wind-powered electricity generation inverter output, by conductor wire, input junction station, photovoltaic electric current and wind-powered electricity generation electric current converge in junction station, the electric current of exporting from junction station is inputted in shunt and is shunted by conductor wire, one electric current distributing from shunt is inputted heating device by conductor wire, in heating device, electric energy energy transform into heat energy, heat energy reaches 20 ℃ for increasing the temperature in combustible ice gasification workshop, another distributing from shunt strand electric current is inputted the electric device of electric conveyor belt by conductor wire, electric energy converts mechanical energy to, mechanical energy is for driving electric conveyor belt together with the transmission of combustible ice sealing Storage and transport case pallet for transporting mounted thereto and combustible ice sealing Storage and transport case.On the surface in combustible ice ore deposit, seabed, be distributed with 6-18Ge undersea mining robot and carry out the operation of digging combustible ice, undersea mining robot puts into combustible ice sealing Storage and transport case by the combustible ice excavating and seals, combustible ice sealing Storage and transport case is arranged on electric conveyor belt together with the combustible ice sealing Storage and transport case pallet for transporting of its below, the running of electric conveyor belt seals Storage and transport case by combustible ice and transports combustible ice sealing Storage and transport case accumulating warehouse through combustible ice sealing Storage and transport case transport channel, in combustible ice sealing Storage and transport case accumulating warehouse, automatically take out combustible ice, then combustible ice is upwards transported to combustible ice gasification workshop, in combustible ice gasification workshop, temperature reaches 20 ℃, pressure decreased to one atmospheric pressure after pressure reduction control valve is open in combustible ice gasification workshop, in such temperature, under pressure condition, the combustible ice of a cubic meter discharges 164 cubic meters and take methane composition as main rock gas and the fresh water of 0.8 cubic meter, methane gas is upwards inputted between methane gas inspection vehicle and is tested, and filter purification by molecular sieve filter device, high-purity methane gas input supercharging gasing pump after molecular sieve filter device filters pressurizes, methane gas after pressurization is flowed to gas client and is used by gas pipe line.In the utility model, from combustible ice exploitation, all processes that is shipped to methane gas processing, output, be all to carry out in the space of sealing, production run safety, there will not be the Vent of methane gas to leak.

Now enumerate embodiment as follows:

Embodiment mono-:

After inputting respectively junction station, the electric current that adopts the solar photovoltaic generation system of monocrystaline silicon solar cell and the wind generator system of usage level axle type wind driven generator to produce on the massif of island enters shunt, from one electric current of shunt output, by conductor wire, input the electric device of electric conveyor belt, electric energy converts mechanical energy to, mechanical energy is for the running of electric conveyor belt, combustible ice is sealed to Storage and transport case to be sealed Storage and transport case transport channel by combustible ice and transports combustible ice sealing Storage and transport case accumulating warehouse, combustible ice is taken out and is upwards transported combustible ice gasification workshop automatically from cabinet, from another strand of electric current of shunt output, by conductor wire, input heating device and produce the temperature that heat energy increases combustible ice gasification workshop, pressure reduction control valve is opened rear air pressure and is reduced, the methane gas discharging from combustible ice is through checking between methane gas inspection vehicle, molecular sieve filter device filters, follow by gas pipe line to user's air feed.

Embodiment bis-:

After inputting respectively junction station, the electric current that adopts the solar photovoltaic generation system of polysilicon solar cell and the wind generator system of use perpendicular axis type wind-driven generator to produce on the massif of island enters shunt, from one electric current of shunt output, by conductor wire, input the electric device of electric conveyor belt, electric energy converts mechanical energy to, mechanical energy is for the running of electric conveyor belt, combustible ice is sealed to Storage and transport case to be sealed Storage and transport case transport channel by combustible ice and transports combustible ice sealing Storage and transport case accumulating warehouse, combustible ice is taken out and is upwards transported combustible ice gasification workshop automatically from cabinet, from another strand of electric current of shunt output, by conductor wire, input heating device and produce the temperature that heat energy increases combustible ice gasification workshop, pressure reduction control valve is opened rear air pressure and is reduced, the methane gas discharging from combustible ice is through checking between methane gas inspection vehicle, molecular sieve filter device filters, follow by gas pipe line to user's air feed.

Claims (3)

1. on island, utilize the BUILDINGS MODELS of combustible ice processing factory of the electric power of wind light mutual complementing, it is characterized in that, by each ingredient of the model in the window frame of the face glass window frame (1) of this BUILDINGS MODELS and the face glass window frame (1) of this BUILDINGS MODELS: island massif (3), undersea mining robot (4), combustible ice ore deposit, seabed (5), combustible ice sealing Storage and transport case transport channel (6), combustible ice sealing Storage and transport case (7), combustible ice sealing Storage and transport case pallet for transporting (8), electric conveyor belt (9), aerogenerator (10), wind-powered electricity generation energy-storage battery (11), wind-powered electricity generation controller (12), wind-powered electricity generation inverter (13), conductor wire (14), junction station (15), photovoltaic DC-to-AC converter (16), photovoltaic controller (17), photovoltaic energy storage battery (18), photovoltaic pillar (19), solar cell (20), shunt (21), combustible ice sealing Storage and transport case accumulating warehouse (22), combustible ice gasification workshop (23), pressure reduction control valve (24), heating device (25), between methane gas inspection vehicle (27), molecular sieve filter device (28), supercharging gasing pump (29), gas pipe line (30) forms the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island jointly, in the surrounding of island massif (3), has seawater (2), in combustible ice gasification workshop (23), is placed with combustible ice (26),

On the highland, right side of island massif (3), distributed solar energy photovoltaic generating system is installed, distributed solar energy photovoltaic generating system comprises: solar cell (20), photovoltaic pillar (19), conductor wire (14), photovoltaic energy storage battery (18), photovoltaic controller (17), photovoltaic DC-to-AC converter (16), junction station (15), on the highland, left side of island massif (3), distributed wind-power generator system is installed, distributed wind-power generator system comprises: aerogenerator (10), wind-powered electricity generation energy-storage battery (11), wind-powered electricity generation controller (12), wind-powered electricity generation inverter (13), conductor wire (14), junction station (15), in the below of junction station (15), conductor wire (14) is installed, shunt (21), in the hill-side portion of island massif (3), combustible ice gasification workshop (23) is installed, on the sidewall that faces distributed solar energy photovoltaic generating system and distributed wind-power generator system in combustible ice gasification workshop (23), heating device (25) and pressure reduction control valve (24) are installed, combustible ice sealing Storage and transport case accumulating warehouse (22) is installed in the below in combustible ice gasification workshop (23), electric conveyor belt (9) is installed in bottom in combustible ice sealing Storage and transport case accumulating warehouse (22), in combustible ice sealing Storage and transport case accumulating warehouse (22), face on the sidewall of seawater (2) combustible ice sealing Storage and transport case transport channel (6) is installed, combustible ice sealing Storage and transport case transport channel (6) stretches out island massif (3) and bends towards the plane of seawater (2) and in seawater (2), extend through combustible ice ore deposit, seabed (5) downwards under backward, electric conveyor belt (9) is installed in inside at combustible ice sealing Storage and transport case transport channel (6), combustible ice sealing Storage and transport case accumulating warehouse (22) is connected intercommunication with combustible ice sealing Storage and transport case transport channel (6), electric conveyor belt (9) runs through the bottom in combustible ice sealing Storage and transport case transport channel (6) and combustible ice sealing Storage and transport case accumulating warehouse (22), at 50-950 combustible ices sealing Storage and transport case pallet for transporting (8) of the upper installation of electric conveyor belt (9), on 50-950 combustible ices sealing Storage and transport case pallet for transporting (8), 50-950 combustible ices of corresponding installation seal Storage and transport cases (7) one to one, there is combustible ice ore deposit, seabed (5) below at combustible ice sealing Storage and transport case transport channel (6), on the superficial layer in combustible ice ore deposit, seabed (5), there is 6-18Ge undersea mining robot (4), combustible ice ore deposit, 6-18Ge undersea mining robot (4) digging seabed (5), the combustible ice of turn up (26) is packed into after combustible ice sealing Storage and transport case (7) sealing, be placed on combustible ice sealing Storage and transport case pallet for transporting (8) and transport,

Solar cell (20) is connected with photovoltaic controller (17) by conductor wire (14), photovoltaic controller (17) is connected with photovoltaic energy storage battery (18) by conductor wire (14), photovoltaic controller (17) is connected with photovoltaic DC-to-AC converter (16) by conductor wire (14), photovoltaic DC-to-AC converter (16) is connected with junction station (15) by conductor wire (14), aerogenerator (10) is connected with wind-powered electricity generation controller (12) by conductor wire (14), wind-powered electricity generation controller (12) is connected with wind-powered electricity generation energy-storage battery (11) by conductor wire (14), wind-powered electricity generation controller (12) is connected with wind-powered electricity generation inverter (13) by conductor wire (14), wind-powered electricity generation inverter (13) is connected with junction station (15) by conductor wire (14), junction station (15) is connected with shunt (21) by conductor wire (14), shunt (21) is connected with heating device (25) by conductor wire (14), shunt (21) is connected with the electric device of electric conveyor belt (9) by conductor wire (14), the electric conveyor belt (9) of the bottom in combustible ice sealing Storage and transport case accumulating warehouse (22) is an electric conveyor belt that can transmit continuously (9) with the electric conveyor belt (9) in combustible ice sealing Storage and transport case transport channel (6).

2. the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island according to claim 1, it is characterized in that, described solar cell (20) is monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or compound solar cell.

3. the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind light mutual complementing on island according to claim 1, is characterized in that, described aerogenerator (10) is horizontal axial type aerogenerator or perpendicular axis type wind-driven generator.