CN203773844U - Building model of natural gas hydrate processing factory utilizing wind generated 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 generated electric power on a sea island, which belongs to the technical field of sea clean energy development. Wind blows the blades of a wind-driven power generator to rotate and drives the wind-driven power generator to generate electric current. The electric current is input into a wind power controller for adjusted and is then input into a wind power inverter for conversion. The converted electric current is input into a diverter for being shunt to two branches of electric current. One branch of electric current is input into an electric device of an electric conveyor belt through a conductor wire. The electric conveyor belt operates for conveying natural gas hydrate sealed storage/transportation cabinets into a natural gas hydrate sealed storage/transportation cabinet warehouse through a natural gas hydrate sealed storage/transportation cabinet conveying channel. Natural gas hydrate is taken out and upwards transported to a natural gas hydrate gasification workshop. Another branch of electric current is input into a warming device through a conductor wire. Because the temperature of the natural gas hydrate gasification workshop increases and the air pressure reduces, methane gas is released from the natural gas hydrate. The methane gas is input into a methane gas checking workshop for being checked. After the methane gas is filtered by a molecular sieve filtering device, the methane gas is supplied to users through gas pipeline.

Description

On island, utilize the BUILDINGS MODELS of the combustible ice processing factory of the electric power of wind-power electricity generation

Technical field

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

Background technology

The spring from 2012 to 2014, occur that repeatedly haze perplexs Chinese Yangtze River Delta Region, the main root of the trouble that causes haze is that coal fired power generation is too much, therefore, the city such as Wuxi, Jiangsu Province, Nantong of Yangtze River Delta replaces coal fired power generation in positive planning with fuel gas generation, fuel gas generation can not cause serious pollution to environment, going all out with fuel gas generation need to have sufficient rock gas to secure an adequate supply, except leaning on existing ' transfering natural gas from the west to the east ' engineering air feed, scientific and technical personnel more turn one's attention to the combustible ice of output rock gas in a large number.

Bank of the Taihu Lake of Wuxi City, Jiangsu Province, there are 702 research institutes of China Shipbuilding Industry Corporation, the chief is named as Weng Zhenping, the Weng chief leads this flood dragon of succeeding in developing number manned bathyscaph to be successfully completed 7020 meters of sea examinations of deep diving, the Weng chief hears that Japan has utilized seabed combustible ice to produce rock gas, just cooperate with China University Of Petroleum Beijing, the marine energy of preparing exploration and development China, Wuxi daily paper reporter praises Weng Zhenping: deeply seek flood dragon number, foresight combustible ice.For build the father-in-law chief of ocean power propose private enterprise can with 702 cooperation ocean development.

Combustible ice is compared with oil, rock gas, have that reserves are large, easy to use, fuel value is high, the many advantages of cleanliness without any pollution, 2013, Japan extracted methane from like the flammable ice sheet in county magistrate deep-sea, and China successfully bored and obtained combustible ice at Northern Part of South China Sea Shenhu sea area in May, 2007.In China (Shanghai) international ocean technology and engineering equipment exhibition that-5 days on the 3rd September in 2013 holds in Shanghai International Exhibition Centre, the utility model people Miao TongChun listens father-in-law to shake the flat report of making exploitation ocean resources, and watch the miniatures of the exploration and development seabed resources that multiple maritime states put on display, on ocean, utilize at present the electric power of wind-power electricity generation, the BUILDINGS MODELS that development distributed wind-power generator carrys out exploration and development combustible ice, there is no the BUILDINGS MODELS of processed safely combustible ice in whole performance historyes, in the space of sealing simultaneously.

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-power electricity generation on island is provided.

On ocean, being distributed with many, the big and small islands of quantity, the wind comes from four sides, island, and wind energy resources abundant on island provides natural condition for developing wind-power electricity generation.Aerogenerator, in the process of generating, does not discharge any harmful gas in air.Nearly ten years, the technical progress of made in China aerogenerator is very fast, can not only manufacture interchange aerogenerator, also can manufacture direct current aerogenerator, can not only manufacture powerful aerogenerator, in also manufacturing, low power aerogenerator, aerogenerator is installed on island, utilizing local wind resource to generate electricity, is economically viable, good technical scheme to the combustible ice processing factory power supply on island on the spot.

The temperature in seabed is at 2 DEG C-4 DEG C, and seabed pressure reaches 30 atmospheric pressure when above, and gas hydrate are solid-state state in seabed, be called as combustible ice.Combustible ice is white solid matter, outer image ice, and fuel value is high, does not produce waste gas and residue when burning, can pollution of ecological environment, be the first-class clean energy resource that can alleviate land haze weather.If but combustible ice not sealing in seabed rises to sea from seabed, on sea, temperature exceedes under 20 DEG C, one atmospheric condition, combustible ice resolves into methane G&W.A large amount of methane gas escapes in atmospheric envelope, can produce the consequence that is harmful to environment for human survival.Because the greenhouse effect of methane gas are 20 times of carbon dioxide, greenhouse effect can cause on the earth unusual weather conditions and seawater plane to rise and threaten the mankind's existence.Combustible ice can only carefully be developed, careful utilization, develops well, can promote the well-being of mankind, and develops badly, and the mankind can damage.In the utility model, emphasize from start to finish in digging, transport, in the overall process of gasification combustible ice, combustible ice to be placed in the space of sealing, first combustible ice is put into combustible ice sealing Storage and transport case, transport combustible ice sealing Storage and transport case accumulating warehouse from seabed by the combustible ice sealing Storage and transport case of filling combustible ice, automatically draw off combustible ice, and then combustible ice is transported to combustible ice gasification workshop, gasify by increasing temperature and reducing pressure, safety output methane gas, methane gas is then between the methane gas inspection vehicle by sealing, supercharging gasing pump and gas pipe line, its object prevents methane gas escape exactly, both wasted resource, damage to the environment again.Must under the mankind's strict control, produce sea-bottom natural gas by a large amount of combustible ices that develop of ability, methane gas is transported to Qihu and is carried out fully burning after use, and the preciousness that just can give full play to combustible ice is worth.Utilizing the electric power of wind-power electricity generation to ensure the energy supply in combustible ice transport and process, is very energy-conserving and environment-protective.

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, electric conveyor belt 6, combustible ice sealing Storage and transport case accumulating bracket 7, combustible ice sealing Storage and transport case 8, combustible ice sealing Storage and transport case transport channel 9, combustible ice sealing Storage and transport case accumulating warehouse 10, combustible ice gasification workshop 11, pressure reduction control valve 12, aerogenerator 13, conductor wire 14, wind-powered electricity generation controller 15, wind-powered electricity generation inverter 16, shunt 17, heating device 18, between methane gas inspection vehicle 20, molecular sieve filter device 21, supercharging gasing pump 22, gas pipe line 23 forms the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind-power electricity generation on island jointly, around island massif 3, there is seawater 2, in combustible ice gasification workshop 11, be placed with combustible ice 19,

Aerogenerator 13 is installed on the highland of island massif 3, conductor wire 14, wind-powered electricity generation controller 15, wind-powered electricity generation inverter 16, shunt 17, combustible ice gasification workshop 11 is installed on the hill-side of island massif 3, on the sidewall that faces aerogenerator 13 in combustible ice gasification workshop 11, heating device 18 and pressure reduction control valve 12 are installed, combustible ice sealing Storage and transport case accumulating warehouse 10 is installed below combustible ice gasification workshop 11, electric conveyor belt 6 is installed in bottom in combustible ice sealing Storage and transport case accumulating warehouse 10, combustible ice sealing Storage and transport case accumulating warehouse 10 is interconnected with combustible ice sealing Storage and transport case transport channel 9, electric conveyor belt 6 runs through the bottom in combustible ice sealing Storage and transport case transport channel 9 and combustible ice sealing Storage and transport case accumulating warehouse 10, 50-1000 combustible ices sealing Storage and transport case accumulating brackets 7 are installed on electric conveyor belt 6, on 50-1000 combustible ices sealing Storage and transport case accumulating brackets 7,50-1000 combustible ices of corresponding installation seal Storage and transport cases 8 one to one, below combustible ice sealing Storage and transport case transport channel 9, there is combustible ice ore deposit, seabed 5, on the superficial layer in combustible ice ore deposit, seabed 5, there are 5-15 undersea mining robots 4, 5-15 undersea mining robots 4 combustible ice ore deposits, digging seabed 5, after the combustible ice of turn up 19 is packed into combustible ice sealing Storage and transport case 8 and seals, be placed on combustible ice sealing Storage and transport case accumulating bracket 7 and transport,

Aerogenerator 13 is connected with wind-powered electricity generation controller 15 by conductor wire 14, wind-powered electricity generation controller 15 is connected with wind-powered electricity generation inverter 16 by conductor wire 14, wind-powered electricity generation inverter 16 is connected with shunt 17 by conductor wire 14, shunt 17 is connected with heating device 18 by conductor wire 14, shunt 17 is connected with the electric device of electric conveyor belt 6 by conductor wire 14, and the electric conveyor belt 6 of the bottom in combustible ice sealing Storage and transport case accumulating warehouse 10 is the electric conveyor belts that can transmit continuously 6 with the electric conveyor belt 6 in combustible ice sealing Storage and transport case transport channel 9.

Aerogenerator 13 is perpendicular axis type wind-driven generator or horizontal axial type aerogenerator.

Compared with prior art, the beneficial effects of the utility model are: 1. security is good.In the process of digging, transport, processing combustible ice, all in the environment in sealing, can not there is the escape of methane gas in combustible ice, ensured fully rationally utilizing of combustible ice resource.2. energy-conserving and environment-protective.Make full use of the wind energy resources on island, go all out with wind-power electricity generation, for transport and the combustible ice gasification workshop increase temperature of combustible ice sealing Storage and transport case provide electric power supply, in the process of wind-power electricity generation, do not discharge any pollutant, provide clean energy resource, so very energy-conserving and environment-protective.

Brief description of the drawings

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

Embodiment

The blade rotary of wind blows aerogenerator drives aerogenerator generation current, electric current input wind-powered electricity generation controller is adjusted, then inputting wind-powered electricity generation inverter changes, electric current input shunt after conversion is split into two strands of electric currents, one electric current is inputted the electric device of electric conveyor belt by conductor wire, the running of electric conveyor belt seals Storage and transport case by combustible ice and seals Storage and transport case transport channel by combustible ice and transport combustible ice sealing Storage and transport case accumulating warehouse, take out combustible ice and upwards transport combustible ice gasification workshop, another strand of electric current inputted heating device by conductor wire, because the temperature gentle pressure drop that raises in combustible ice gasification workshop is low, from combustible ice, discharge methane gas, between methane gas input methane gas inspection vehicle, test, after molecular sieve filter device filters, 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, electric conveyor belt 6, combustible ice sealing Storage and transport case accumulating bracket 7, combustible ice sealing Storage and transport case 8, combustible ice sealing Storage and transport case transport channel 9, combustible ice sealing Storage and transport case accumulating warehouse 10, combustible ice gasification workshop 11, pressure reduction control valve 12, aerogenerator 13, conductor wire 14, wind-powered electricity generation controller 15, wind-powered electricity generation inverter 16, shunt 17, heating device 18, between methane gas inspection vehicle 20, molecular sieve filter device 21, supercharging gasing pump 22, gas pipe line 23 forms the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind-power electricity generation on island jointly, around island massif 3, there is seawater 2, in combustible ice gasification workshop 11, be placed with combustible ice 19,

Aerogenerator 13 is installed on the highland of island massif 3, conductor wire 14, wind-powered electricity generation controller 15, wind-powered electricity generation inverter 16, shunt 17, combustible ice gasification workshop 11 is installed on the hill-side of island massif 3, on the sidewall that faces aerogenerator 13 in combustible ice gasification workshop 11, heating device 18 and pressure reduction control valve 12 are installed, combustible ice sealing Storage and transport case accumulating warehouse 10 is installed below combustible ice gasification workshop 11, electric conveyor belt 6 is installed in bottom in combustible ice sealing Storage and transport case accumulating warehouse 10, combustible ice sealing Storage and transport case accumulating warehouse 10 is interconnected with combustible ice sealing Storage and transport case transport channel 9, electric conveyor belt 6 runs through the bottom in combustible ice sealing Storage and transport case transport channel 9 and combustible ice sealing Storage and transport case accumulating warehouse 10, 50-1000 combustible ices sealing Storage and transport case accumulating brackets 7 are installed on electric conveyor belt 6, on 50-1000 combustible ices sealing Storage and transport case accumulating brackets 7,50-1000 combustible ices of corresponding installation seal Storage and transport cases 8 one to one, below combustible ice sealing Storage and transport case transport channel 9, there is combustible ice ore deposit, seabed 5, on the superficial layer in combustible ice ore deposit, seabed 5, there are 5-15 undersea mining robots 4, 5-15 undersea mining robots 4 combustible ice ore deposits, digging seabed 5, after the combustible ice of turn up 19 is packed into combustible ice sealing Storage and transport case 8 and seals, be placed on combustible ice sealing Storage and transport case accumulating bracket 7 and transport,

Aerogenerator 13 is connected with wind-powered electricity generation controller 15 by conductor wire 14, wind-powered electricity generation controller 15 is connected with wind-powered electricity generation inverter 16 by conductor wire 14, wind-powered electricity generation inverter 16 is connected with shunt 17 by conductor wire 14, shunt 17 is connected with heating device 18 by conductor wire 14, shunt 17 is connected with the electric device of electric conveyor belt 6 by conductor wire 14, and the electric conveyor belt 6 of the bottom in combustible ice sealing Storage and transport case accumulating warehouse 10 is the electric conveyor belts that can transmit continuously 6 with the electric conveyor belt 6 in combustible ice sealing Storage and transport case transport channel 9.

Aerogenerator 13 is perpendicular axis type wind-driven generator or horizontal axial type aerogenerator.

Wind blows direct current aerogenerator produces direct current, direct current is inputted wind-powered electricity generation controller by conductor wire and is adjusted, then input wind-powered electricity generation inverter by conductor wire, converting direct-current power into alternating-current power in wind-powered electricity generation inverter, input shunt from the alternating current of exporting in wind-powered electricity generation inverter by conductor wire, input heating device from one alternating current of shunt output by conductor wire, in heating device, electric energy energy transform into heat energy, heat energy is for improving the temperature in combustible ice gasification workshop, input the electric device of electric conveyor belt by conductor wire from another strand of electric current of shunt output, in the electric device of electric conveyor belt, electric energy converts mechanical energy to, mechanical energy is for driving the running of electric conveyor belt.On the superficial layer in combustible ice ore deposit, seabed, be distributed with 5-15 undersea mining robots 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, because being elevated to 20 DEG C, temperature is reduced to an atmospheric pressure with the open rear air pressure of pressure reduction control valve, the combustible ice of a cubic meter discharges 164 cubic meters taking 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, in pure methane gas input supercharging gasing pump by molecular sieve filter device, pressurize, methane gas after pressurization flows to the use with gas client by gas pipe line.The all processes of processing methane gas with combustible ice is all to complete in the space of sealing, and the Vent that methane gas can not occur leaks.

Now enumerate embodiment as follows:

Embodiment mono-:

The blade rotary of wind blows horizontal axial type aerogenerator drives horizontal axial type aerogenerator generation current, electric current is inputted the adjustment of wind-powered electricity generation controller by conductor wire, then inputting wind-powered electricity generation inverter changes, electric current after conversion is inputted shunt by conductor wire and is split into two strands of electric currents, wherein one electric current is inputted the electric device of electric conveyor belt by conductor wire, electric energy converts mechanical energy to, the running of electric conveyor belt seals Storage and transport case by combustible ice and seals Storage and transport case transport channel by combustible ice and transport combustible ice sealing Storage and transport case accumulating warehouse, automatically take out combustible ice and upwards transport combustible ice gasification workshop, another distributing from shunt strand electric current is inputted heating device by conductor wire, electric energy energy transform into heat energy, because the temperature gentle pressure drop that raises is low, from combustible ice, discharge methane gas, between methane gas input methane gas inspection vehicle, test, after molecular sieve filter device filter-press, by gas pipe line to user's air feed.

Embodiment bis-:

The blade rotary of wind blows perpendicular axis type wind-driven generator drives perpendicular axis type wind-driven generator generation current, electric current is inputted the adjustment of wind-powered electricity generation controller by conductor wire, then inputting wind-powered electricity generation inverter changes, electric current after conversion is inputted shunt by conductor wire and is split into two strands of electric currents, wherein one electric current is inputted the electric device of electric conveyor belt by conductor wire, electric energy converts mechanical energy to, the running of electric conveyor belt seals Storage and transport case by combustible ice and seals Storage and transport case transport channel by combustible ice and transport combustible ice sealing Storage and transport case accumulating warehouse, automatically take out combustible ice and upwards transport combustible ice gasification workshop, another distributing from shunt strand electric current is inputted heating device by conductor wire, electric energy energy transform into heat energy, because the temperature gentle pressure drop that raises is low, from combustible ice, discharge methane gas, between methane gas input methane gas inspection vehicle, test, after molecular sieve filter device filter-press, by gas pipe line to user's air feed.

Claims (2)

1. on island, utilize the BUILDINGS MODELS of the combustible ice processing factory of the electric power of wind-power electricity generation, it is characterized in that 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), electric conveyor belt (6), combustible ice sealing Storage and transport case accumulating bracket (7), combustible ice sealing Storage and transport case (8), combustible ice sealing Storage and transport case transport channel (9), combustible ice sealing Storage and transport case accumulating warehouse (10), combustible ice gasification workshop (11), pressure reduction control valve (12), aerogenerator (13), conductor wire (14), wind-powered electricity generation controller (15), wind-powered electricity generation inverter (16), shunt (17), heating device (18), between methane gas inspection vehicle (20), molecular sieve filter device (21), supercharging gasing pump (22), gas pipe line (23) forms the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind-power electricity generation on island jointly, has seawater (2) around island massif (3), in combustible ice gasification workshop (11), is placed with combustible ice (19),

Aerogenerator (13) is installed on the highland of island massif (3), conductor wire (14), wind-powered electricity generation controller (15), wind-powered electricity generation inverter (16), shunt (17), combustible ice gasification workshop (11) is installed on the hill-side of island massif (3), on the sidewall that faces aerogenerator (13) in combustible ice gasification workshop (11), heating device (18) and pressure reduction control valve (12) are installed, combustible ice sealing Storage and transport case accumulating warehouse (10) is installed in below in combustible ice gasification workshop (11), electric conveyor belt (6) is installed in bottom in combustible ice sealing Storage and transport case accumulating warehouse (10), combustible ice sealing Storage and transport case accumulating warehouse (10) is interconnected with combustible ice sealing Storage and transport case transport channel (9), electric conveyor belt (6) runs through the bottom in combustible ice sealing Storage and transport case transport channel (9) and combustible ice sealing Storage and transport case accumulating warehouse (10), at upper 50-1000 combustible ices sealing Storage and transport case accumulating brackets (7) of installing of electric conveyor belt (6), on 50-1000 combustible ices sealing Storage and transport case accumulating brackets (7), 50-1000 combustible ices of corresponding installation seal Storage and transport cases (8) one to one, there is combustible ice ore deposit, seabed (5) below at combustible ice sealing Storage and transport case transport channel (9), on the superficial layer in combustible ice ore deposit, seabed (5), there are 5-15 undersea mining robots (4), combustible ice ore deposit, 5-15 undersea mining robots (4) digging seabed (5), the combustible ice of turn up (19) is packed into after combustible ice sealing Storage and transport case (8) sealing, be placed on combustible ice sealing Storage and transport case accumulating bracket (7) and transport,

Aerogenerator (13) is connected with wind-powered electricity generation controller (15) by conductor wire (14), wind-powered electricity generation controller (15) is connected with wind-powered electricity generation inverter (16) by conductor wire (14), wind-powered electricity generation inverter (16) is connected with shunt (17) by conductor wire (14), shunt (17) is connected with heating device (18) by conductor wire (14), shunt (17) is connected with the electric device of electric conveyor belt (6) by conductor wire (14), the electric conveyor belt (6) of the bottom in combustible ice sealing Storage and transport case accumulating warehouse (10) is an electric conveyor belt that can transmit continuously (6) with the electric conveyor belt (6) in combustible ice sealing Storage and transport case transport channel (9).

2. the BUILDINGS MODELS of the combustible ice processing factory of the electric power that utilizes wind-power electricity generation on island according to claim 1, is characterized in that, described aerogenerator (13) is perpendicular axis type wind-driven generator or horizontal axial type aerogenerator.