CN214674377U - Zero-carbon-emission integrated novel energy power plant moving assembly system - Google Patents

Abstract

The utility model provides an equipment system that zero carbon row integrated type novel energy power plant removed, it includes: at least one fuel production module; the thermal power generation module is coupled with the fuel manufacturing module; at least one fuel cell module; at least one first retractable power generation module; at least one second retractable power generation module; the fuel cell module is coupled with the fuel cell module, the first retractable power generation module is coupled with the fuel cell module, and the second retractable power generation module is coupled with the electric energy storage module. The utility model relates to an energy-power cycle's green power plant integrates framework sees through diversified energy conversion, accumulate and energy memory such as series connection solar energy, fan, lithium cell energy memory, fuel cell, biomass energy system and reserve thermal power system to the economic value in novel attitude energy market is created jointly to the configuration that retrencies.

Description

Zero-carbon-emission integrated novel energy power plant moving assembly system

Technical Field

The utility model relates to a power plant technical field especially relates to an equipment system that zero carbon row integrated type novel energy power plant removed.

Background

At present, the development projects of new energy comprise solar energy, a wind driven generator, a lithium battery, a fuel cell and biomass energy, and then the development projects are matched with a smart grid to integrate green energy power into the existing power network. With the increasing development of new energy, the power generation efficiency, the production cost and the power conversion technology are remarkably improved. The european countries that have developed new energy technology earlier have for over 10 years begun to strive to fully replace the traditional petrochemical feedstock power generation with new energy sources for the full power supply, even planning to further replace nuclear power plants. For example, in norway, an Island plan for fully new energy-powered islands has been implemented in the west coast of norway for about 20 km, a maritime Island of Utsira Island. The reason is that the total area of the island is about 6.2km²About 235 people in population, depend on a submarine cable of about 18 km length from the local Norway for years to supply power. The traditional power supply mode of the submarine cable not only needs to consume huge construction cost, but also the nursing team thinks that the power supply mode can damage the submarine ecological environment, and the power supply mode does not conform to the mode which is required to be selected by the developed countries when the civilization and the technology level reach. Therefore, the first worldwide plan of utilizing wind power generation, fuel cells, hydrogen production technology and electricity storage devices as the island power supply system is completed in 7/1.2004, and the project also becomes a knock brick of the zero-carbon-emission power supply system.

Since then, in 2005, the regenerated energy of the Unst island on the Islands island set in North of Scotland promoted the development of the project; in 2006, Hydrogen and renewable energy Integration project (Hydrogen energy and renewable energy Integration project) and the like, which are proposed by technical center of renewable energy system of Lafuberg university, UK, are examples of new energy devices to be integrated. However, these experimental plans require a large area of construction land to deploy solar panels, fans, or other devices. Nowadays, various new energy device commodities become mature, and the structural design is diversified. The scheme integrates various new energy devices and the framework thereof, develops and designs a modularized integrated new energy power plant, integrates solar energy, a fan, a fuel cell (energy storage/power conversion), hydrogen production, hydrogen storage, a lithium battery (or other electricity storage devices), biomass energy and a recycling system thereof, not only can stably supply power, but also has the characteristics of transportation, configuration, production and the like, so that green energy is closer to the products of commercialization and civil biochemistry.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the defect that above-mentioned prior art exists, provide an equipment system that zero carbon row integrated type novel energy power plant removed.

The utility model adopts the following technical scheme:

the utility model provides an equipment system that zero carbon row integrated novel energy power plant removed, it includes:

at least one fuel production module;

the thermal power generation module is coupled with the fuel manufacturing module;

at least one fuel cell module;

at least one first retractable power generation module;

at least one second retractable power generation module;

the fuel cell module is coupled with the first retractable power generation module, and the first retractable power generation module is coupled with the second retractable power generation module;

the control module is in signal connection with the fuel manufacturing module, the thermal power generation module, the fuel cell module and the electric energy storage module;

and the conveying module is used for installing and transporting the fuel manufacturing module, the thermal power generation module, the fuel cell module, the first retractable power generation module, the second retractable power generation module, the electric energy storage module and the control module.

The fuel preparation module comprises at least one closed type concentration unit, at least one anaerobic treatment unit, at least one sludge filter-pressing unit, at least one drying unit, at least one carbonization unit and at least one fuel storage unit, wherein the closed type concentration unit is coupled with the anaerobic treatment unit, the anaerobic treatment unit is coupled with the sludge filter-pressing unit, the sludge filter-pressing unit is coupled with the drying unit, the drying unit is coupled with the carbonization unit, and the carbonization unit is coupled with the fuel storage unit.

The further technical scheme is that the thermal power generation module is provided with at least one fuel gas unit and at least one fuel unit, and the fuel unit is coupled with a fuel storage unit.

The further technical scheme is that the system also comprises at least one oxygen storage module, at least one hydrogen storage module and at least one methane storage module. The oxygen storage module, the hydrogen storage module and the methane storage module are arranged on the conveying module, the oxygen storage module, the hydrogen storage module and the methane storage module are in signal connection with the control module, the oxygen storage module and the methane storage module are coupled with the gas unit, the methane storage module is coupled with the anaerobic treatment unit, the oxygen storage module is coupled with the fuel unit, and the hydrogen storage module is coupled with the fuel cell module.

The fuel cell module is further provided with a waste heat output unit which is coupled with the anaerobic treatment unit, the drying unit and the carbonization unit.

The further technical scheme is that the device further comprises an electrolysis module, wherein the electrolysis module is arranged on the conveying module and is in signal connection with the control module, and the electrolysis module is coupled with the oxygen storage module and the hydrogen storage module.

The further technical scheme is that the first retractable power generation module is a solar power generator set or a wind power generator set.

The further technical scheme is that the second retractable power generation module is a solar power generator set or a wind power generator set.

The further technical proposal is that the conveying module is any one of a flat car body or a container car body.

The utility model has the advantages that:

the utility model relates to an energy-power cycle's green power plant integration framework, see through series connection solar energy, the fan, lithium cell energy memory, produce hydrogen/gas compression/hydrogen storage device, fuel cell, biomass energy system and the diversified energy conversion such as reserve thermal power plant, accumulate and energy memory, create stable power supply system with the configuration of retrenching, plan the higher industrialization promotion scheme of feasibility, create the economic value in novel attitude energy market altogether, drive national industry transformation strength, guide transportation, the industry of highly relying on the imported energy such as petrochemical industry oil refining progressively transforms, realize government mainstream policy, meet the clean new forms of energy way of zero carbon row.

The economic benefits of the scheme are as follows:

(1) promote a green energy solution to be clear: through market evaluation of various renewable energy devices and development modes of foreign green energy, through the force of government leaders and the assistance of relevant new energy device manufacturers, green energy power plants for civilian use are jointly constructed, and multiple winning situations such as economy, civilian use, environment and the like are created.

(2) Easy to assess construction costs: the devices participating in the scheme, such as 10 main components of a fan, solar energy, a lithium battery, a fuel cell, hydrogen production/compression/hydrogen storage, biomass energy, firepower, control of a power grid, module integration and the like, refer to the arrangement of the expenses of domestic and foreign related plans through optimizing the configuration proportion, consult the price, the efficiency, the service life, the maintenance cost and the like of the devices to related equipment suppliers practically, and finely evaluate the integrated development expense and the expense evaluation of large-scale national energy construction.

(3) The international trend is accurate: world energy is facing a shortage. Therefore, green energy is developing into the mainstream trend of the world.

(4) Optimizing the civil environment: troublesome nuclear waste disposal, international carbon tax system, environmental pollution, energy shortage and climate shift are expanding the impact of civil economy and gradually forming a major crisis. Therefore, the assembly system for zero-carbon-emission integrated novel energy power plant movement is promoted, the civil expectation is met, the production transformation can be driven, and the foundation is developed forever.

In recent years, the clean energy technology is continuously improved, the efficiency is continuously broken upwards, the manufacturing cost is rapidly reduced, and solar energy plates, fans, lithium batteries, low-temperature fuel batteries and biomass energy reconstruction devices (storage tanks and anaerobic fermentation tanks, biogas treatment and collection, dry-pressure water storage, liquid fertilizer manufacturing, mud cake drying and carbonization all have quite mature technical development, as for the long-term development in the future, the construction scheme injects cardiotonic needles into the industry to enable the market economy to rise again, talents are introduced to stimulate the research and development of kinetic energy, as for the evolution of natural resources, coal mines and petroleum can be regarded as earth resources after 6000 million-3 years of solar energy conversion, and uranium raw materials can also meet the unavailable ore resources, the utility model considers that renewable energy is invested, and an industrial development mode of green energy power plants is built, along with the promotion of activation of renewable energy industries by governments, the method can continuously show the associated positive benefits, such as industrial transformation, talent backflow, even attract international talents to enter, bring inexhaustible research and development energy, and lay a deep foundation for improving the process technology, amplifying the efficiency and reducing the production cost in the future. )

Drawings

Fig. 1 is a schematic view of an embodiment 1 of the present invention;

FIG. 2 is a schematic view of the assembly system of the zero carbon integration type novel energy power plant of the present invention;

fig. 3 is a schematic view of the transportation of the present invention.

In the figure: 10-a transport module;

11-a control module;

12-a fuel production module; 120-closed type centralized unit, 121-anaerobic treatment unit, 122-sludge pressure filtration unit, 123-drying unit, 124-fuel storage unit and 125-carbonization unit;

13-thermal power generation module; 130-gas unit, 131-fuel unit;

14-an oxygen storage module;

15-a hydrogen storage module;

16-a biogas storage module;

17-a fuel cell module; 170-waste heat output unit;

18-an electrical energy storage module;

20-an electrolysis module;

21-a first retractable power generation module;

22-a second retractable power generation module;

a-home unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention are clearly and completely described below, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, the assembly system for zero carbon emission integrated novel energy power plant of the present invention includes a transportation module 10, a control module 11, a fuel production module 12, a thermal power generation module 13, an oxygen storage module 14, a hydrogen storage module 15, a methane storage module 16, a fuel cell module 17, an electric energy storage module 18, an electrolysis module 20, a first retractable power generation module 21, and a second retractable power generation module 22.

The transport module 10 may be a flatbed or van or other vehicle.

The control module 11 is provided on the transport module 10. The fuel production module 12 is in signal connection with the control module 11. The fuel preparation module 12 includes a closed type concentration unit 120, an anaerobic treatment unit 121, a sludge press filtration unit 122, a drying unit 123, a carbonization unit 125, and a fuel storage unit 124. The closed type concentration unit 120 is coupled with an anaerobic treatment unit 121, the anaerobic treatment unit 121 is coupled with a sludge filter-pressing unit 122, the sludge filter-pressing unit 122 is coupled with a drying unit 123, the drying unit 123 is coupled with a carbonization unit 125, and the carbonization unit 125 is coupled with a fuel storage unit 124.

The thermal power generation module 13 is provided on the transport module 10. The thermal power generation module is in signal connection with the control module 11. The thermal power generation module 13 is coupled to the fuel storage unit 124, and the thermal power generation module 13 burns regenerative fuel, oxygen or hydrogen to generate electric energy. The thermal power generation module 13 includes a gas unit 130 and a fuel unit 131. The fuel unit 131 is coupled to the fuel storage unit 124 for combusting the regenerated fuel to generate electric energy. The thermal power generation module can be divided into coal-fired power generation and gas-fired power generation.

The oxygen storage module 14, the hydrogen storage module 15 and the biogas storage module 16 are disposed on the delivery module 10. The oxygen storage module 14 is connected to the control module 11 by signals. The hydrogen storage module 14 is connected to the control module 11 by signals. The oxygen storage module 14 and the biogas storage module 16 are both coupled to the gas unit 130 of the thermal power generation module 13 to provide biogas to the gas unit 130, so that the gas unit 130 burns the biogas and generates electric energy. The biogas storage module 16 is coupled to the anaerobic treatment unit 121 to store biogas from the anaerobic treatment unit 121. The oxygen storage module 14 is further coupled to the fuel unit 131 to provide oxygen to the fuel unit 131 for burning biomass coal and for use in generating electrical energy.

The fuel cell module 17 is provided on the delivery module 10. The fuel cell module 17 is connected with the control module 11 by signals. The fuel cell module 17 is coupled to the hydrogen storage module 15. The hydrogen storage module 15 provides hydrogen to the fuel cell module 17, so that the fuel cell module 17 generates electric energy. The fuel cell module 17 has a waste heat output unit 170. The waste heat output unit 170 is coupled to the home unit a, the anaerobic treatment unit 121, the drying unit 123, and the carbonization unit 125.

An electrical energy storage module 18 is provided on the transport module 10. The electric energy storage module 18 is in signal connection with the control module 11. The electric energy storage module 18 couples the fuel cell module 17 and the thermal power generation module 13 to store electric energy from the fuel cell module 17 and the thermal power generation module 13.

The electrolysis module 20 is provided on the transport module 10. The electrolysis module 20 is connected with the control module 11 by signals. The electrolysis module 20 couples the oxygen storage module 14 and the hydrogen storage module 15. The electrolysis module 20 is further coupled to a water supply unit (not shown). The electrolysis module 20 is coupled to the electrical energy storage module 18.

The first retractable power generation module 21 is provided on the transport module 10. The first retractable power generation module 21 is coupled to the electrical energy storage module 18. The first retractable power generation module 21 may be a solar power generator set or a wind power generator set.

The second retractable power generation module 22 may be a solar power generator set or a wind power generator set. The second retractable power generation module 22 is coupled to the electrical energy storage module 18. The second retractable power generation module 22 is provided to the transport module 10. If the transportation module 10 is a vehicle body structure, the first and second retractable power generation modules 21 and 22 may be disposed on two opposite sides or two opposite ends of the vehicle body structure.

Referring to fig. 1 again, the assembly system that the transportation module 10 can move the zero carbon emission integrated new energy power plant of the present invention to a set place, such as a country, an animal farm, a farm, an industrial factory building, a small-sized community, a large-sized community, an independent house or an all-meeting area.

If the sunlight is sufficient in the installation site, the first and second retractable power generation modules 21 and 22 are solar power generation units.

If the wind power is stable at the installation site, the first and second retractable power generation modules 21 and 22 are wind turbine generators.

If the wind power of the installation site is equivalent to the sunshine, the first retractable power generation module 21 may be a solar power generation unit, and the second retractable power generation module 22 may be a wind power generation unit. Or the first and second foldable power generation modules 21 and 22 may be a hybrid of a wind power generation set and a solar power generation set.

In the present embodiment, the first retractable power generation module 21 is first used as a solar power generation unit, and the second retractable power generation module 22 is used as a wind power generation unit.

Will when transport module 10 the utility model discloses the equipment system that the novel energy power plant of integration type removed transports to setting up the place after, and first can receive formula power generation module 21 and the setting of can launching for transport module 10 of second can receive formula power generation module 22, or do not set up. If the first and second retractable power generation modules 21 and 22 are deployed, the first and second retractable power generation modules 21 and 22 generate electric energy according to sunlight and wind power, and provide the electric energy to the electric energy storage module 18 for storage.

The electrical energy storage module 18 is further coupled to a set-up location to provide electrical energy for use at the set-up location. And a voltage/current converter and a transformer can be arranged in the coupling line to convert the direct current into the alternating current and increase or decrease the voltage.

The closed type concentration unit 120 is coupled to a set-up site, and may be used as a discharge port or a collection point of biomass-convertible waste, so as to store the biomass-convertible waste, such as household waste water, kitchen waste, animal waste, agricultural waste, or food processing residue, from the set-up site.

The control module 11 enables the closed type concentration unit 120 to provide the stored waste which can be used for biomass energy conversion to the anaerobic treatment unit 121, so that the anaerobic treatment unit 121 generates biogas. The control module 11 causes the anaerobic treatment unit 121 to provide biogas to the biogas storage module 16 so that the biogas storage module 16 stores the biogas.

The control module 11 further enables the anaerobic treatment unit 121 to provide the residue after biogas generation to the sludge press filtration unit 122, so that the sludge press filtration unit 122 filters the residue and generates a mud cake and liquid fertilizer.

The control module 11 causes the sludge press unit 122 to supply the sludge cake to the drying unit 123 so that the drying unit 123 dries the sludge cake. After drying the cake is carbonized by the carbonizing unit 125. The carbonized sludge cake is stored by the fuel storage unit 124. The carbonized mud cake is carbonized biomass coal. The heat energy required for the carbonization unit 125 to carbonize the cake is provided by the waste heat output unit 170.

The control module 11 uses the thermal power generation module 13, the fuel cell module 17, the first retractable power generation module 21, or the second retractable power generation module 22 depending on the actual situation; or the use of the thermal power generation module 13, the fuel cell module 17, the first retractable power generation module 21, or the second retractable power generation module 22 is stopped.

For example, when the wind or the sunshine of the external environment is insufficient for the first or second retractable power generation module 21 or 22 to generate electric power, the control module 1 may generate electric power using the thermal power generation module 13 or the fuel cell module 17.

If the fuel cell module 17 is used to generate electric power. Control module 11 causes electrical energy storage module 18 to provide electrical energy to electrolysis module 20. The control module 11 causes the electrolysis module 20 to begin electrolyzing water to produce hydrogen gas and oxygen gas, the hydrogen gas being stored by the hydrogen storage module 15. The oxygen is stored by the oxygen storage module 14.

The control module 11 causes the hydrogen storage module 15 to provide hydrogen to the fuel cell module 17 to cause the fuel cell module 17 to generate electrical energy. The control module 11 then causes the control module 11 to provide the generated electrical energy to the electrical energy storage module 18 for storage or subsequent use by the electrical energy storage module 18.

Waste heat generated by the fuel cell module 17 in the process of generating electric power is provided to a setting place by the waste heat output unit 170 for warming; or to the anaerobic treatment unit 121 for supplying heat energy required for biogas generation; or to the drying unit 123, to dry the cake is the required heat energy.

If the control module 11 uses the thermal power generation module 13 to generate electric energy, the control module 11 can select one of the gas unit 130 and the fuel unit 131 to generate electric energy, or the gas unit 130 and the fuel unit 131 generate electric energy at the same time.

If the control module 11 enables the gas unit 130 and the fuel unit 131 to generate electric energy at the same time, the control module 11 enables the oxygen storage module 14 to provide oxygen to the gas unit 130, and the methane storage module 16 to provide methane to the gas unit 130, but the gas unit 130 is combusted to generate electric energy. The control module 11 causes the fuel storage unit 124 to provide biomass coal to the fuel unit 131, and the control module 11 causes the oxygen storage module 14 to provide oxygen to the fuel unit 131 for the fuel unit 131 to combust to generate electrical energy.

The electrical energy generated by the thermal power generation module 13 is provided to the electrical energy storage module 18 for storage or subsequent use by the electrical energy storage module 18.

In summary, the utility model discloses an assembly system that zero carbon row integrated type novel energy power plant removed does single use or links a plurality of uses. If the device is used only in a single mode, namely the setting place is a rural place, an animal farm, a small community or an independent house, less electric energy is needed.

If the electric energy demand is great, like industrial factory building, large-scale district or meeting area all, then can link simultaneously or set up one the utility model discloses a system for use.

Furthermore, the first and second retractable power generation modules 21 and 22 may be one or a combination of a solar power generation unit and a wind power generation unit, which is determined according to the wind power and the sunshine of the installation location, so that the present invention has a great installation flexibility.

Further, the fuel cell module 17 generates electric power using hydrogen gas from the electrolyzed water, and thus complies with the green power regulation.

Secondly, the thermal power generation module 13 burns oxygen, biogas and biomass coal to generate electric energy, the biogas and the biomass coal are generated by wastes which can be used for biomass energy conversion, and the oxygen comes from electrolyzed water, so that the regulation of green electric energy is also met.

As mentioned above, the utility model discloses a zero carbon row integrated novel energy power plant removes assembly system, its fuel that uses come from water and the discarded object that can be used to biomass energy conversion, so accord with the regulation of green electric energy. And the utility model discloses can be according to the demand that sets up the place, mobility adjustment the utility model discloses a set up quantity, it can be set up to a plurality of settings by the singleness.

The first and second retractable power generation modules 21 and 22 of the present invention can be stored in the transportation module 10, so that the first and second retractable power generation modules 21 and 22 are selective power generation units. The ratio of the first retractable power generation module 21 to the second retractable power generation module 22 can be adjusted flexibly according to the wind power and the sunshine of the installation site.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. The utility model provides an equipment system that zero carbon row integrated novel energy power plant removed, its characterized in that includes:

at least one fuel production module;

the thermal power generation module is coupled with the fuel manufacturing module;

at least one fuel cell module;

at least one first retractable power generation module;

at least one second retractable power generation module;

the fuel cell module is coupled with the first retractable power generation module, and the first retractable power generation module is coupled with the second retractable power generation module;

the control module is in signal connection with the fuel manufacturing module, the thermal power generation module, the fuel cell module and the electric energy storage module;

and the conveying module is used for installing and transporting the fuel manufacturing module, the thermal power generation module, the fuel cell module, the first retractable power generation module, the second retractable power generation module, the electric energy storage module and the control module.

2. The assembly system of zero-carbon-emission integrated novel energy plant mobile of claim 1, wherein the fuel production module comprises at least one closed type concentration unit, at least one anaerobic treatment unit, at least one sludge filter-pressing unit, at least one drying unit, at least one carbonization unit, and at least one fuel storage unit, wherein the closed type concentration unit is coupled to the anaerobic treatment unit, the anaerobic treatment unit is coupled to the sludge filter-pressing unit, the sludge filter-pressing unit is coupled to the drying unit, the drying unit is coupled to the carbonization unit, and the carbonization unit is coupled to the fuel storage unit.

3. The zero carbon emission integrated new energy plant mobile assembly system of claim 2, wherein the thermal power module has at least one gas unit and at least one fuel unit, the fuel unit coupled to a fuel storage unit.

4. The assembly system of zero carbon emission integrated novel energy plant mobile of claim 3, further comprising at least one oxygen storage module, at least one hydrogen storage module and at least one biogas storage module, wherein the oxygen storage module, the hydrogen storage module and the biogas storage module are mounted on the transportation module, the oxygen storage module, the hydrogen storage module and the biogas storage module are all connected with the control module via signals, the oxygen storage module and the biogas storage module are all coupled with the gas unit, the biogas storage module is coupled with the anaerobic treatment unit, the oxygen storage module is coupled with the fuel unit, and the hydrogen storage module is coupled with the fuel cell module.

5. The zero carbon emission integrated novel energy plant mobile assembly system of claim 2, wherein the fuel cell module has a waste heat output unit coupled to the anaerobic treatment unit, the drying unit and the carbonization unit.

6. The assembly system of claim 4, further comprising an electrolysis module, wherein the electrolysis module is mounted to the transportation module, and wherein the electrolysis module is in signal communication with the control module, and wherein the electrolysis module is coupled to the oxygen storage module and the hydrogen storage module.

7. The zero carbon emission integrated new energy plant mobile assembly system of claim 1, wherein the first retractable power generation module is a solar power generation unit or a wind power generation unit.

8. The zero carbon emission integrated new energy plant mobile assembly system of claim 1, wherein the second retractable power generation module is a solar power generation unit or a wind power generation unit.

9. The zero carbon emission integrated novel energy plant mobile assembly system according to claim 1, wherein the transportation module is any one of a flat car body or a container car body.

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