CN114247270A

CN114247270A - Carbon dioxide circulating electric adsorption capturing and sealing system

Info

Publication number: CN114247270A
Application number: CN202111525715.5A
Authority: CN
Inventors: 徐越; 黄斌; 赵亮; 马汀山
Original assignee: China Huaneng Group Co Ltd; Xian Thermal Power Research Institute Co Ltd
Current assignee: China Huaneng Group Co Ltd; Xian Thermal Power Research Institute Co Ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-03-29

Abstract

The invention discloses a carbon dioxide cyclic electric adsorption capturing and sealing system, wherein the output end of a wind power generation system is connected with the input end of an AC-DC converter, the output end of a solar power generation system is connected with the input end of a filtering voltage stabilizing circuit through an electric energy collecting module, the output end of the AC-DC converter is connected with the output end of the filtering voltage stabilizing circuit in parallel and then is connected with the input end of a switching device through a voltage and current detection circuit, the output end of the switching device is connected with a power interface of the electric adsorption carbon dioxide capturing system, the input end of the DC-AC converter and an electric energy storage unit, and the output end of the DC-AC converter is connected with a power grid; the controller is connected with the switching device and the voltage and current detection circuit, and the system can collect carbon dioxide in air by using abandoned electricity in the solar power generation and wind power generation processes.

Description

Carbon dioxide circulating electric adsorption capturing and sealing system

Technical Field

The invention belongs to the field of energy conservation and environmental protection, and relates to a carbon dioxide cyclic electro-adsorption capturing and sealing system.

Background

Solar energy and wind energy are used as the most extensive and largest renewable energy sources on the earth, and the utilization of the solar energy and the wind energy for power generation gradually becomes the consensus of people, the existing solar energy and wind energy power generation is mainly used for outward delivery, certain consumption can be generated in the outward delivery process, meanwhile, because solar energy and wind energy have instability and the fluctuation of the generated electric energy is large, the phenomenon of electricity abandonment often occurs, and as the industrialization progresses deeply, the concentration of carbon dioxide in the air increases year by year, and how to collect or reduce the carbon dioxide in the air becomes an important target of each industry, based on the two important problems, how to combine the solar energy and the wind power generation and collect the carbon dioxide in the air by utilizing the abandoned electricity in the solar energy power generation and the wind power generation processes can effectively improve the utilization rate of new energy, while reducing the carbon dioxide concentration in the air, no similar disclosures are given in the prior art.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a carbon dioxide cyclic electro-adsorption capturing and sealing system which can collect carbon dioxide in air by utilizing abandoned electricity in the solar power generation and wind power generation processes.

In order to achieve the aim, the carbon dioxide cyclic electric adsorption capturing and sealing system comprises a control system, a wind power generation system, an AC-DC converter, a voltage and current detection circuit, a solar power generation system, an electric energy collection module, a filtering and voltage stabilizing circuit, a switching device, an electric energy storage unit, a DC-AC converter, a power grid and an electric adsorption carbon dioxide capturing system;

the output end of the wind power generation system is connected with the input end of the AC-DC converter, the output end of the solar power generation system is connected with the input end of the filtering and voltage stabilizing circuit through the electric energy collecting module, the output end of the AC-DC converter is connected with the output end of the filtering and voltage stabilizing circuit in parallel and then connected with the input end of the switching device through the voltage and current detection circuit, the output end of the switching device is connected with a power interface of the electro-adsorption carbon dioxide capture system, the input end of the DC-AC converter and the electric energy storage unit, and the output end of the DC-AC converter is connected with a power grid;

the controller is connected with the switching device and the voltage and current detection circuit.

The electro-adsorption carbon dioxide capture system comprises a shell, an air pump, a conveying pipeline, a geological storage system, a purification system and a storage system;

the device comprises a shell, a plurality of geological storage systems and a plurality of geological storage systems, wherein the geological storage systems are arranged in the shell, a power supply interface, an air inlet and an air outlet are arranged on the outer wall of the shell, the power supply interface is connected with a switching device and the carbon dioxide storage systems, the air outlet is communicated with an inlet of an air extracting pump, an inlet of a conveying pipeline and an inlet of a purifying system, an outlet of the purifying system is communicated with the geological storage systems, and an outlet of the conveying pipeline is communicated with the geological storage systems;

the storage system comprises a liquefaction system and a carbon dioxide storage tank; the outlet of the purification system is communicated with the inlet of the liquefaction system, and the outlet of the liquefaction system is communicated with the carbon dioxide storage tank.

The storage system comprises a carbon dioxide high-pressure storage tank, wherein an outlet of the purification system is communicated with an inlet of the carbon dioxide high-pressure storage tank.

The air inlet is provided with a first valve.

And a second valve is arranged on the conveying pipeline.

And a third valve is arranged at the inlet of the purification system.

And a fourth valve is arranged at the inlet of the air pump.

Each carbon dioxide electric adsorption plate is of a wave-shaped structure and is distributed in parallel and at equal intervals.

Each carbon dioxide electric adsorption plate is provided with a carbon dioxide capturing fin.

The invention has the following beneficial effects:

when the carbon dioxide cyclic electric adsorption capturing and storing system is in specific operation, the control system calculates the electric power at the input end of the switching device according to the data detected by the voltage and current detection circuit, when the electric power at the input end of the switching device is more than or equal to the preset electric power, the direct current is transmitted to the power grid through the DC-AC converter through the switching device so as to meet the load requirement of the power grid, meanwhile, when surplus electric energy exists on the premise of meeting the load requirement of the power grid, the surplus electric energy is stored in the electric energy storage unit, when the electric power at the input end of the switching device is less than the preset electric power, namely, the phenomenon of electricity abandoning can exist, the surplus direct current is input into the electric adsorption carbon dioxide capturing system, the carbon dioxide in the air is adsorbed by the electric adsorption carbon dioxide capturing system, so that the purpose of collecting the carbon dioxide in the air by utilizing the electricity abandoning in the solar power generation and wind power generation processes is realized, simple structure, convenient operation and strong practicability.

Drawings

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic diagram of the configuration of the electro-adsorption carbon dioxide capture system 12 of the present invention.

The system comprises a wind power generation system 1, an AC-DC converter 2, a voltage and current detection circuit 3, a solar power generation system 4, an electric energy collection module 5, a filtering and voltage stabilizing circuit 6, a switching device 7, an electric energy storage unit 8, an air pump 9, a DC-AC converter 10, a power grid 11, an electric adsorption carbon dioxide capture system 12, a conveying pipeline 13, a purification system 14, a liquefaction system 15, a carbon dioxide storage tank 16, a first valve 17, a second valve 18, a third valve 19 and a fourth valve 20.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments, and are not intended to limit the scope of the present disclosure. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

There is shown in the drawings a schematic block diagram of a disclosed embodiment in accordance with the invention. The figures are not drawn to scale, wherein certain details are exaggerated and possibly omitted for clarity of presentation. The shapes of various regions, layers and their relative sizes and positional relationships shown in the drawings are merely exemplary, and deviations may occur in practice due to manufacturing tolerances or technical limitations, and a person skilled in the art may additionally design regions/layers having different shapes, sizes, relative positions, according to actual needs.

Referring to fig. 1 and 2, the carbon dioxide cyclic electro-adsorption capturing and sealing system according to the present invention includes a control system, a wind power generation system 1, an AC-DC converter 2, a voltage and current detection circuit 3, a solar power generation system 4, an electric energy collection module 5, a filtering and voltage stabilizing circuit 6, a switching device 7, an electric energy storage unit 8, a DC-AC converter 10, a power grid 11, and an electro-adsorption carbon dioxide capturing system 12;

the output end of the wind power generation system 1 is connected with the input end of the AC-DC converter 2, the output end of the solar power generation system 4 is connected with the input end of the filtering voltage stabilizing circuit 6 through the electric energy collecting module 5, the output end of the AC-DC converter 2 is connected with the output end of the filtering voltage stabilizing circuit 6 in parallel and then connected with the input end of the switching device 7 through the voltage and current detection circuit 3, the output end of the switching device 7 is connected with a power supply interface of the electro-adsorption carbon dioxide capture system 12, the input end of the DC-AC converter 10 and the electric energy storage unit 8, and the output end of the DC-AC converter 10 is connected with the power grid 11.

The electro-adsorption carbon dioxide capture system 12 comprises a shell, an air pump 9, a conveying pipeline 13, a geological storage system, a purification system 14, a liquefaction system 15 and a carbon dioxide storage tank 16;

a plurality of carbon dioxide collecting plates are arranged in the shell, wherein a power supply interface, an air inlet and an air outlet are arranged on the outer wall of the shell, the power supply interface is connected with each carbon dioxide collecting plate, a first valve 17 is arranged at the air inlet, the air outlet is communicated with the inlet of the air pump 9, the inlet of the conveying pipeline 13 and the inlet of the purification system 14, the outlet of the purification system 14 is communicated with the inlet of the liquefaction system 15, the outlet of the liquefaction system 15 is communicated with the carbon dioxide storage tank 16, and the outlet of the conveying pipeline 13 is communicated with the geological storage system;

the delivery pipe 13 is provided with a second valve 18, the inlet of the purification system 14 is provided with a third valve 19, and the inlet of the air pump 9 is provided with a fourth valve 20.

Each carbon dioxide electric adsorption plate is of a wave-shaped structure, carbon dioxide collecting fins are arranged on each carbon dioxide electric adsorption plate, and the carbon dioxide electric adsorption plates are parallel and distributed at equal intervals.

The working principle of the invention is as follows:

alternating current output by the wind power generation system 1 is converted into direct current through the AC-DC converter 2, electricity output by the solar power generation system 4 is collected through the electric energy collection module 5, then the filtering and voltage stabilizing circuit 6 performs filtering and voltage stabilizing, the direct current output by the filtering and voltage stabilizing circuit 6 and the direct current output by the AC-DC converter 2 are converged and then subjected to voltage and current detection through the voltage and current detection circuit 3, and then the alternating current enters the switching device 7;

the controller detects a voltage current signal at the input end of the switching device 7 through the voltage current detection circuit 3, calculates electric power according to the voltage current signal, and controls the switching device 7 to convert direct current into alternating current through the DC-AC converter 10 and transmit the alternating current to the power grid 11 when the electric power at the input end of the switching device 7 is larger than or equal to preset electric power; when surplus electric energy exists on the premise of meeting the internet load by the sum of the electricity output by the wind power generation system 1 and the electric energy output by the solar power generation system 4, the surplus electric energy is stored in the electric energy storage unit 8; when the electric power at the input end of the switching device 7 is smaller than the preset electric power, the controller controls the switching device 7 to switch the direct current to the electric adsorption carbon dioxide trapping system 12, and at the same time, the first valve 17 and the fourth valve 20 are opened, air is sucked into the shell through the air suction pump 9, and carbon dioxide in the air is adsorbed through the carbon dioxide electric adsorption plate and the carbon dioxide trapping fins in the shell; after the carbon dioxide electro-adsorption plate and the carbon dioxide trapping fin are adsorbed for a preset time cumulatively, the air pump 9 and the first valve 17 are closed, the third valve 19 is opened preferentially, the current reversely flows through the carbon dioxide electric adsorption plate and the carbon dioxide capturing fin by the switching device 7, so that the carbon dioxide adsorbed by the carbon dioxide electric adsorption plate and the carbon dioxide capturing fin is released, the carbon dioxide released by the carbon dioxide electric adsorption plate and the carbon dioxide capturing fin is purified by the purification system 14, and then is liquefied by the liquefaction system 15 and enters the carbon dioxide storage tank 16 for storage, when the liquid level height in the carbon dioxide storage tank 16 is more than or equal to the preset liquid level height, closing the third valve 19 and opening the second valve 18, so that the carbon dioxide released by the carbon dioxide electric adsorption plate and the carbon dioxide capturing fin enters the geological storage system through the conveying pipeline 13 and is stored underground;

in addition, during actual operation, during a power consumption peak period, the electric energy stored in the electric energy storage unit 8 can be converted into alternating current through the DC-AC converter 10 and then the network is connected to meet the load of the power grid 11, and in addition, when the electric energy output by the wind power generation system 1 and the solar power generation system 4 cannot meet the normal production operation of the carbon dioxide capture system 12, the electric energy stored in the electric energy storage unit 8 is supplied to the carbon dioxide capture system 12, so that when the system is in the normal production operation, the load demand of the power grid 11 during the power consumption peak period needs to be met preferentially during the operation.

In addition, the liquefaction system 15 and the carbon dioxide storage tank 16 in the present invention may be replaced with a carbon dioxide high-pressure storage tank, and carbon dioxide may be stored in the carbon dioxide high-pressure storage tank as a gas.

It should be noted that, compared with the prior art, the invention has the following advantages:

1) when the power generation power is low, collecting carbon dioxide in the air by using low electric energy; when the power generation power is high, the internet can be accessed, so that the energy utilization rate is improved;

2) the storage of electric energy can be carried out while the internet load is met, and the storage mode comprises but is not limited to a storage battery;

3) the carbon dioxide is used in two ways, one is liquefied, stored and delivered after being purified, and the other is directly sealed underground;

4) automatic detection, automatic switching, automatic control and full-automatic control operation are realized, and personnel field management is not needed;

5) the cross section of the carbon dioxide collecting plate is of a wave-shaped structure, the contact area is large, the collecting efficiency is high, and meanwhile, the air extracting pump 9 is arranged, so that the air circulation is increased, and the concentration of carbon dioxide in the shell is improved;

6) the invention can realize the collection of carbon dioxide in the air, has great significance for realizing carbon neutralization, can realize carbon transaction and has better economic value.

Claims

1. A carbon dioxide cyclic electric adsorption capturing and sealing system is characterized by comprising a control system, a wind power generation system (1), an AC-DC converter (2), a voltage and current detection circuit (3), a solar power generation system (4), an electric energy collection module (5), a filtering and voltage stabilizing circuit (6), a switching device (7), an electric energy storage unit (8), a DC-AC converter (10), a power grid (11) and an electric adsorption carbon dioxide capturing system (12);

the output end of the wind power generation system (1) is connected with the input end of the AC-DC converter (2), the output end of the solar power generation system (4) is connected with the input end of the filtering and voltage stabilizing circuit (6) through the electric energy collecting module (5), the output end of the AC-DC converter (2) is connected with the output end of the filtering and voltage stabilizing circuit (6) in parallel and then is connected with the input end of the switching device (7) through the voltage and current detection circuit (3), the output end of the switching device (7) is connected with a power supply interface of the electro-adsorption carbon dioxide trapping system (12), the input end of the DC-AC converter (10) and the electric energy storage unit (8), and the output end of the DC-AC converter (10) is connected with the power grid (11);

the controller is connected with the switching device (7) and the voltage and current detection circuit (3).

2. The carbon dioxide cyclic electrosorption capture and sequestration system according to claim 1, characterized in that the electrosorption carbon dioxide capture system (12) comprises a housing, a suction pump (9), a delivery conduit (13), a geological sequestration system, a purification system (14) and a storage system, wherein a plurality of carbon dioxide capture plates are arranged in the housing, wherein a power interface, an air inlet and an air outlet are arranged on the outer wall of the housing, wherein the power interface is connected with the switching device (7) and each carbon dioxide capture plate, the air outlet is communicated with the inlet of the suction pump (9), the inlet of the delivery conduit (13) and the inlet of the purification system (14), the outlet of the purification system (14) is communicated with the storage system, and the outlet of the delivery conduit (13) is communicated with the geological sequestration system.

3. The carbon dioxide cyclic electro-absorption capture and sequestration system according to claim 1, wherein the storage system comprises a liquefaction system (15) and a carbon dioxide storage tank (16); wherein the outlet of the purification system (14) is communicated with the inlet of a liquefaction system (15), and the outlet of the liquefaction system (15) is communicated with a carbon dioxide storage tank (16).

4. The carbon dioxide cyclic electro-absorption capture and sequestration system according to claim 1, wherein the storage system comprises a high-pressure storage tank for carbon dioxide, wherein the outlet of the purification system (14) is in communication with the inlet of the high-pressure storage tank for carbon dioxide.

5. A carbon dioxide cyclic electro-adsorption capture and sequestration system according to claim 2, characterized in that a first valve (17) is provided at the air inlet.

6. A carbon dioxide cyclic electro-adsorption capture and sequestration system according to claim 5, characterized in that a second valve (18) is provided on the transfer conduit (13).

7. The carbon dioxide cyclic electro-adsorption capture and sequestration system according to claim 6, characterized in that a third valve (19) is provided at the inlet of the purification system (14).

8. The carbon dioxide cyclic electro-adsorption capture and sequestration system according to claim 7, characterized in that a fourth valve (20) is provided at the inlet of the suction pump (9).

9. The carbon dioxide cyclic electro-absorption capture and sequestration system according to claim 2, wherein each carbon dioxide electro-absorption plate is of a wave-shaped structure, and each carbon dioxide electro-absorption plate is distributed in parallel and at equal intervals.

10. The carbon dioxide cyclic electro-absorption capture and sequestration system of claim 2, wherein each carbon dioxide electro-absorption plate is provided with carbon dioxide capture fins.