Microorganism-photoelectrochemistry-thermoelectrochemistry coupling hydrogen production system

A photoelectrochemical and thermoelectrochemical technology, applied in the electrolysis process, electrolysis components, cells, etc., can solve the problems of low utilization rate of light energy conversion, anode deactivation, inhibition of anode biofilm activity, etc.

Active Publication Date: 2021-09-14
SICHUAN UNIV
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Problems solved by technology

However, in the prior art, photoelectrodes can only use high-energy sunlight to excite carriers to maintain the electrode reaction. Most of the light energy is converted into heat in the form of photothermal on the electrode surface and enters the electrolyte, and then radiates to the environment. In the current technology, the light energy conversion utilization rate of the system is low
In addition, since most of the solar energy is converted into heat on th...

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  • Microorganism-photoelectrochemistry-thermoelectrochemistry coupling hydrogen production system

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Embodiment Construction

[0023] The specific technical solutions of the present invention will be described in connection with the examples.

[0024] like figure 1 As shown, the microbial-photochemical-thermochemical coupling hydrogen hydrogen hydrophilic chemical coupling system of the present invention includes a microbial anode 1, a photovoltaic pole 4, a heat chemical cell. The thermochemical cell and the microbial anode 1 are separated from ion exchange membranes 8, and the microbial anode 1 and the optical cathode 4 are connected to the external circuitry and apparatus via a wire.

[0025] The system photocathode 4 side uses a transparent quartz glass and other materials such that the sunlight can be effectively irradiated to the surface of the electrode; the photocathode 4 is connected to the thermochemical battery anode 3, so that the photocathode 4 heat is efficiently transmitted to the heat chemical cell. Anode 3.

[0026] There is an anode electrolyte 6 in the microbial anode 1, and there is a ...

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Abstract

The invention provides a microorganism-photoelectrochemistry-thermoelectrochemistry coupling hydrogen production system. The system comprises a microbial anode, a photocathode and a thermochemical battery; the thermochemical battery is located between the microbial anode and the photocathode, and ion exchange membranes are arranged between the cathode of the thermochemical battery and the microbial anode and between the anode of the thermochemical battery and the photocathode; the photocathode is connected with the anode of the thermochemical battery through an insulating heat-conducting material, so that the heat of the photocathode is effectively transferred to the anode of the thermochemical battery; the microbial anode and the photocathode are connected to an external circuit and equipment through wires; and the anode and the cathode of the thermochemical battery are directly connected through an external circuit to form an internal loop and a formed voltage drop. The thermochemical cell is coupled into the near microorganism-photoelectrocatalysis system, so that on one hand, the solar energy conversion and utilization efficiency of the system is improved; and meanwhile, the influence of photo-thermal on the microbial anode is reduced.

Description

Technical field [0001] The present invention belongs to the novel energy source technology, and specific relates to microbial-photochemical-thermochemical coupling hydrogen production systems. Background technique [0002] The energy and environment is two major problems facing the world's sustainable development. Energy issues and environmental problems have an interaction, and a large amount of fossil energy has produced severe air and water pollution, and on the other hand, it also leads to a shortage of supply. Develop renewable energy technology has important actual value for energy shortage and environmental pollution. Microbial - Photoelectric Chemical Technology has received wide concern at home and abroad in recent years, which can simultaneously degrade degradation of organic matter in sewage and achieve hydrogen energy generation. During the system operation, the photocathode produces carriers (electrons and holes) under solar light irradiation, producing electrons to ...

Claims

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Application Information

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IPC IPC(8): C25B1/04C25B1/55C25B9/65C25B9/67C25B15/027
CPCC25B1/04C25B1/55C25B9/65C25B9/67C25B15/027Y02P20/133Y02E60/36
Inventor 杨伟唐继国鲍静静孙立成莫征宇杜敏刘洪涛可汗
Owner SICHUAN UNIV
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