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Direct methane dry reforming power generation method based on symmetrical double-cathode structure solid oxide fuel cell

A dry reforming technology of solid oxide and methane, which is applied in the direction of fuel cells, battery electrodes, structural parts, etc., can solve the problems of reduced battery performance and life, difficulty in achieving internal reforming, loss of anode active area, etc., to increase flow speed, relieve internal thermal stress, and prevent battery rupture

Inactive Publication Date: 2021-06-18
NINGBO INST OF MATERIALS TECH & ENG CHINESE ACADEMY OF SCI
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the problem of carbon deposition on the Ni-YSZ anode often occurs, and the carbon deposition on the anode will not only cause the loss of the active area of ​​the anode, but also reduce the performance and life of the battery
In addition, another problem is the thermal stress caused by the uneven temperature distribution on the SOFC, because the methane dry reforming reaction in the internal reforming process is an endothermic reaction with an increase in volume, and its endothermic intensity is very large, and the endothermic dry The reforming reaction is much faster than the exothermic electrochemical process, which causes large thermal stress inside the anode, making it difficult to achieve 100% internal reforming

Method used

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  • Direct methane dry reforming power generation method based on symmetrical double-cathode structure solid oxide fuel cell
  • Direct methane dry reforming power generation method based on symmetrical double-cathode structure solid oxide fuel cell
  • Direct methane dry reforming power generation method based on symmetrical double-cathode structure solid oxide fuel cell

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Embodiment 1

[0033] In this example, if figure 1 As shown, the solid oxide fuel cell uses the anode layer 1 as the supporting electrode layer, and the electrolyte layer and the cathode layer are stacked up and down along the thickness direction. The electrolyte layer includes a first electrolyte layer 21 and a second electrolyte layer 22, and the first electrolyte layer is located on the anode layer. The lower surface of the anode, the second electrolyte layer is located on the upper surface of the anode; the barrier layer includes a first barrier layer 31 and a second barrier layer 32, the first barrier layer is located on the lower surface of the first electrolyte layer, and the second barrier layer is located on the second electrolyte layer The upper surface of the layer; the cathode layer includes a first cathode layer 41 and a second cathode layer 42, the first cathode layer is located on the lower surface of the first barrier layer, and the second cathode layer is located on the upper...

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Abstract

The invention provides a direct methane dry reforming power generation method based on a symmetric double-cathode structure solid oxide fuel cell. The cell takes an anode layer as a supporting electrode layer, and an electrolyte layer and a cathode layer are stacked up and down along the thickness direction to form a symmetric structure; the cell is heated by a heating unit, so that the temperature of the cell is more than 650 DEG C in the operation process of the cell, a mixed gas of carbon dioxide and methane is introduced into a pore channel of the anode layer, and air is introduced into the cathode layer, so that methane dry reforming can be directly carried out in the cell, and direct and efficient utilization of methane in the solid oxide fuel cell is realized; and the method has the advantages of simple and easily-controlled operation conditions, low cost, safety, high efficiency and good reaction selectivity.

Description

technical field [0001] The invention belongs to the field of electrochemical technology and high-temperature solid oxide fuel cells, and specifically relates to a direct methane dry reforming power generation method based on a symmetrical double-cathode structure solid oxide fuel cell. Background technique [0002] Since the industrial revolution, global energy consumption has shown a rising trend. Environmental pollution and global climate change have aroused widespread concern. Governments around the world have focused on finding new clean energy and developing clean and efficient solutions for existing energy. Support, and the fuel cell stands out among many solutions because of its reaction process without combustion, not limited by the Carnot cycle, and high energy conversion efficiency. Among them, the solid oxide fuel cell (SOFC) has become the successor due to its adaptability to various hydrocarbon gases such as hydrogen, methane, coal gas and biomass fuel because i...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/86H01M8/0267H01M8/1213H01M8/1226H01M8/1231H01M8/22
CPCH01M4/8657H01M8/0267H01M8/1213H01M8/1226H01M8/22H01M2004/8684H01M2004/8689H01M2008/1293H01M8/1231Y02E60/50
Inventor 张华杨钧刘武官万兵王建新
Owner NINGBO INST OF MATERIALS TECH & ENG CHINESE ACADEMY OF SCI
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