Preparation method of composite solid electrolyte for fuel cell

A technology of solid electrolyte and mixed liquid, which is applied in the direction of composite electrolyte, fuel cell, electrolyte immobilization/gelation, etc. It can solve the problems of high requirements for connecting body materials, battery stack performance attenuation, poor thermal matching of sintering performance, etc., to achieve Controllable preparation process and low sintering temperature

Inactive Publication Date: 2018-04-13
北京天奇隆燃料电池科技有限公司
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  • Abstract
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Problems solved by technology

[0003] In a single battery, poor thermal matching of the sintering performance of electrode materials and electrolyte materials, unstable conductivity of the electrolyte, and structural damage caused by weak battery strength may lead to attenuation of the performance of the entire battery stack, and the traditional SOFC operating temperature Generally at 1000°C, working at such a high temperature makes SOFC have problems such as electrode densification, high requirements for connector materials, and poor battery sealing performance, which increases the cost of SOFC. Therefore, the current research on solid oxide fuel cells is generally Improve electrolyte materials so that SOFC can work at medium and low temperatures. For example, patent 201710237453.X discloses a conductivity of 1.45×10 at a medium temperature of 750°C. -2 S / cm composite electrolyte, patent 201510609504.8 discloses that the conductivity of the composite solid electrolyte material can reach 175mS / cm at 850°C

Method used

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  • Preparation method of composite solid electrolyte for fuel cell

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Step (1): According to Zr 0.8 Ni 0.2 o 1.9 The stoichiometric ratio of Zr(NO 3 ) 4 ·5H 2 O 23.62g, Ni(NO 3 ) 2 ·6H 2 O 4.0g was dissolved in deionized water respectively, and the concentration of the solution was 1g / mL, and then mixed to obtain a mixed solution, then 66.07g of citric acid was added to the mixed solution, and stirred evenly to obtain solution A;

[0026] Step (2): According to TiCe 0.8 La 0.2 o 2.9 The stoichiometric ratio of TiCl 4 13.1438g, Ce(NO 3 ) 3 ·6H 2 O 24.06g and La(NO 3 ) 3 ·6H 2 O 6g, after dissolving and mixing with deionized water respectively, the solution concentration is 1.2g / mL respectively, then mix it to obtain a mixed solution, add a mixture of ethylene glycol 25.80787g and citric acid 106.5224g to the mixed solution, wherein citric acid : Ethylene glycol: The molar ratio of the total metal cations in the mixed solution is 4:3:1, stir evenly to obtain solution B;

[0027] Step (3): Mix solution A and solution B acc...

Embodiment 2

[0030] Step (1): According to Zr 0.8 Ni 0.2 o 1.9 The stoichiometric ratio of Zr(NO 3 ) 4 ·5H 2 O 34.35g, Ni(NO 3 ) 2 ·6H 2 O 58.16g is dissolved in deionized water respectively, and the concentration of the solution is 1g / mL, then it is mixed to obtain a mixed solution, and then citric acid 153.712g is added in the mixed solution, and the total metal cation mol ratio in the citric acid and the mixed solution is 8:1, stir evenly to obtain solution A;

[0031] Step (2): According to TiCe 0.8 La 0.2 o 2.9 The stoichiometric ratio of TiCl 4 18.971g, Ce(NO 3 ) 3 ·6H 2 O 34.7296g and La(NO 3 ) 3 ·6H 2 O 8.66g, after dissolving and mixing with deionized water respectively, the concentration of the solution is 1.2g / mL respectively, then mix them to obtain a mixed solution, add a mixture of ethylene glycol 62.068g and citric acid 307.424g to the mixed solution, of which lemon Acid: ethylene glycol: the total molar ratio of metal cations in the mixed solution is 8:5:...

Embodiment 3

[0035] Step (1): According to Zr 0.8 Ni 0.2 o1.9 The stoichiometric ratio of Zr(NO 3 ) 4 ·5H 2 O 23.62g, Ni(NO 3 ) 2 ·6H 2 O 4.0g, dissolve with deionized water respectively, the solution concentration is respectively 1g / mL, then mix it to obtain a mixed solution, then add citric acid 85.86256g in the mixed solution, and the total metal cation molar ratio in the citric acid and the mixed solution is 6.5 : 1, stir evenly to obtain solution A;

[0036] Step (2): According to TiCe 0.8 La 0.2 o 2.9 The stoichiometric ratio of TiCl 4 13.1438g, Ce(NO 3 ) 3 ·6H 2 O 24.06g and La(NO 3 ) 3 ·6H 2 O 6g (433), after dissolving and mixing with deionized water respectively, the solution concentration is respectively 1.2g / mL, then it is mixed to obtain a mixed solution, and the mixture of ethylene glycol 30.1091868g and citric acid 159.7836g is added in the mixed solution, Among them, citric acid: ethylene glycol: the total molar ratio of metal cations in the mixed solution...

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Abstract

The invention discloses a preparation method of a composite solid electrolyte for a fuel cell. The method comprises the steps of firstly, respectively obtaining solutions A and B according to a stiochiometric ratio of Zr<0.8>Ni<0.2>O<1.9> and TiCe<0.8>La<0.2>O<2.9>; secondly, obtaining mixed gel of the solutions by a sol-gel method; and finally, performing sintering to obtain the composite solid electrolyte. In the composite solid electrolyte prepared by the method, the electrical conductivity of a material electrode reaches 0.114S / cm or above under 800 DEG C, reaches 0.268S / cm or above under700 DEG C and reaches 0.106S / cm or above under 600 DEG C; compared with a traditional electrolyte which cannot be applicable to low and medium temperatures, the composite solid electrolyte can be suitably used under a condition of 600-800 DEG C; and the method is controllable in preparation process and low in sintering temperature, and industrial production can be achieved.

Description

technical field [0001] The invention belongs to the field of fuel cells, and in particular relates to a medium-low temperature composite solid electrolyte for fuel cells and a preparation method thereof. Background technique [0002] Energy is an essential material basis for human survival and social development. Among them, carbon-containing compounds such as coal, oil, and natural gas are collectively referred to as carbon-based fuels. At present, the primary power generation efficiency of carbon-based fuels is only about 30%, and there are large pollution and greenhouse gas emissions. Many other defects. The solid oxide fuel cell (SOFC) is an electrochemical power generation device that can directly convert the chemical energy of the fuel into electrical energy. The primary power generation efficiency is as high as 50-60%, and it has the advantages of high efficiency and low pollution. [0003] In a single battery, poor thermal matching of the sintering performance of el...

Claims

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Application Information

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IPC IPC(8): H01M8/1016
CPCH01M8/1016H01M2300/0085H01M2300/0088Y02E60/50Y02P70/50
Inventor 白强
Owner 北京天奇隆燃料电池科技有限公司
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