Jiaqi Wu, Kan Chen, Michael J. Reece, Zhaorong Huang
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引用次数: 0
摘要
最近有报道称,热电(TE)材料可用作催化剂和催化剂促进剂,用于多种应用领域,如缓解环境气体、电池和核废水的光还原。人们发现 TE 塞贝克电压可将催化活性提高数十倍至数百倍,这种效应被称为热电催化。在这些用途中,TE 材料处于开路配置中,这与 TE 能量产生和冷却装置中通常的闭路配置不同。针对热电催化的应用,提出了一种新的优点系数,即单位热损失的塞贝克电压。利用致密多孔表面和增加 TE 材料厚度等技术,优化了氧化硒化物 BiCuSeO 在二氧化碳氢化反应中的热电催化。
Porous Thermoelectric Materials for Energy Conversion by Thermoelectrocatalysis
Novel uses of thermoelectric (TE) materials as catalyst and catalyst promoters have been reported recently for a variety of applications such as environmental gas mitigation, battery, and photoreduction of nuclear wastewater. TE Seebeck voltage is found to increase the catalytic activities by tens to hundreds of times, and this effect is termed thermoelectrocatalysis. In these uses, the TE materials are in an open-circuit configuration, which is different from the usual closed-circuit configuration in the TE energy generation and cooling devices. A new figure of merit defined as the Seebeck voltage per unit heat loss is proposed for the application of thermoelectrocatalysis. Techniques such as dense bulk porous surface and increased thickness of the TE materials are used for the optimization of the thermoelectrocatalysis of the oxyselenide BiCuSeO for the carbon dioxide hydrogenation reactions.
期刊介绍:
Energy Technology provides a forum for researchers and engineers from all relevant disciplines concerned with the generation, conversion, storage, and distribution of energy.
This new journal shall publish articles covering all technical aspects of energy process engineering from different perspectives, e.g.,
new concepts of energy generation and conversion;
design, operation, control, and optimization of processes for energy generation (e.g., carbon capture) and conversion of energy carriers;
improvement of existing processes;
combination of single components to systems for energy generation;
design of systems for energy storage;
production processes of fuels, e.g., hydrogen, electricity, petroleum, biobased fuels;
concepts and design of devices for energy distribution.
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