Accessing High Thermal Efficiency Power Generation Using Fluid Phase Chemical Looping

机译：使用液相化学循环获得高热效率发电

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In order to burn a hydrocarbon fuel efficiently using conventional cycles, very high temperatures are required. Chemical looping combustion offers an alternative cycle for large scale power production. In chemical looping combustion a carrier molecule is used to transport oxygen between two redox reactions, one where the carrier is oxidised and another where it is reduced by reaction with a fuel. Separation of the oxygen carrier from fuel ash can be aided by means of phase difference and this is a key advantage of fluid phase chemical looping combustion where the carrier medium proposed is sodium, potassium or zinc. The principle exploited in fluid phase chemical looping combustion is the recirculation of both energy and entropy. High thermal efficiencies, circa 75% at 35 bar are theoretically achievable taking into account component efficiencies, with separation of nitrogen and carbon dioxide, in combination with the water shift gas reaction, as an inherent part of the cycle if air is used as the oxygen source.

机译：为了使用常规循环有效地燃烧烃燃料，需要非常高的温度。化学循环燃烧为大规模发电提供了替代循环。在化学循环燃烧中，使用载体分子在两个氧化还原反应之间传输氧气，一个在载体上被氧化，另一个在载体上通过与燃料反应被还原。氧载体与燃料灰分的分离可以借助相差来辅助，这是液相化学循环燃烧的关键优势，其中所提出的载体介质是钠，钾或锌。液相化学循环燃烧中利用的原理是能量和熵的再循环。如果使用空气作为氧气，理论上可以达到很高的热效率（在35 bar时约为75％），这是考虑到组件效率，将氮和二氧化碳分离并结合水煤气变换反应作为循环的固有部分。资源。

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《Proceedings of 3rd international symposium on jet propulsion and power engineering.》|2010年|p.25-33|共9页
会议地点 Nanjing(CN);Nanjing(CN)
作者
Peter RN Childs; Niall R McGlashan; Andrew L Heyes;
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作者单位

Imperial College London Department of Mechanical Engineering South Kensington, SW7 2AZ, United Kingdom;

Imperial College London Department of Mechanical Engineering South Kensington, SW7 2AZ, United Kingdom;

Imperial College London Department of Mechanical Engineering South Kensington, SW7 2AZ, United Kingdom;

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会议组织
原文格式 PDF
正文语种 eng
中图分类航空发动机（推进系统）;航空发动机（推进系统）;
关键词
chemical; looping; combustion; cycle; efficiency; carbon; capture; fluid; phase; difference;

机译：化学;循环;燃烧;循环;效率;碳;捕获;流体;相;差异;
入库时间 2022-08-26 14:05:57

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机译：煤气化与固体氧化物燃料电池的集成以及化学循环燃烧，可通过固有的二氧化碳捕集实现高效发电
5. Accessing High Thermal Efficiency Power Generation Using Fluid Phase Chemical Looping [C] . Peter RN Childs, Niall R McGlashan, Andrew L Heyes International symposium on jet propulsion and power engineering . 2010

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9. In-Space technology experiments program. A high efficiency thermal interface (using condensation heat transfer) between a 2-phase fluid loop and heatpipe radiator: Experiment definition phase [R] . Pohner, John A., Dempsey, Brian P., Herold, Leroy M. 1990

机译：在两相流体回路和热管散热器之间的高效热界面（使用冷凝传热）：实验定义阶段

Accessing High Thermal Efficiency Power Generation Using Fluid Phase Chemical Looping

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