A thermochemical study of the W/WO_3 system: a solar to fuel converter for syngas production

机译：W / WO_3系统的热化学研究：用于合成气生产的太阳能转化器

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Production of syngas is proposed utilizing the W/WO_3 redox system and employing a solar-powered two-step thermochemical cycle. Three chemical reactions occur in two chambers. Assisted by a solar concentrator, a high temperature reaction reduces WO_3 powder to metallic tungsten in both chambers. Subsequently, the temperature in one of the chambers is lowered and H_(2(g)) is produced via re-oxidation of the tungsten powder using steam. The temperature in the other chamber is simultaneously lowered to an intermediate temperature and CO_((g)) is produced via oxidation of the tungsten powder using CO_(2(g)). The gas streams coming out of the two chambers result in the syngas production. A complete thermodynamic analysis of the system is described. The W/WO_3 redox cycle offers greater gravimetric fuel productivity compared to previously proposed systems, and the entire cycle can be operated below 1273K.

机译：提议利用W / WO_3氧化还原系统并利用太阳能驱动的两步热化学循环来生产合成气。在两个腔室中发生三个化学反应。在太阳能集中器的辅助下，高温反应将两个腔室中的WO_3粉末还原为金属钨。随后，降低其中一个腔室中的温度，并通过使用蒸汽对钨粉进行再氧化来产生H_（2（g））。同时将另一个腔室中的温度降低到中间温度，并通过使用CO_（2（g））氧化钨粉产生CO _（（g））。从两个腔室出来的气流导致合成气的产生。描述了系统的完整热力学分析。与以前提出的系统相比，W / WO_3氧化还原循环提供了更高的重量燃料生产率，并且整个循环可以在1273K以下运行。

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来源
《Energy technology 2013: carbon dioxide management and other technologies》|2013年|17-23|共7页
会议地点 San Antonio TX(US)
作者
J.D. Milshtein; S.N. Basu; S. Gopalan; U.B. Pal;
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作者单位

Boston University, Department of Mechanical Engineering, 110 Cummington St., Boston, MA 02215,Boston University, Division of Materials Science and Engineering, 15 Saint Mary's St., Brookline, MA 02446;

Boston University, Department of Mechanical Engineering, 110 Cummington St., Boston, MA 02215,Boston University, Division of Materials Science and Engineering, 15 Saint Mary's St., Brookline, MA 02446;

Boston University, Department of Mechanical Engineering, 110 Cummington St., Boston, MA 02215,Boston University, Division of Materials Science and Engineering, 15 Saint Mary's St., Brookline, MA 02446;

Boston University, Department of Mechanical Engineering, 110 Cummington St., Boston, MA 02215,Boston University, Division of Materials Science and Engineering, 15 Saint Mary's St., Brookline, MA 02446;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Syngas; Hydrogen; Solar Concentrator; Tungsten; Thermochemical Cycles;

机译：合成气氢;太阳能集中器；钨;热化学循环;

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1. Study of the two-step W/WO_3 solar to fuel conversion cycle for syngas production [J] . Jarrod D. Milshtein, Eric Gratz, Soumendra N. Basu, Journal of power sources . 2013,第auga15期

机译：两步W / WO_3太阳到燃料转化循环用于合成气生产的研究
2. Process concepts to produce syngas for Fischer-Tropsch fuels by solar thermochemical splitting of water and/or CO2 [J] . Rytter Erling, Souskova Katerina, Lundgren Mathias Kristoffer, Fuel Processing Technology . 2016,第Null期

机译：通过水和/或CO2的太阳热化学分解生产费托燃料合成气的工艺概念
3. Numerical modelling for the solar driven bi-reforming of methane for the production of syngas in a solar thermochemical micro-packed bed reactor [J] . International journal of hydrogen energy . 2020,第17期

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4. A thermochemical study of the W/WO_3 system: a solar to fuel converter for syngas production [C] . J.D. Milshtein, S.N. Basu, S. Gopalan, Symposia on Energy technology . 2013

机译：W / WO_3系统的热化学研究：用于合成气生产的太阳能转换器
5. Developing and Evaluating a Partition-Cavity Solar Thermochemical Reactor for Syngas Production via Computational Fluid Dynamics [D] . Zhang, Han. 2019

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6. Solar Fuel: Sungas Instead of Syngas: Efficient Coproduction of CO and H2 with a Single Beam of Sunlight (Adv. Sci. 11/2015) [O] . Fang‐Fang Li, Jason Lau, Stuart Licht 2015

机译：太阳能：用沼气代替合成气：利用单束阳光高效联产CO和H2（Adv。Sci。11/2015）
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A thermochemical study of the W/WO_3 system: a solar to fuel converter for syngas production

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