生物质超临界水气化系统中二氧化碳与 H2O 作为输送介质的比较

IF 4.3 3区工程技术 Q2 ENGINEERING, CHEMICAL

Frontiers of Chemical Science and Engineering Pub Date : 2024-08-09 DOI:10.1007/s11705-024-2472-7

Weizuo Wang, Bingru Lu, Jinwen Shi, Qiuyang Zhao, Hui Jin

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引用次数: 0

摘要

超临界水气化是一种用于生物质转化和利用的清洁技术。在超临界水气化系统中，通常使用 H2O 作为输送介质。气化区反应温度和生物质加热速率的降低可能会限制气化速率和效率。本文采用二氧化碳作为输送介质，因为二氧化碳的临界点和比热容相对较低。此外，本文还建立了一个采用不同输送介质的玉米秸秆气化系统，并研究了温度、压力和原料浓度等各种操作参数的影响。结果表明，二氧化碳输送系统的产气量下降不超过 5 wt %。此外，热力学分析表明，以 CO2 为输送介质的系统比以 H2O 为输送介质的系统少消耗约 25% 的电力。此外，反应吸热也有所减少。结果表明，二氧化碳作为传输介质比 H2O 更为优越。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Comparison of CO2 with H2O as the transport medium in a biomass supercritical water gasification system

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Comparison of CO2 with H2O as the transport medium in a biomass supercritical water gasification system

Supercritical water gasification is a clean technology for biomass conversion and utilization. In supercritical water gasification systems, H₂O is often used as the transport medium. Decreases in the reaction temperature at the gasification area and in the heating rate of biomass may limit the gasification rate and efficiency. In this paper, CO₂ is used as the transport medium due to its relatively low critical point and specific heat capacity. Moreover, a corn stalk gasification system with different transport media is established in this paper, and the influences of various operating parameters, such as temperature, pressure and feedstock concentration, are investigated. The results show that the gas yield in the CO₂-transport system decreases by no more than 5 wt %. In addition, thermodynamic analysis reveals that a system with CO₂ as transport medium consumes approximately 25% less electricity than a system with H₂O as the transport medium. In addition, the reaction heat absorption decreases. The results show the superiority of CO₂ to H₂O as a transport medium.

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来源期刊

Frontiers of Chemical Science and Engineering ENGINEERING, CHEMICAL-

CiteScore

7.60

自引率

6.70%

发文量

868

审稿时长

1 months

期刊介绍： Frontiers of Chemical Science and Engineering presents the latest developments in chemical science and engineering, emphasizing emerging and multidisciplinary fields and international trends in research and development. The journal promotes communication and exchange between scientists all over the world. The contents include original reviews, research papers and short communications. Coverage includes catalysis and reaction engineering, clean energy, functional material, nanotechnology and nanoscience, biomaterials and biotechnology, particle technology and multiphase processing, separation science and technology, sustainable technologies and green processing.