A separate-type autothermal CH4 dry reforming system with exergy recuperation

IF 6.4 3区环境科学与生态学 Q2 ENERGY & FUELS Carbon Resources Conversion Pub Date : 2022-12-01 DOI:10.1016/j.crcon.2022.09.002

Zhongkai Zhao , Yohanes Andre Situmorang , Ping An , Jingxuan Yang , Xiaogang Hao , Jenny Rizkiana , Abuliti Abudula , Guoqing Guan

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Abstract

Currently, CO₂ conversion and utilization have become a key to mitigate the global warming. In this study, a novel separate-type autothermal dry reforming of methane (S-ATDRM) system is proposed and simulated, in which the methane dry reforming combined with methane partial oxidation is performed in a circulating fluidized bed with exergy recuperation to eliminate the negative effect of the products of CH₄ partial oxidation on the DRM reaction and further improve the CO₂ conversion efficiency. The results demonstrate that this S-ATDRM system can achieve an exergy efficiency of 84.7 %, and about 1055.7 kW of exergy can be recuperated from the process for crude syngas cooling and reapplied for pre-heating of feedstocks of CO₂, O₂ and CH₄. It is found that the largest exergy destruction in this system occurs in the partial oxidation reactor, which occupies ca. 45.6 % of the whole exergy loss. Comparing with the conventional ATDRM system, although the exergy of S-ATDRM system is decreased by approximately 0.3 %, the CO₂ conversion is substantially increased by about 11.3 %.

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带火用回收的分离式自热式CH4干式重整系统

目前，二氧化碳的转化和利用已成为减缓全球变暖的关键。本研究提出并模拟了一种新型分离式甲烷自热干式重整(S-ATDRM)系统，该系统在循环流化床中进行甲烷干式重整与甲烷部分氧化相结合，并进行火用回收，以消除CH4部分氧化产物对DRM反应的负面影响，进一步提高CO2转化效率。结果表明，S-ATDRM系统的火用效率可达84.7%，可从原油合成气冷却过程中回收约1055.7 kW的火用，并重新用于CO2、O2和CH4原料的预热。结果表明，该系统中最大的火用损失发生在部分氧化反应器，约占总火用损失的45.6%。与传统的ATDRM系统相比，S-ATDRM系统的火用量虽然降低了约0.3%，但CO2转化率却大幅提高了约11.3%。

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来源期刊

Carbon Resources Conversion Materials Science-Materials Science (miscellaneous)

CiteScore

9.90

自引率

11.70%

发文量

审稿时长

10 weeks

期刊介绍： Carbon Resources Conversion (CRC) publishes fundamental studies and industrial developments regarding relevant technologies aiming for the clean, efficient, value-added, and low-carbon utilization of carbon-containing resources as fuel for energy and as feedstock for materials or chemicals from, for example, fossil fuels, biomass, syngas, CO2, hydrocarbons, and organic wastes via physical, thermal, chemical, biological, and other technical methods. CRC also publishes scientific and engineering studies on resource characterization and pretreatment, carbon material innovation and production, clean technologies related to carbon resource conversion and utilization, and various process-supporting technologies, including on-line or off-line measurement and monitoring, modeling, simulations focused on safe and efficient process operation and control, and process and equipment optimization.

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