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J Environ Manage


Title:Enhanced degradation of VOCs from biomass gasification catalyzed by Ni/HZSM-5 series catalyst
Author(s):Liu P; Chen Z; Li X; Chen W; Li Y; Sun T; Yang Y; Lei T;
Address:"National-Local Joint Engineering Research Center of Biomass Refining and High-Quality Utilization, Changzhou Key Laboratory of Biomass Green- Safe & High Value Utilization Technology, Institute of Urban and Rural Mining, Changzhou University, Jiangsu, 213164, China. School of Management and Economics, North China University of Water Resources and Electric Power, Zhengzhou, 450046, China. Electronic address: chenzhuo@ncwu.edu.cn. National-Local Joint Engineering Research Center of Biomass Refining and High-Quality Utilization, Changzhou Key Laboratory of Biomass Green- Safe & High Value Utilization Technology, Institute of Urban and Rural Mining, Changzhou University, Jiangsu, 213164, China. Electronic address: lixqvbioenergy@126.com"
Journal Title:J Environ Manage
Year:2023
Volume:20230727
Issue:
Page Number:118661 -
DOI: 10.1016/j.jenvman.2023.118661
ISSN/ISBN:1095-8630 (Electronic) 0301-4797 (Linking)
Abstract:"Volatile organic compounds (VOCs) evolved from biomass gasification plays a positive role in the formation of PM(2.5) and odor pollution. In order to improve the removal rate of various VOCs produced by biomass gasification, a nickel-based supported HZSM-5 cataly st (Ni/HZSM-5 and Ni-Ca-Co/HZSM-5) was prepared by different auxiliary methods, Ni loadings, and pyrolysis temperatures. The catalytic cracking performance of Ni/HZSM-5 catalysts for different VOCs model compounds such as toluene, phenol, furan, acetic acid and cyclohexane were studied in a fixed-bed reactor. The catalysts were further characterized and analyzed by XRD, SEM, XPS and BET. The results showed that the Ni/HZSM--C-Co5 catalyst prepared by ultrasonic-assisted excess impregnation method with Ni loading of 8 wt%, Ca loading of 4 wt%, Co loading of 0.1 wt% had strong catalytic activity for VOCs degradation. With the increase of the cracking temperature, the conversion rate and gas yield of from model compound cracking improved significantly. At 800 degrees C, the conversion of each model compound was more than 90%, accompanied by the generation of cracking gases such as H(2) and CH(4). The selectivity of H(2) and CH(4) from toluene cracking reached 93%, and cyclohexane reached 98%. The models with higher oxygen content and lower bond energy were more likely to undergo reforming reaction to form small molecular gas. Model compounds with large molecular weight and high carbon content provided more carbon sources. Under the conversion degree towards the gas direction was high. This study provides a new idea on the removal of VOCs for the efficient utilization of biomass resources"
Keywords:*Volatile Organic Compounds Biomass Gases/chemistry Catalysis Carbon Toluene/chemistry Biomass gasification Catalytic cracking Enhanced degradation Ni/HZSM-5 series catalyst VOCs;
Notes:"MedlineLiu, Peng Chen, Zhuo Li, Xueqin Chen, Wenxuan Li, Yanling Sun, Tanglei Yang, Yantao Lei, Tingzhou eng England 2023/07/30 J Environ Manage. 2023 Nov 1; 345:118661. doi: 10.1016/j.jenvman.2023.118661. Epub 2023 Jul 27"

 
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