Waste tire derived char supported Ni-Fe catalyst for catalytic thermochemical conversion of wet municipal solid waste

被引:8
|
作者
Irfan, Muhammad [1 ]
Li, Aimin [2 ]
Zhang, Lei [2 ]
Liu, Jianhua [1 ]
Farooqi, Tanzeel Javaid Aini [1 ]
Javid, Muhammad [3 ]
Rauf, Abdul [4 ]
机构
[1] Yibin Univ, Int Fac Appl Technol, Yibin, Peoples R China
[2] Dalian Univ Technol, Sch Environm Sci & Technol, Dalian 116024, Peoples R China
[3] Dalian Univ Technol, Sch Mat Sci & Engn, Dalian, Peoples R China
[4] Univ Management & Technol, Dept Chem, Sch Sci, Lahore, Pakistan
关键词
char; gasification; municipal solid waste; pyrolysis; waste tire; RICH GAS-PRODUCTION; BIOMASS GASIFICATION; HYDROGEN-PRODUCTION; SYNGAS PRODUCTION; PYROLYSIS CHAR; CARBON-DIOXIDE; HUSK CHAR; TAR; CRACKING; REMOVAL;
D O I
10.1002/er.7410
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Thermochemical conversion technology (pyrolysis/gasification) has been extensively employed for biomass, fossil fuels, and MSW feedstock to transform them into valuable products (gas, oil, and char). Since the practical application of waste tire derived char (WTC) faces uncertainty, the exploitation of WTC's high-value application would significantly impact the overall economy of the waste tire pyrolysis process. Therefore, in this study, WTC was utilized as a support material for developing Ni-Fe-based catalysts (Ni-WTC, Fe-WTC, and Ni-Fe-WTC). The catalyst performance for wet MSW catalytic conversion was studied in a fixed-bed reactor. The results affirmed that the application of catalysts considerably boosted the H-2 concentration (29.26% to 38.24%-42.15%), dry gas yield (0.73 to 1.04-1.16 Nm(3)/kg MSW), and H-2 yield (212 to 396-487 mL/g MSW). Meanwhile, the tar content reduced significantly from 9.11% (without catalyst) to 2.15%, (Ni-WTC), 2.83% (Fe-WTC), and 2.47% (Ni-Fe-WTC). The tar analysis indicated that the chemical composition significantly transformed with the application of catalysts. This work successfully suggested that WTCs can be used as an effective and inexpensive support material for developing Ni-based catalysts that can offer greater opportunity toward tar and hydrocarbons catalytic cracking and reforming during MSW conversion.
引用
收藏
页码:3634 / 3646
页数:13
相关论文
共 50 条
  • [21] Geothermal solid waste derived Ni/Zeolite catalyst for waste cooking oil processing
    Satriadi, Hantoro
    Pratiwi, Isdayana Yogi
    Khuriyah, Malikhatul
    Widayat
    Hadiyanto
    Prameswari, Jedy
    CHEMOSPHERE, 2022, 286
  • [22] Hydrogen production by catalytic dehydrogenation of methylcyclohexane over Pt catalysts supported on pyrolytic waste tire char
    Zhang, Cui
    Liang, Xiuqing
    Liu, Shuangxi
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2011, 36 (15) : 8902 - 8907
  • [23] Reactivity and deactivation mechanisms of toluene reforming over waste peat char-supported Fe/Ni/Ca catalyst
    Wang, Shuxiao
    Shan, Rui
    Gu, Jing
    Zhang, Jun
    Zhang, Yuyuan
    Yuan, Haoran
    Chen, Yong
    Luo, Bo
    FUEL, 2020, 271
  • [24] Co-production of hydrogen and carbon nanotubes from catalytic pyrolysis of waste plastics on Ni-Fe bimetallic catalyst
    Yao, Dingding
    Wu, Chunfei
    Yang, Haiping
    Zhang, Yeshui
    Nahil, Mohamad A.
    Chen, Yingquan
    Williams, Paul T.
    Chen, Hanping
    ENERGY CONVERSION AND MANAGEMENT, 2017, 148 : 692 - 700
  • [25] Hydrogen-rich syngas from wet municipal solid waste gasification using Ni/Waste marble powder catalyst promoted by transition metals
    Irfan, Muhammad
    Li, Aimin
    Zhang, Lei
    Ji, Guozhao
    Gao, Yuan
    Khushk, Shujauddin
    WASTE MANAGEMENT, 2021, 132 : 96 - 104
  • [26] Efficient conversion of Calcutta municipal solid waste to fuel oil by catalytic bydrogenation
    Nag, Ahindra
    Brahma, Nitosh Kumar
    Fuel Science and Technology International, 1992, 10 (01): : 117 - 138
  • [27] Seashell waste-derived materials for secondary catalytic tar reduction in municipal solid waste gasification
    Gomez-Rueda, Yamid
    Zaini, Ilman Nuran
    Yang, Weihong
    Helsen, Lieve
    BIOMASS & BIOENERGY, 2020, 143 (143):
  • [28] Synthesis and catalytic activity of municipal solid waste incineration bottom ash derived catalyst for dry reforming of methane
    Zhang, Yuqi
    Yang, Ziyan
    Zhang, Di
    Lei, Pengwei
    Liu, Lina
    Ma, Jiao
    Zhang, Zhikun
    FUEL, 2025, 379
  • [29] Pyrolysis waste char supported metallic catalyst for syngas production during catalytic reforming of benzene
    Wang, Shuxiao
    Shan, Rui
    Gu, Jing
    Zhang, Jun
    Yuan, Haoran
    Chen, Yong
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2021, 46 (38) : 19835 - 19845
  • [30] BTEX recovery from waste rubbers by catalytic pyrolysis over Zn loaded tire derived char
    Pan, Yuhan
    Sima, Jingyuan
    Wang, Xinwen
    Zhou, Yonggang
    Huang, Qunxing
    WASTE MANAGEMENT, 2021, 131 : 214 - 225