合成气
tar(计算)
废物管理
生物量(生态学)
生物质气化
木材气体发生器
环境科学
化石燃料
燃烧
发生炉煤气
可再生能源
工艺工程
燃料气
化学
生物燃料
工程类
催化作用
煤
有机化学
地质学
电气工程
海洋学
程序设计语言
计算机科学
作者
Faisal Saleem,Jack Harris,Kui Zhang,Adam Harvey
标识
DOI:10.1016/j.cej.2019.122761
摘要
Biomass gasification has the potential to be employed as a source of renewable energy, the process produces gaseous fuel named syngas, which could be a sustainable alternative to environmentally harming, and finite, fossil fuels. However, the feasibility of commercial scale application of biomass gasifiers is hindered by the production of tars in the gasification process. Tars incur operating issues such as fouling and clogging of piping, catalyst degradation, and tar polymerisation (potentially forming soot). Most problematically, the presence of tars can render syngas unsuitable for the use in conventional combustion engines, and gas turbines; which utilise the energy from syngas. In this review, we briefly discussed the available literature about the tar reduction techniques from biomass gasification. Then, novel non thermal plasma treatments of tars are discussed in detail.
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