合成气
废物管理
环境友好型
生物能源
生物量(生态学)
tar(计算)
环境科学
木材气体发生器
热电联产
原材料
发电
工艺工程
能量载体
城市固体废物
固体燃料
可再生能源
生物燃料
燃烧
工程类
计算机科学
化学
生态学
海洋学
煤
氢
程序设计语言
量子力学
有机化学
生物
功率(物理)
地质学
物理
电气工程
作者
Dharmendra Sapariya,Umang Patdiwala,Hitesh Panchal,P.V. Ramana,J.P. Makwana,Kishor Kumar Sadasivuni
标识
DOI:10.1080/15567036.2021.2000521
摘要
Thermochemical gasification techniques (TCG) are used for producing gaseous fuel from solid fuel to bioenergy production. One of the needs is for solid waste to diversify into energy sources; thermochemical gasification techniques used for producing syngas have a potentially environmentally friendly and sustainable energy conversion method. Produced gaseous fuels are used for power generation applications as well as process heating purposes. This paper offers a fundamental evaluation of critical operational parameters of thermochemical gasification, tar generation, and cracking with a comparative discussion on conventional gasification mechanisms with advanced gasification techniques. A primary focus is on operating parameters, decreasing installation costs and operational expenses, and discussion on unique gasifiers methods used for cogeneration strategies to promote syngas from biomass gasification as an alternative energy source along with excellent efficiency and flexibility. With this holistic consideration as improvement in feasibility and sustainability by utilizing low-cost biomass, Municipal Solid Waste and COVID-19 waste feedstock for thermochemical gasification with reducing socio-environmental effects result in an environmentally friendly approach.
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