木材气体发生器
燃烧
环境科学
工艺工程
生物量(生态学)
流化床
废物管理
点火系统
内燃机
材料科学
核工程
制浆造纸工业
化学
机械工程
热力学
工程类
物理
地质学
有机化学
海洋学
煤
作者
Theodoros Damartzis,Stavros Michailos,Α. Zabaniotou
标识
DOI:10.1016/j.fuproc.2011.11.010
摘要
Abstract This study aims at the assessment of a combined heat and power (CHP) biomass bubbling fluidized bed gasification unit coupled with an internal combustion engine (ICE) by using a comprehensive mathematical model based on the Aspen Plus® process simulator. The model is based on a combination of modules that Aspen Plus simulator provides representing the 3 steps of gasification process (drying, pyrolysis, and oxidation), gas cleaning and ICE. The model is based on mass and energy balances and reaction kinetics. The model was validated by using data obtained by operating a pilot atmospheric bubbling fluidized bed gasifier at Aristotle University of Thessaloniki, fed with olive kernel with a capacity of 1 kg/h and an energy output of 5 kW th , and has showed very good agreement. A sensitivity analysis was further conducted for the investigation of the system's behavior under different temperatures and air equivalence ratios. The proposed model is capable of dealing with a wide variety of biomasses (olive kernel, corn cob/stalks, rapeseed and sunflower stalks) using air as the fluidization agent and to predict the system's performance in terms of cold gas and thermal efficiency.
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