摘要: |
以城市固体垃圾为原料,O2、水蒸气为气化介质,运用Aspen Plus模拟软件对垃圾气化制合成天然气过程进行模拟,考察O2当量比(ER)、蒸汽进料与干燥垃圾质量比(m(S)/m(MSW))、甲烷化温度和甲烷化压力对合成天然气CH4摩尔分数、低位发热量和能量转换率的影响。结果 表明,降低ER、m(S)/m(MSW)和甲烷化温度及增加压力,有利于提高合成天然气CH4摩尔分数、低位发热量和能量转换率。当ER为0.35、m(S)/m(MSW)为0.5、甲烷化温度和压力分别为250 ℃和0.5 MPa时,所得合成天然气满足GB 17820-2012《天然气》规定的二类天然气质量要求。 |
关键词: 城市固体垃圾 气化 合成天然气 Aspen Plus |
DOI:10.3969/j.issn.1007-3426.2017.01.009 |
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Modeling and simulation of synthetic natural gas production from municipal solid waste gasification |
Huang Xiaoqi1,2, Zhu Rui3,4
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1. Southwest Branch of PetroChina Natural Gas Marketing Company, Luzhou, Sichuan, China ;2. School of Oil and Gas Engineering of Southwest Petroleum University, Chengdu, Sichuan, China ;3. PetroChina Southwest Pipeline Company, Chengdu, Sichuan, China ;4. School of Software Engineering of Southwest Petroleum University, Chengdu, Sichuan, China
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Abstract: |
A process was designed and simulated by Aspen Plus for the production of synthetic natural gas (SNG) from municipal solid waste (MSW) gasification, with O2 and steam as gasifying agents. The influences of O2 to MSW equivalent ratio (ER), steam-to-MSW mass ratio (m(S)/m(MSW)), methanation temperature and methanation pressure on the CH4 concentration in SNG, lower heating value (LHV) of SNG and energy conversion efficiency were analyzed in detail. With the increase of ER, m(S)/m(MSW) and methanation temperature, the CH4 concentration, LHV of SNG and energy conversion efficiency were decreasing, respectively. And a higher methanation pressure was in favor of CH4 content, LHV and energy conversion efficiency. When the ER, m(S)/m(MSW), methanation temperature and pressure were 0.35,0.5,0 ℃ and 0.5 MPa separately, the quality of produced SNG could meet the requirements of two-class NG of GB 17820-2012. |
Key words: municipal solid waste gasification synthetic natural gas Aspen Plus |