发布时间 : 星期二 文章煤气化制甲醇(年产40万吨)的研究 毕业论文更新完毕开始阅读99f36348a8956bec0975e310
职业技术学院
毕 业 设 计(论 文) (冶金化工系)
题 目 煤气化制甲醇(年产40万吨)的研究 班 级 学 号 指导教师 完成日期 2010年6月25日—2010年10月10日
专 业 应用化工技术
目录
摘要 ·········································································································································· 1 第一章 绪论 ························································································································· 2
1.2 新型煤化工内容简介 ···························································································· 3
1.2.1发展现代煤化工的意义 ·············································································· 3 1.2.2 现代煤化工的主要特点 ··········································································· 4 1.3 煤炭气化工艺 ········································································································· 4 1.4 煤炭气化技术应用领域 ······················································································ 8 第二章 煤炭气化原理 ····································································································· 10
2.1煤炭气化技术 ········································································································ 10 2.2 煤炭气化的原理 ································································································· 12 第三章 煤气化制甲醇 ····································································································· 14
3.1 合成气的制备 ······································································································· 14
3.1.1 德士古水煤浆气化技术 ········································································· 14 3.1.2 德士古水煤浆气化激冷流程图 ···························································· 15 3.1.3 反应设备—气化炉 ·················································································· 15 3.1.4 合成气的净化 ·························································································· 16 3.2 甲醇的制备 ·········································································································· 18
3.2.1 甲醇的性质 ······························································································· 18 3.2.2 合成气制甲醇 ·························································································· 18 3.2.3 低压法合成甲醇的工艺 ········································································· 19 3.2.4 甲醇合成反应器 ······················································································ 21 3.3物料衡算 ················································································································· 24 3.4能量衡算 ················································································································· 28 第四章 结论 ························································································································· 30
4.1低压法合成甲醇的影响因素 ·············································································· 30
4.1.1温度对CH3OH合成的影响 ····································································· 30 4.1.2 压力对CH3OH合成的影响 ···································································· 30 4.1.3空速对甲醇合成的影响 ············································································ 31 4.1.4 氢碳比的控制对甲醇合成的影响 ·························································· 31
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4.1.5 惰性气体含量对CH3OH合成的影响 ·················································· 32 4.1.6甲醇合成催化剂以及催化剂对甲醇合成的影响 ································· 32 4.2 甲醇市场的展望 ··································································································· 32 致谢 ········································································································································ 34 参考文献 ······························································································································· 35 附图 ········································································································································ 36
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摘要
中国是世界上煤炭资源丰富的国家之一,煤炭储量远大于石油、天然气储量。基于国情,将煤炭加工转化成清洁、高效的二次能源,寻找内燃发动机的替代燃料,使能源结构向多元化结构,解决对石油的过分依赖将是今后的主要发展方向。本文主要综述了煤气化和合成甲醇基本原理、工艺流程、设备、净化、影响因素等。基于此,选用德士古煤气化工艺和低压法合成甲醇工艺,在工艺计算基础上,设计了年产40万吨煤气化制甲醇生产线。 关键词:煤气化,低压法,甲醇
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