| 分级研磨制浆工艺应用于水煤浆气化的工程分析 |
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| 引用本文: | 贺鑫平,余涛,周敬林. 分级研磨制浆工艺应用于水煤浆气化的工程分析[J]. 煤化工, 2012, 40(5): 19-23 |
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| 作者姓名: | 贺鑫平 余涛 周敬林 |
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| 作者单位: | 华陆工程科技有限责任公司,陕西西安,710065 |
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| 摘 要: | 对低阶煤制浆和传统制浆工艺进行了技术分析,并介绍了分级研磨制浆工艺。通过建立AspenPlus水煤浆气化模型,考察了神华煤在不同煤浆浓度(质量分数58%~65%)下的气化指标,得出了采用分级研磨制浆工艺,气化的比煤耗可降低2.57%~2.14%,比氧耗可降低5.76%~5.05%。结合超细磨机系统的电耗,得出1 000 m(3 CO+H2)可节省能耗553.7 MJ~438.2 MJ。
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| 关 键 词: | 分级研磨 制浆 Aspen Plus 水煤浆气化 能耗 |
Engineering Analysis of the Staged Coal Slurry Grinding Process Applied in the Coal Slurry Gasification |
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| He Xinping , Yu Tao , Zhou Jinglin. Engineering Analysis of the Staged Coal Slurry Grinding Process Applied in the Coal Slurry Gasification[J]. Coal Chemical Industry, 2012, 40(5): 19-23 |
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| Authors: | He Xinping Yu Tao Zhou Jinglin |
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| Affiliation: | (Hualu Engineering & Technology Co., Ltd., Xi'an Shaanxi 710065, China) |
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| Abstract: | Technical analysis was made of the low-ranked coal slurry grinding process and also of the traditional one, and the staged coal slurry grinding process was introduced. Through the modeling of the Aspen Plus coal slurry gasifi- cation, the gasification indexes of the Shenzhou coal at different concentrations of the coal slurry (58%-65%) were inves- tigated. The simulation results indicated that the specific oxygen consumption could be lowered by 5.76% to 5.05% and specific coal consumption could be decreased by 2.57% to 2.14% when adopting the staged coal slurry grinding process. Taking into account the electricity consumption of the super-fine coal grinding system, 553.7 MJ to 438.2 MJ could be saved per 1 000 m3 (CO+H2). |
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| Keywords: | staged coal grinding coal slurry preparation Aspen Plus coal water slurry gasification energyconsumption |
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