OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

化工学报 2013

基于T-H图的全过程能量利用系统逐步优化综合策略

DOI: 10.3969/j.issn.0438-1157.2013.05.026, PP. 1696-1703

吴现力,伍联营,胡仰栋

Keywords: T-H图,能量综合,工艺改进,热机,热泵,逐步优化

Full-Text Cite this paper Add to My Lib

Abstract:

针对大规模复杂过程的能量利用提出了基于T-H图的逐步优化的综合策略。该策略以系统冷、热物流的T-H图为基础,分析系统能量集成的瓶颈和不合理的换热过程,指导系统引入热机、热泵,或进行工艺改进,从而增加或改变冷热物流,使T-H图发生改变。如此重复,通过多次改进,逐步调整冷、热物流在T-H图上的相对位置,构造出两条近似平行的冷、热物流曲线,使系统能量得到梯次合理的利用,从而达到最大限度降低系统公用工程消耗量的目的。该策略综合考虑了能量利用、转换环节的改进以及公用工程和工艺过程的有机结合,能够实现全过程能量利用的综合优化。应用这种策略,对甲醇制烯烃的能量利用系统进行了优化设计,结果表明所提策略是有效且简便易行的。

References

[1]	Chen Wenwei(陈文威), Li Huping(李沪萍).Thermodynamic Analysis and Energy Saving(热力学分析与节能)[M].Beijing:Science Press, 1999:185-190
[2]	Jaber J O, Al-Ghandoor A, Sawalha S A.Exergy flows analysis in chemical reactors[J].Chemical Engineering Research and Design, 1998, 76(3):389-395
[3]	Morosuk T, Tsatsaronis G.A new approach to the exergy analysis of absorption refrigeration machines[J].Energy, 2008, 33(6):890-907
[4]	Liu Yongzhong, Zhao Yanfei, Feng Xiao.Exergy analysis for a freeze-drying process[J].Applied Thermal Engineering, 2008, 28(7):675-690
[5]	Wang Jiaxuan(王加璇).Status quo and development of exergy analysis[J].Journal of North China Institute of Electric Power(华北电力学院学报), 1991, 18(1):45-50
[6]	Linnhoff B, Flower J R.Synthesis of heat exchange net-works[J].AIChE J., 1987, 24(4):633-642
[7]	Anita K K, Peter G, Zdravko K.Heat integration between processes:integrated structure and MINLP model[J].Comput. Chem. Eng., 2005, 29:1699-1711
[8]	Helen B, Francois M.Energy integration of industrial sites with heat exchange restrictions[J].Comput. Chem. Eng., 2012, 37:104-118
[9]	Dhole V R, Linnhoff B.Total site targets for fuel, co-generation, emissions, and cooling[J].Comput. Chem. Eng., 1993, 17(suppl.):S1101-S1109
[10]	Hua Ben(华贲).Process Energy Analysis and Synthesis(工艺过程用能分析及综合)[M].Beijing:Hydrocarbon Processing Press,1989:71-94
[11]	Hua Ben(华贲).Energy integration and optimization of process systems[J].Chemical Industry and Engineering Progress(化工进展), 1994,13(3):6-15
[12]	Hua Ben(华贲), Wu Guodong(吴国东), Chen Zhongyan(陈仲言), Liu Qi(刘琦), Yuan Yi(袁一).Exergy-economic optimization for energy systems in chemical process[J].Chemical Engineering(China)(化学工程), 1991, 19(2):64-15
[13]	Yu Hongmei(俞红梅), Yao Pingjing(姚平经), Yuan Yi(袁一).Methodology in large scale complex energy integration[J].Journal of Chemical Engineering of Chinese Universities(高校化学工程学报), 1998, 12(4):368-374
[14]	Yao Pingjing(姚平经), Shi Lei(石磊).Process energy integration and cleaner production[J].Journal of Dalian University of Technology(大连理工大学学报), 1999, 39(2):243-246
[15]	Gu Datian(古大田), Fang Zifeng(方子风).Waste Heat Recovery Boiler(废热锅炉)[M].Beijing:Chemical Industry Press, 2002:1-20
[16]	Miguel J B, Andres F B.On the use of heat pumps in total site heat integration[J].Comput. Chem. Eng., 2003, 27:1707-1719
[17]	Yao Pingjing(姚平经).Energy Optimization and Integration of the Whole Process(全过程系统能量综合优化)[M].Dalian:Dalian University of Technology Press, 1995:127-134

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133