基于高炉冲渣水对低温余热回收的探讨任务书

 2021-10-24 15:28:18

1. 毕业设计(论文)的内容和要求

化石能源大量使用带来以 CO2为代表的温室气体过量排放,严重威胁人类生存和社会发展。

离子液体法吸收分被美国能源部 列为未来重点发展的碳捕集技术之一,但离子液体价格高昂、气传质速率又极低,阻碍其大规模应用,亟需对过程进行强化。

与此同时,钢铁行业低温余热回收仍面临巨大挑战。

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2. 参考文献

[1] International Energy Agency. Energy, Climate Change 2016.[2] EU Commission. Communication from the Commission to the European Parliament,the Council, the European Economic and Social Committee and The Committee of the Regions, An EU Strategy on Heating and Cooling. Tech. rep., Brussels; 2016.[3] U.S. Department of Energy. 2011 Buildings Energy Databook. Tech. rep.; 2012.[4] Tsinghua University Building Energy Research Center, International Energy Agency.Building Energy Use in China Transforming Construction and Influencing Consumption to 2050. Tech. rep.,OECD/IEA, Paris; 2015.[5] Medrano M, Bourouis M, Coronas A. Double-lift absorption refrigeration cycles driven by low-temperature heat sources using organic fluid mixtures as working pairs. Appl Energy 2001;68(2):17385.[6] Szen A, Altparmak D, Usta H. Development and testing of a prototype of absorption heat pump system operated by solar energy. Appl Therm Eng 2002;22(16):184759.[7] Kim D, Infante Ferreira C. Solar refrigeration options a state-of-the-art review. Int J Refrig 2008;31(1):315.[8] Yuksel YE, Ozturk M, Dincer I. Thermodynamic performance assessment of a novel environmentally-benign solar energy based integrated system. Energy Convers Manage 2016;119:10920.[9] Zheng D, Dong L, Huang W, Wu X, Nie N. A review of imidazolium ionic liquids research and development towards working pair of absorption cycle. Renew Sustain Energy Rev 2014;37:4768.[10] Nowaczyk U, Steimle F. Thermophysical properties of new working fluid systems for absorption processes. Int J Refrig 1992;15(1):105.[11] Ameel TA, Gee KG, Wood BD. Performance predictions of alternative, low cost absorbents for open cycle absorption solar cooling. Sol Energy 1995;54(2):6573.[12] Donate M, Rodriguez L, Lucas AD, Rodrguez JF. Thermodynamic evaluation of new absorbent mixtures of lithium bromide and organic salts for absorption refrigeration machines. Int J Refrig 2006;29(1):305.

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