Robertson A. Vision 21 partial gasification module pilot plant testing[J]. Proceedings of the International Technical Conference on Coal Utilization & Fuel Systems, 2002,1(27):31-40
[2]
Williams R H.Addressing challenges to sustainable development with innovative energy technologies in a competitive electric industry[J].Energy.Sustain. Dev., 2001,2:48-73
[3]
Piluso C, Huang Y L, Lou H H.Ecological input—output analysis-based sustainability analysis of industrial systems[J].Ind.Eng.Chem.Res., 2008,47(6):1955-1966
[4]
Gangadharan P, Zanwar A, Zheng Kailiang, et al. Sustainability assessment of polygeneration processes based on syngas derived from coal and natural gas[J].Comput.Chem.Eng., 2012,39(4):105-117
[5]
Ruth M. Integrating Economics, Ecology and Thermodynamics[M]. Dortrecht:Kluwer Academic Publishers, 1993
[6]
Hau J L, Bakshi B R.Expanding exergy analysis to account for ecological inputs:technical report[R].Dept.of Chemical Engineering, Ohio State University,2003
[7]
Jorgensen S E.Eco-Exergy as Sustainability[M].Boston:WIT Press, 2008
[8]
Meyer L, Tsatsaronis G, Buchgeister J, et al. Exergoenvironmental analysis for evaluation of the environmental impact of energy conversion systems[J].Energy, 2009,34:75-89
[9]
Burgess A A.Application of life cycle assessment to chemical processes[J].Chem.Eng.Sci., 2001,56:2589-2604
[10]
Bakshi B R, Fiksel J.The quest for sustainability:challenges for process systems engineering[J].AIChE J., 2003,49:1350-1358
[11]
Qian Yu(钱宇).Opportunities and challenges of life cycle studies of chemical products[J]. Progress in Natural Science(自然科学进展), 2004,14(11):1215-1220
[12]
Qian Y, Huang Z X, Yan Z G.Integrating assessment of environmental and economical performance of chemical products[J].Chinese J.Chem.Eng., 2007,15(1):81-87
[13]
Consoli F D, Allen D, Boustead I, Fava J, Franklin W,et al. Guidelines for Life Cycle Assessment:A Code of Practice[M].Brussels and Pensacola:STEAC, 1993
[14]
Guineée J B, Heijungs R, Huppes G, et al.Life cycle assessment:past, present, and future[J].Environ. Sci. Technol., 2011,45(1):90-96
[15]
Rebitzer G, Seuring S.Methodology and application of life cycle costing[J].International J.LCA, 2003,8(2):110-111
[16]
Finnveden G, Johansson J, Lind P, Moberg A.Life cycle assessments of energy from solid waste[D].Sweden:Stockholms Universitet, 2000
[17]
Udo de Haes H A, Jolliet O, Norris G, Saur K.UNEP/SETAC life cycle initiative:background, aims and scope[J].The Inter.l J. Life Cycle Assessment.2002,7:192-195
[18]
Jia Xiaoping(贾小平), Xiang Shuguang(项曙光).Life cycle assessment and its application in process systems engineering[J]. Morden Chemistry Industry(现代化工), 2007,10:355-358
[19]
Jeswani H K, Azapagic A, Schepelmann P, Ritthoff M.Options for broadening and deepening the LCA approaches[J].J.Cleaner Production, 2010, 18:120-127
[20]
Lombardi L.LCA comparison of technical solutions for CO2 emissions reduction in power generation[J].Energ. Convers. Manage., 2003,44(1):93-108
[21]
De Meester B, Dewulf J, Verbeke S, Janssens A, van Langenhove H.Exergetic life-cycle assessment(ELCA)for resource consumption evaluation in the built environment[J].Build.Environ., 2009,44:11-17
[22]
Hiraki T, Akiyama T.Exergetic life cycle assessment of new waste aluminium treatment system with co-production of pressurized hydrogen and aluminium hydroxide[J].Internl.J.Hydrogen Energy, 2009,34:153-161
[23]
Sikdar S K.On aggregating multiple indicators into a single metric for sustainability[J].Clean Technol. Environ. Policy, 2009,11(2):157-161
[24]
Othman M R, Wozny G, Huang Y L.A Modular approach to sustainability assessment and decision support in chemical process design[J].Ind.Eng.Chem.Res.,2010,49:7870-7881
[25]
Ness B, Urbel-Piirsalu E, Anderberg S, Olsson L.Categorising tools for sustainability assessment[J].EcoL.l Econ., 2007,60:498-508
[26]
Brennan D.Sustainable Process Engineering:Concepts, Strategies, Evaluation and Implementation[M].Singapore:Pan Stanford Publishing, 2012
[27]
Mahmoud M.El-Halwagi. Sustainable Design Through Process Integration:Fundamentals and Applications to Industrial Pollution Prevention, Resource Conservation, and Profitability Enhancement[M].MA:Butterworth-Heinemann, 2012
[28]
Lammers P E M, Gilbert A J.Towards Environmental Pressure Indicators for the EU:Indicator Definition[M].Brussels:EUROSTAT, 1999
[29]
UNCSD(United Nations Commission on Sustainable Development).Indicators of Sustainable Development:Guidelines and Methodologies[R]. New York, 2001
[30]
Lindqvist A, von Malmborg F.What can we learn from local flow analyses? The review of cadmium flows in Swedish municipalities[J].J.Cleaner Production,2004,12:909-918
[31]
Venkatesh G, Johanne Hammervold, Helge Bratteb. Combined MFA-LCA for analysis of wastewater pipeline networks[J].Journal of Industrial Ecology, 2009,13:532-550
[32]
Wackernagel M, Rees W E.Our Ecological Footprint. Reducing Human Impact on the Earth[M].Gabriola Island:New Society Publishers, 1998
[33]
CIESIN(Centre for International Earth Science Information Network).2002 Environmental Sustainability Index, Global Leaders for Tomorrow, World Economic Forum, Yale Center for Environmental Law and Policy[R].2002
[34]
Saling P.Assessing bio-based materials and processes with the ecoefficiency analysis and SEE balance of BASF//Proceedings Renewable Resources and Biorefineries[C]. Session:Sustainability Aspects of the Biobased Economy, 2005
[35]
Singh R K, Murty H R, Gupta S K, Dikshit A K.An overview of sustainability assessment methodologies[J]. Ecological Indicators,2009,9:189-212
[36]
Odum H T.Environmental Accounting.Emergy and Environmental Decision Making[M].New York:John Wiley and Sons.,1996
[37]
Lan Sengfang(蓝盛芳), Qin Pei(钦佩), Lu Hongfang(陆宏芳).Emergy Analysis of Eco-economic System(生态经济系统能值分析)[M]. Beijing:Chemical Industry Press, 2002
[38]
Cavalett O, Ortega E.Integrated environmental assessment of biodiesel production from soybean in Brazil[J].J.Clean Production, 2010,18:55-70
[39]
Lou H H, Kulkarni, M A, Singh A, et al.A game theory based approach for emergy analysis of industrial ecosystem under uncertainty[J].Clean.Technol.Envir., 2004,6(3):148-158
[40]
Jayswal A, Li X, Zanwar A, et al.A sustainability root cause analysis methodology and its application[J].Comput.Chem.Eng., 2012,35(12):2786-2798
[41]
Patel A D,Meesters K,Uil H D,et al.Sustainability assessment of novel chemical processes at early stage:application to biobased processes[J].Energy Environ. Sci., 2012,5:8430-8444
[42]
Banimostafa A, Papadokonstantakis S, Hungerbühler K. Evaluation of EHS hazard and sustainability metrics during early process design stages using principal component analysis[J].Process.Saf.Environ., 2012,90(1):8-26
[43]
Ni W D.Energy for sustainable development in China[J].Energ.Policy, 2004,32:1225-1229
[44]
Jin Hongguang(金红光), Gao Lin(高林), Zheng Danxing(郑丹星), et al.Investigation of coal-based polygeneration system for power and chemical production[J].Journal of Engineering of Thermophysics(工程热物理学报), 2001,22(4):397-400
[45]
Xie K C, Li W Y, Zhao W.Coal chemical industry and its sustainable development in China[J].Energy, 2009,35(11):4349-4355
[46]
Gangadharan P, Zanwar A, Zheng K L, et al.Sustainability assessment of polygeneration processes based on syngas derived from coal and natural gas[J].Comput. Chem. Eng., 2012,39(4):105-117
[47]
Qian Y, Liu J Y, Kraslawski A, Huang Y L.Conceptual design and system analysis of a poly-generation system for power and olefin production from natural gas[J].Appl.Energ., 2009, 86:2088-2095
[48]
Liu Jinyao(刘敬尧), He Chang(何畅), Li Jing(李[XC]), Li Xiuxi(李秀喜), Qian Yu(钱宇).Syngas-based multi-fuel multi-product integrated energy and chemical system[J].Journal of China Coal Society(煤炭学报), 2010,35(2):293-298
[49]
Liu P, Pistikopoulos E N, Li Z.A multi-objective optimization approach to polygeneration energy systems design[J].AIChE J.,2012,56(6):1218-1234
[50]
Zhou Meiling(周美玲), Jia Xiaoping(贾小平), Xiang Shuguang(项曙光), Qian Yu(钱宇).Process sustainability assessment based on exergy life cycle analysis[J]. Computer and Applied Chemistry(计算机与应用化学), 2010,27(6):796-800
