This work is licensed under the Creative Commons Attribution 4.0 International License.
Zhang Y, Qian T, Tang W. Buildings-to-distribution-network integration considering power transformer loading capability and distribution network reconfiguration[J]. Energy, 2022, 244.Search in Google Scholar
T. Qian, Xingyu Chen, Yanli Xin, W. H. Tang, Lixiao Wang. Resilient Decentralized Optimization of Chance Constrained Electricity-gas Systems over Lossy Communication Networks [J]. Energy, 2022, 239, 122158.Search in Google Scholar
Baining Zhao, Tong Qian, Wenhu Tang, Qiheng, Liang. A Data-enhanced Distributionally Robust Optimization Method for Economic Dispatch of Integrated Electricity and Natural Gas Systems with Wind Uncertainty[J] Energy, 2022, Energy, 2022: 123113.Search in Google Scholar
T. Qian, Y. Liu, W. H Zhang, W. H. Tang, M. Shahidehpour. Event-Triggered Updating Method in Centralized and Distributed Secondary Controls for Islanded Microgrid Restoration[J]. IEEE Transactions on Smart Gird, 2020, 11(2): 1387–1395.Search in Google Scholar
Pearce, D. Wand, PK. Turner. Economics of Natural Resources and the Environment. London: Haivester Wheatsheaf, 1990, 35–41Search in Google Scholar
Stuart Ross. Use of life Cycle Assessment in Environmental Management. Environmental Management, 2002, 29(1): 132–142Search in Google Scholar
Herinz Strebel. Industrial Recycling Networks as An Entrance into Circular Economy. International Summer A-cademy on Technology Studies-Corporate Sustainability, 2004Search in Google Scholar
Brian, Lin Chiang, Chen Yuan. Donald A.R George. A Circular Economy Model of Economic Growth[J]. Environmental Modeling and Software, 2015, 73: 60–63Search in Google Scholar
H. Schutz, S. Bringezu. Major Material Flows in Germany[R]. Fresenius Environment Bulletin, 1993(2): 443–448Search in Google Scholar
Environment Agency. Japan.Quality of the Environment in Japan 1992[R]. Tokyo Environment Agency Japan, 1992Search in Google Scholar
Eurostat. Economy-wide Material Flow Accounts and Derived Indicators, A Method of Logical Guide. Luxembourg, 2001Search in Google Scholar
Sven Hunhanmmar. Cycling Residues:Potential for Increased Transportation Demands due to Recycling of Materials in Sweden. Resource, Conservation & Recycling, 1995, 15(1): 21–31Search in Google Scholar
Stefan Schaltegger, Andreas Sturm. Okologische Rationalitat. Die Unternehmung No.4. 1990, 273–290Search in Google Scholar
J. Hoffren. Measuring the Eco-efficiency of Welfare Generation in a National Economy The case of Finland. Tutkimuksia, 2001Search in Google Scholar
Timo Kuosmanen, Mika Kortelainen. Measuring Eco-efficiency of Production with data Envelopment analysis. Journal of Industrial Ecology, 2005(4): 59–72Search in Google Scholar
Yoshinori Kobayashi, Hideki Kobayashi, Akinori Hongu, et al. A Practical Method for Quantifying Eco-efficiency Using Eco-design Support Tools. Journal of Industrial Ecology, 2005(4): 131–144Search in Google Scholar
L A Zadeh. Fuzzy Sets as a Basis for a Theory of Possibility, Fuzzy Sets and System, 1978, (1): 3–28Search in Google Scholar
K. M. Miettinen. Nonlinear Multi-objective Optimization. Norwell, MA:Kluwer, 1999Search in Google Scholar
J. Holland. Adaptation In Natural And Artificial Systems. Ann Arbor. MI:University of Michigan Press. 1975: 21–24Search in Google Scholar
C. M. Fonseca, P. J. Fleming. Genetic Algorithms for Multi-Objective Optimization: Formulation, Discusstion and Generation. Proceedings of the Proceedings of the 5th International Conference on Genetic Algorithms, San Mateo, California, F2, 1993: 415–423Search in Google Scholar
D. E. Goldberg. Genetic Algorithm In Search, Optimization and Machine Learning. Addison-Wesley Publishing Company, 1989Search in Google Scholar
L. Turner IIB, R. Q. Hanham, A. V. Portararo. Population Pressure and Agricultural Intensity. Annals of the Associati on Ofam Erican Geographers, 1977, 67(3): 384–396Search in Google Scholar
C.A. Watson, D. Atkinson. Using Nitrogen Budgets to Indicate Nitrogen Use Efficiency and Losses from Whole System a Comparison of Three Methodological Approaches. Nutrient Cycle Agro-Ecosystem. 1999, 53: 259–267Search in Google Scholar
J. Kopinski, A. Tujaka, J. Igras. Nitrogen and Phosphorus Budgets as a Tool for Sustainable Nutrients Management. Acta Agricul-Turae Slovenica, 2006, 87(1): 173–181Search in Google Scholar
Hayami Y, Ruitan V w. AgricuItural Development: An International Perspective[M]. New York: Johns Hopkins Press, 1971Search in Google Scholar
Philip Arestis and Pnicos Demetriades. Financial Development and Economic Growth: AssessingheEVidence[J]. The Economic Journal, 1997(5): 78–79Search in Google Scholar
Harris J R, Todaro M P. Migration, unemployment and development: a two sector analysis[J]. The American Economic Review, 1970, 60(1): 126–142Search in Google Scholar
Lewis W A. Manchester Economic development with unlimited supplies of labour[J]. The School, 1954, 22(2): 139– 191Search in Google Scholar
GQ. Chen, M. M. Jiang, B. Chen, Z. F. Yang, C. Lin. Emey analysis of Chinese agriculture[J]. Agriculture, Ecosystems and Environment, 2006(115): 161–173Search in Google Scholar
Tian Jun, Research of Multiple Criteria Random DEA Model and Application on Evaluation Investment, Chinese Quarterly Journal of Mathematics, 2000 No 6: 70–75Search in Google Scholar