[1] SCHNEIDER K, TURNER J L, JAFFE A, et al. Choke point China:Confronting water scarcity and energy demand in the world's largest country[J]. Vermont Journal of Environmental Law, 2011(12):714-734. [2] NOURI N. Water withdrawal and consumption reduction analysis for electrical energy generation system[D]. Milwaukee:University of Wisconsin, 2015. [3] LIU J H, WANG D, XIANG C Y, et al. Assessment of the energy use for water supply in Beijing[J]. Energy Procedia, 2018(2):271-280. [4] 徐裴裴.高耗能污水处理行业何去何从?[J].通用机械,2015(8):16-18. [5] 王洪臣,霍昕然.努力发掘污水处理行业碳减排潜力[J]. 给水排水动态, 2017(4):14. [6] 李良,毕军,周元春,等.基于粮食-能源-水关联关系的风险管控研究进展[J].中国人口·资源与环境,2018(7):85-92. [7] SIDDIQI A, ANADON L D. The water-energy nexus in Middle East and North Africa[J]. Energy Policy, 2011(8):4529-4540. [8] HAMICHE A M, STAMBOULI A B, FLAZI S. A review of the water-energy nexus[J]. Renewable and Sustainable Energy Reviews, 2016(2):319-331. [9] 洪思扬,王红瑞,来文立,等.我国能源耗水空间特征及其协调发展脱钩分析[J].自然资源学报,2017(5):800-813. [10] 姜珊.水-能源纽带关系解析与耦合模似[D].北京:中国水利水电科学研究院,2017. [11] 钟锐,赵鹏,张宏伟,等.国际能源贸易中的能源隐含水流动及其对各国水资源影响[J].资源科学,2014(1):103-109. [12] International Renewable Energy Agency. Renewable energy in the water, energy & food nexus[M]. Bonn:International Renewable Energy Agency, 2015:156. [13] STEVEN J K. Defining water-related energy for global comparison, clearer communication and sharper policy[J]. Journal of Cleaner Production, 2019(4):1-13. [14] Asian Development Bank & Asia-Pacific Water Forum. Asian water development outlook 2013:Measuring water security in Asia and the Pacific[R]. Manila:Asian Development Bank, 2013:1-8. [15] HOLLAND R A, SCOTT K A, FLORKE M,et al. Global impacts of energy demand on the freshwater resources of nations[J]. Proceedings of the National Academy of Sciences of the United States of America, 2015(48):6707-6716. [16] TURNER S W D, NG J Y, GALELLI S. Examining global electricity supply vulnerability to climate change using a high-fidelity hydropower dam model[J]. Science of the Total Environment, 2017(2):663-675. [17] CHEN S Q, CHEN B. Urban energy-water nexus:A network perspective[J]. Applied Energy, 2016(3):1-10. [18] 彭焜,朱鹤,王赛鸽,等.基于系统投入产出和生态网络分析的能源-水耦合关系与协同管理研究——以湖北省为例[J].自然资源学报,2018(9):42-56. [19] PERRONE D, MURPHY J, HORNBERGER G M. Gaining perspective on the water-energy nexus at the community scale[J]. Environmental Science & Technology, 2011(10):4228-4234. [20] SUAREZ F, MUNOZ J F, FERNANDEZ B, et al. Integrated water resource management and energy requirements for water supply in the Copiapo River Basin, Chile[J]. Water, 2014(9):2590-2613. [21] CHU C, RITTER W, SUN X H. Spatial variances of water-energy nexus in China and its implications for provincial resource inter dependence[J]. Energy Policy, 2019(2):487-502. [22] SCOTT C A, PIERCE S A, PASQUALETTI M J, et al. Policy and institutional dimensions of the water-energy nexus[J]. Energy Policy, 2011(10):6622-6630. [23] XU Z C, LI Y J, HERZBERGER A J, et al. Interactive national virtual water-energy nexus networks[J]. Science of the Total Environment, 2019(7):128-135. [24] ODUM E P. The strategy of ecosystem development[J]. Science, 1969(3877):262-270. [25] ULANOWICZ R E, PLATT T C. Ecosystems theory for biological oceanography[J]. Canadian Bulletin of Fisheries and Aquatic Science, 1985(2):260-273. [26] CHEN S, CHEN B. Network environ perspective for urban metabolism and carbon emissions:A case study of Vienna, Austria[J]. Environmental Science & Technology, 2012(8):4498-4506. [27] 项潇智,贾绍凤.中国能源产业的现状需水估算与趋势分析[J].自然资源学报,2016(1):114-123. [28] 国家统计局.中国地区投入产出表2012[M].北京:中国统计出版社, 2016. [29] 许爽爽.基于投入产出表的中国行业水足迹核算分析[J].沈阳:辽宁大学,2018. [30] STUART R B, OSIDELE O. Environ indicator sensitivity to flux uncertainty in a phosphorus model of Lake Sidney Lanier, USA[J]. Ecology Model, 2007(3):371-383. [31] 尤兰维奇.第三窗口:超越牛顿和达尔文的自然生活[M].宋晓谕,蔡国英,译.郑州:黄河水利出版社,2014:54. [32] FATH B D. Quantifying economic and ecological sustainability[J]. Ocean & Coastal Management, 2015(2):13-19. |