省域经济系统能源与水关联及协同发展研究——基于投入产出和生态网络分析的福建省实证

doi:10.13766/j.bhsk.1008-2204.2019.0415

北京航空航天大学学报社科版 ›› 2020, Vol. 33 ›› Issue (6): 80-92.DOI: 10.13766/j.bhsk.1008-2204.2019.0415

省域经济系统能源与水关联及协同发展研究——基于投入产出和生态网络分析的福建省实证

张俊¹, 林卿², 王江泉³

1. 福建工程学院互联网经贸学院, 福建福州 350011;
2. 福建师范大学经济学院, 福建福州 350117;
3. 福建工程学院生态环境与城市建设学院, 福建福州 350118

收稿日期:2019-12-04 发布日期:2020-12-02
作者简介:张俊(1986-),女,陕西渭南人,讲师,博士,研究方向为产业绿色发展.
基金资助:
福建省社会科学规划项目（FJ2019C055）；福建工程学院基础研究项目（GY-S18108）；福建工程学院科研启动基金（GY-S19012）

Energy and Water Nexus and Collaborative Development in Provincial Economic System: Empirical Study in Fujian Based on Input-Output and Ecological Network Analysis

ZHANG Jun¹, LIN Qing², WANG Jiangquan³

1. School of Internet Economics and Business, Fujian University of Technology, Fuzhou Fujian 350011, China;
2. School of Economics, Fujian Normal University, Fuzhou Fujian 350117, China;
3. School of Ecological Environment and Urban Construction, Fujian University of Technology, Fuzhou Fujian 350118, China

Received:2019-12-04 Published:2020-12-02

摘要/Abstract

摘要： 能源与水资源协同发展是省域经济贯彻新发展理念、推动高质量发展的内在要求。基于投入产出分析和生态网络分析方法构建区域关联网络，创建关联度指数评价福建各部门受到能源与水关联影响的压力，同时评价了关联网络的循环性、鲁棒性和控制依赖性。研究发现：能源消费和能耗水呈现部门差异性，而水消费和水耗能呈现部门趋同性；产业结构高级化有助于降低区域整体的能耗和水耗；水关联网络在循环效率和鲁棒性上的表现优于能源关联网络；受关联关系影响较大的部门体现了能源与水之间相互需求较高的特点。最后，从提升资源利用效率和推动跨部门协同升级两个角度提出实现能源与水资源协同发展的对策建议。

关键词: 系统投入产出, 生态网络分析, 能源关联网络, 水关联网络, 协同发展

Abstract: The collaborative development of energy and water resources is the internal requirement for the provincial economy to implement the new development concept and promote high-quality development. Based on input-output analysis and ecological network analysis, the regional correlation network is constructed. The correlation index is created to evaluate the comprehensive pressure of each department affected by energy and water nexus, and then the circularity, robustness, control and dependence of the nexus network are evaluated. The findings are as follows: energy consumption and energy-related water consumption are different among sectors, while water consumption and water-related energy consumption are similar among sectors; the upgrading of the industrial structure can help to reduce the energy consumption and water consumption of the region; the performance of water nexus network in cyclic efficiency and robustness are better than those of energy nexus network respectively; the departments which are greatly affected by nexus reflect the characteristics of high mutual demand between energy and water. Finally, some countermeasures are put forward to realize the collaborative development of energy and water from two perspectives of improving the utilization efficiency of resources and promoting the inter-departmental coordination and upgrading.

Key words: systematic input-output, ecological network analysis, energy nexus network, water nexus network, collaborative development

中图分类号:

F426
TV213.4

张俊, 林卿, 王江泉. 省域经济系统能源与水关联及协同发展研究——基于投入产出和生态网络分析的福建省实证[J]. 北京航空航天大学学报社科版, 2020, 33(6): 80-92.

ZHANG Jun, LIN Qing, WANG Jiangquan. Energy and Water Nexus and Collaborative Development in Provincial Economic System: Empirical Study in Fujian Based on Input-Output and Ecological Network Analysis[J]. Journal of Beijing University of Aeronautics and Astronautics Social Sciences Edition, 2020, 33(6): 80-92.

参考文献

[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.

省域经济系统能源与水关联及协同发展研究——基于投入产出和生态网络分析的福建省实证

Energy and Water Nexus and Collaborative Development in Provincial Economic System: Empirical Study in Fujian Based on Input-Output and Ecological Network Analysis

RichHTML

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 3

编辑推荐

Metrics

本文评价

[1]	首都机场集团公司法律事务部. 机场跨地域发展的法治协同研究——以北京大兴国际机场跨地域运营和京津冀机场协同发展为视角[J]. 北京航空航天大学学报（社会科学版）, 2019, 32(6): 103-109,135.
[2]	沈映春, 李艾洁. 基于低碳经济视角的京津冀产业结构优化研究[J]. 北京航空航天大学学报（社会科学版）, 2019, 32(3): 66-72.
[3]	李健英, 吴镇雄. 京津冀三地创新绩效比较研究[J]. 北京航空航天大学学报（社会科学版）, 2016, 29(6): 62-66,80.