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2023年第5期   DOI:10.19830/j.upi.2021.560
能值分析方法在社区环境可持续发展评估中的应用
Application of Emergy Analysis Method in Evaluating the Sustainable Development of Community Environment

赵凯茜 李翅

Zhao Kaixi, Li Chi

关键词:能值分析;社区更新;人居环境;资源环境;城市更新;学院路街道

Keywords:Emergy Analysis; Community Regeneration; Living Environment; Resources and Environment; Urban Regeneration; Xueyuanlu Sub-district

摘要:

双碳目标下,城市更新不仅要重视绿色低碳,更要注重可持续发展。可持续的社区建设是推动城市绿色更新的重要支撑,也是探索低碳城镇化的必由之路。能值分析作为国际社会普遍认可的评估方法,可以对研究系统的行为进行全面评估。本文将能值分析理念与方法引入社区更新中,以北京市学院路街道30 个社区单元为研究对象,绘制能值系统图,构建指标体系,直观量化社区人居环境可持续发展水平。结果表明,该街道各社区均处在不可再生资源消耗阶段,固碳释氧能力有限,环境压力较大,可持续水平不容乐观,不利于社区更新的有效开展。通过对社区能值计算结果进行深入分析,可为后续开展绿色更新提供理论基础和发展思路。

Abstract:

Under the targets of carbon peak and carbon neutrality, urban regeneration should not only pay attention to green and low-carbon, but also pay attention to sustainable development. Sustainable community construction is not only an important support to promote green urban renewal, but also the way to explore low-carbon urbanization. Emergy analysis, as an internationally recognized evaluation method, can comprehensively evaluate the behavior of research systems. This paper introduces the concept and method of emergy analysis into community regeneration, and takes 30 community units in Xueyuanlu Subdistrict of Beijing as the research object. Firstly, we draw emergy system diagram, construct index system, and then intuitively quantify the sustainable development level of community living environment. The results show that all communities are in the consumption stage of non renewable resources, and the capacity of carbon sequestration and oxygen release is limited. In addition, the environmental pressure of the community is large, and the sustainable level is not optimistic, which is not conducive to the effective development of community renewal. Through the in-depth analysis of the community emergy calculation results, it provides a theoretical basis and development ideas for the follow-up green regeneration.

版权信息:
基金项目:国家自然科学基金面上项目(51978050)
作者简介:

赵凯茜,北京林业大学园林学院博士研究生。510892743@qq.com
李翅(通信作者),博士,北京林业大学园林学院教授,博士生导师。lichi@bjfu.edu.cn

译者简介:

参考文献:
  • [1] The United Nation, Department of Economic and Social Affairs. Global sustainable development report, 2015 edition[EB/OL]. (2015-06-30)[2021-12-18]. https://www.un.org/en/development/desa/publications/globalsustainable-development-report-2015-edition.html.
    [2] 东昆鹏, 刘鸿琳, 徐建刚, 等. 社区营造视域下的内城街区活力再生途径——以西安回坊为例[J]. 城市规划, 2021, 45(2): 99-108.
    [3] The UK Government. A strategy for neighbourhood renewal[EB/OL]. (2003-06-01) [2021-12-10]. https://www.communities-ni.gov.uk/publications/neighbourhood-renewal-people-and-place.
    [4] The UK Government. A new commitment to neighbourhood renewal[EB/OL]. (2001-01-01)[2021-12-10]. https://www.gov.uk/government/organisations/cabinet-office.
    [5] 梅格·霍尔登, 安迪·塞里, 刘倩倩. 意味深长:当宜居墨尔本遇上宜居温哥华[J]. 国际城市规划, 2016, 31(5): 26-34. DOI: 10.22217/upi.2016.320.
    [6] 钱凡. 存量背景下上海城市绿地更新改造设计探究[J]. 中国园林, 2021, 37( 增刊2): 41-45.
    [7] 王丹宁, 钱成裕, 吴小兰. 再看街心花园与美丽街区——上海街区景观更新发展研究与实践[J]. 中国园林, 2021,37( 增刊2): 46-49.
    [8] 阳建强, 陈月. 1949-2019 年中国城市更新的发展与回顾[J]. 城市规划, 2020, 44(2): 9-19, 31.
    [9] 杨贵庆, 房佳琳, 何江夏. 改革开放40 年社区规划的兴起和发展[J]. 城市规划学刊, 2018(6): 29-36.
    [10] ODUM H T. Environmental accounting: emergy andenviron: mental decision making[M]. New York: John Wiley & Sons, 1996.
    [11] 黄显峰, 周祎, 阎玮, 等. 基于能值分析的生态供水效益量化方法[J]. 水利水电科技进展, 2019, 39(2): 12-15, 36.
    [12] 马文静, 刘娟. 基于能值分析的中国生态经济系统可持续发展评估[J]. 应用生态学报, 2020, 31(6): 2029-2038.
    [13] CHEN W, ZHONG S, GENG Y, et al. Emergy based sustainability evaluation for Yunnan Province, China[J]. Journal of cleaner production, 2017, 162: 1388-1397.
    [14] YU X, GENG Y, DONG H, et al. Emergy-based sustainability assessment on natural resource utilization in 30 Chinese provinces[J]. Journal of cleaner production, 2016, 133: 18-27.
    [15] 付恒阳, 李榜晏. 基于能值分析的LID 可持续性评价[J]. 西北大学学报(自然科学版), 2017, 47(5): 761-768.
    [16] 张勇, 陈曦虎, 李慧民, 等. 基于能值分析的旧工业建筑改造评价[J]. 工业建筑, 2013, 43(10): 24-27.
    [17] TANG M, HONG J, WANG X, et al. Sustainability accounting of neighborhood metabolism and its applications for urban renewal based on emergy analysis and SBM-DEA[J]. Journal of environmental management, 2020, 275: 1-12.
    [18] LI D, DU B, ZHU J. Evaluating old community renewal based on emergy analysis: a case study of Nanjing[J]. Ecological modelling, 2021, 449: 1-13.
    [19] 林坚, 叶子君. 绿色城市更新:新时代城市发展的重要方向[J]. 城市规划, 2019, 43(11): 9-12.
    [20] ZHENG H W, SHEN G Q, WANG H. A review of recent studies on sustainable urban renewal[J]. Habitat international, 2017, 41(1): 272-279.
    [21] 黄显峰, 周祎, 阎玮, 等. 基于能值分析的生态供水效益量化方法[J]. 水利水电科技进展, 2019, 39(2): 12-15, 36.
    [22] BROWN M T, ULGIATI S. Assessing the global environmental sources driving the geobiosphere: a revised emergy baseline[J]. Ecological modelling, 2016, 339: 126-132.
    [23] 武文婷, 夏国元, 包志毅. 杭州市城市绿地固碳释氧价值量评估[J]. 中国园林, 2016, 32(3): 117-121.
    [24] MEILLAUD F, GAY J B, BROWN M T. Evaluation of a building using the emergy method[J]. Solar energy, 2005, 79(2): 204-212.
    [25] LEE J M, BRAHAM W W. Building emergy analysis of Manhattan: density parameters for high-density and high-rise developments[J]. Ecological modelling, 2017, 363: 157-171.
    [26] BASTIANONI S, CAMPBELL D, SUSANI L, et al. The solar transformity of oil and petroleum natural gas[J]. Ecological modelling, 2005, 186(2): 212-220.
    [27] HUANG S L, CHEN C W. Theory of urban energetics and mechanisms of urban development[J]. Ecological modelling, 2005, 189(1/2): 49-71.
    [28] LIU C, LIU G, YANG Q. An emergy-based assessment of the impact of dam construction on river ecosystem service values: a case study of the Three Gorges Dam[J]. Journal of environmental accounting and management, 2019, 7(3): 337-361.
    [29] 王金杰, 赵安周, 胡小枫. 京津冀植被净初级生产力时空分布及自然驱动因子分析[J]. 生态环境学报, 2021, 30(6): 1158-1167.
    [30] 中国环境与发展国际合作委员会. 绿色转型与可持续社会治理[EB/OL]. (2021-09-17)[2021-11-25]. http://www.cciced.net/zcyj/yjbg/zcyjbg/.

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