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清华大学学报(自然科学版)  2022, Vol. 62 Issue (8): 1366-1373    DOI: 10.16511/j.cnki.qhdxxb.2022.25.044
  工程管理 本期目录 | 过刊浏览 | 高级检索 |
水利水电工程全生命周期碳排放研究——以犬木塘工程为例
黄跃群1,2, 刘耀儒1, 许文彬3, 黎军锋4
1. 清华大学 水沙科学与水利水电工程国家重点实验室, 北京 100084;
2. 湘水集团湖南省水利发展投资有限公司, 长沙 410007;
3. 湖南农业大学 水利与土木工程学院, 长沙 410128;
4. 湖南省水利厅, 长沙 410007
Life cycle carbon emissions of water reservoir and hydroelectric projects: A case study of the Quanmutang project
HUANG Yuequn1,2, LIU Yaoru1, XU Wenbin3, LI Junfeng4
1. State Key Laboratory of Hydroscience and Engineering, Tsinghua University, Beijing 100084, China;
2. Hunan Provincial Water Resources Development & Investment Co., Ltd., Changsha 410007, China;
3. College of Water Resources & Civil Engineering, Hunan Agricultural University, Changsha 410128, China;
4. Department of Water Resources of Hunan Province, Changsha 410007, China
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摘要 水利水电工程具有多种功能,发挥着各方面效益,在“双碳”战略中扮演着重要角色,但目前针对水利水电工程全生命周期碳排放的研究还较少。该文以湖南省犬木塘工程为样本,基于生命周期评价理论,提出了水利水电工程碳排放量的分组计算方法,对碳排放进行了核算和分析。研究表明,此计算方法简单准确,更适用于水利水电工程。计算结果显示,犬木塘建设和运行阶段总体碳排放风险可控,并依据其碳排放特点,提出了注重设计优化、研发绿色建材、加快智慧化、强化减排理念等降低碳排放的策略。
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黄跃群
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许文彬
黎军锋
关键词 水利水电工程碳排放全生命周期分析犬木塘    
Abstract:Water reservoirs and hydroelectric projects have many functions that produce great benefits that will play an important role in the "double carbon" strategy. However, there are few studies on the life cycle carbon emissions of hydropower and reservoir projects. This study uses the Quanmutang project in Hunan Province as an example to apply life cycle assessment theory and the carbon emissions grouping calculational method which is more suitable for reservoirs and hydroelectric projects. The carbon emission calculations show that the overall carbon emissions during the construction and operating phases of the Quanmutang project are controllable. This study then considers the carbon emission characteristics to present some strategies to reduce the carbon emissions, such as design optimization, developing green building materials, accelerating intellectualization and strengthening the emission reductions.
Key wordswater reservoirs and hydroelectric projects    carbon emissions    life cycle analysis    Quanmutang
收稿日期: 2022-02-07      出版日期: 2022-04-19
基金资助:国家自然科学基金项目(52009040)
通讯作者: 刘耀儒,教授,E-mail:liuyaoru@tsinghua.edu.cn      E-mail: liuyaoru@tsinghua.edu.cn
作者简介: 黄跃群(1986—),男,博士研究生,高级工程师。
引用本文:   
黄跃群, 刘耀儒, 许文彬, 黎军锋. 水利水电工程全生命周期碳排放研究——以犬木塘工程为例[J]. 清华大学学报(自然科学版), 2022, 62(8): 1366-1373.
HUANG Yuequn, LIU Yaoru, XU Wenbin, LI Junfeng. Life cycle carbon emissions of water reservoir and hydroelectric projects: A case study of the Quanmutang project. Journal of Tsinghua University(Science and Technology), 2022, 62(8): 1366-1373.
链接本文:  
http://jst.tsinghuajournals.com/CN/10.16511/j.cnki.qhdxxb.2022.25.044  或          http://jst.tsinghuajournals.com/CN/Y2022/V62/I8/1366
  
  
  
  
  
  
  
  
  
  
[1] 国务院. 中共中央、国务院关于完整准确全面贯彻新发展理念做好碳达峰碳中和工作的意见[N]. 人民日报, 2021-10-25(001).The Communist Party of China Central Committee and The State Council. The State Council. The Communist Party of China Central Committee and the State Council:Working guidance for carbon dioxide peaking and carbon neutrality in full and faithful implementation of the new development philosophy[N]. People's Daily, 2021-10-25(001). http://english.www.gov.cn/policies/latestreleases/202110/25/content_WS61760047c6d0df57f98e3c21.html. (in Chinese)
[2] 国务院. 2030年前碳达峰行动方案[N]. 人民日报, 2021-10-27(007). The State Council. Action plan for carbon dioxide peaking before 2030[N]. People's Daily, 2021-10-27(007). (in Chinese)
[3] 国务院新闻办公室. 中国应对气候变化的政策与行动白皮书[R/OL].[2021-10-27]. http://www.gov.cn/zhengce/2021-10/27/content_5646697.htm. The State Council Information Office of the People's Republic of China. Responding to Climate Change:China's Policies and Actions[R/OL].[2021-10-27]. http://www.gov.cn/zhengce/2021-10/27/content_5646697.htm. (in Chinese)
[4] FEARNSIDE P M. Hydroelectric dams in the Brazilian Amazon as sources of ‘greenhouse’ gases[J]. Environmental Conservation, 1995, 22(1):7-19.
[5] 庞博慧. 基于碳足迹理论的水电枢纽工程能耗分析研究[D]. 天津:天津大学, 2014. PANG B H. Energy consumption analysis of hydropower projects based on carbon footprint theory[D]. Tianjin:Tianjin University, 2014. (in Chinese)
[6] 郑巧珍. 水电工程建造阶段碳足迹评价研究[D]. 大连:大连理工大学, 2018. ZHENG Q Z. The carbon footprint evaluation of hydropower projects during construction phase[D]. Dalian:Dalian University of Technology, 2018. (in Chinese)
[7] WIEDMANN T, MINX J. A definition of ‘carbon footprint’[M]//PERTSOVA C C. Ecological economics research trends:Chapter 1. Hauppauge, USA:Nova Science Publishers, 2008.
[8] LIU C N, AHN C R, AN X H, et al. Life-cycle assessment of concrete dam construction:Comparison of environmental impact of rock-filled and conventional concrete[J]. Journal of Construction Engineering and Management, 2013, 139(12):A4013009.
[9] 柳春娜. 基于生命周期的混凝土大坝碳排放评价方法研究[D]. 北京:清华大学, 2013. LIU C N. Research on evaluating methods for carbon emissions of concrete dams based on life cycle assessment[D]. Beijing:Tsinghua University, 2013. (in Chinese)
[10] 杜海龙. 金沙江大型水电站碳足迹的生命周期分析研究[D]. 重庆:中国科学院大学(中国科学院重庆绿色智能技术研究院), 2017. DU H L. Carbon footprint of typical hydro-projects in Jinsha river[D]. Chongqing:Chongqing Institute of Green and Intelligent Technology Chinese Academy of Sciences, 2017. (in Chinese)
[11] 杨梦斐, 李兰. 水力发电的生命周期温室气体排放[J]. 武汉大学学报(工学版), 2013, 46(1):41-45. YANG M F, LI L. Life cycle greenhouse gas emission analysis of hydropower systems[J]. Engineering Journal of Wuhan University, 2013, 46(1):41-45. (in Chinese)
[12] 夏欣, 钟权. 水电站生命周期温室气体排放研究综述[J]. 中国农村水利水电, 2020(11):188-192, 198. XIA X, ZHONG Q. Research overview of life cycle greenhouse gas emissions from hydropower plants[J]. China Rural Water and Hydropower, 2020(11):188-192, 198. (in Chinese)
[13] 钟权, 夏欣. 基于生命周期的猴子岩水电站温室气体排放分析[J]. 水电站设计, 2021, 37(1):81-84. ZHONG Q, XIA X. Analysis on greenhouse gas emission at Houziyan hydropower station based on life cycle theory[J]. Design of Hydroelectric Power Station, 2021, 37(1):81-84. (in Chinese)
[14] 水利部水利建设经济定额站. 水利工程设计概(估)算编制规定[M]. 北京:中国水利水电出版社, 2015. Ministry of Water Resources Water Conservancy Construction Economic Quota Station. Regulations on the compilation of general (estimation) calculations for hydraulic engineering design[M]. Beijing:China Water & Power Press, 2015. (in Chinese)
[15] 陈康海. 建筑工程施工阶段的碳排放核算研究[D]. 广州:广东工业大学, 2014. CHEN K H. Research on quantitative assessment method of GHG emission for construction projects[D]. Guangzhou:Guangdong University of Technology, 2014. (in Chinese)
[16] 何坤, 钟权. 玉瓦水电站生命周期温室气体排放研究[J]. 四川水力发电, 2020, 39(2):115-118. HE K, ZHONG Q. Study on greenhouse gas emission in the lifecycle of Yuwa hydropower station[J]. Sichuan Water Power, 2020, 39(2):115-118. (in Chinese)
[17] 马海忠. 中国几种主要能源温室气体排放系数的比较评价研究[D]. 北京:中国原子能科学研究院, 2002. MA H Z. Comparative evaluation of greenhouse gas emission coefficients of several major energy sources in China[D]. Beijing:China Institute of Atomic Energy, 2002. (in Chinese)
[18] 张孝存. 建筑碳排放量化分析计算与低碳建筑结构评价方法研究[D]. 哈尔滨:哈尔滨工业大学, 2018. ZHANG X C. Research on the quantitative analysis of building carbon emissions and assessment methods for low-carbon buildings and structures[D]. Harbin:Harbin Institute of Technology, 2018. (in Chinese)
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