RESEARCH ON CARBON DIOXIDE EMISSION PEAKING IN THE YANGTZE RIVER DELTA URBAN AGGLOMERATION
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摘要: 利用柯布-道格拉斯函数,结合新冠肺炎疫情对中国GDP的影响,预测了2025年长三角城市群CO2排放量,基于历史和未来长三角CO2排放情况,通过CO2排放达峰判断方法,对长三角城市群41个城市达峰进行判断。结果表明:上海市,江苏省南京市、苏州市、无锡市、常州市、镇江市,浙江省杭州市、嘉兴市、湖州市、宁波市、温州市,安徽省池州市、黄山市、芜湖市等城市已经具备达峰的条件,建议这些城市在"十四五"期间提出达峰行动方案,探索CO2排放总量控制制度。Abstract: By utilizing the Cobb Douglas function and the impact of COVID-19 pandemic on GDP in China,the carbon dioxide emissions of the Yangtze River Delta urban agglomeration in 2025 were predicted. Based on historical trends and future projections of carbon dioxide emissions in the Yangtze River Delta, and integrated with relevant judgement criteria, the peaking of carbon dioxide emissions was evaluated for 41 cities in the Yangtze River Delta urban agglomeration. The results showed that some cities including Shanghai, Jiangsu (Nanjing, Suzhou, Wuxi, Changzhou, Zhenjiang), Zhejiang (Hangzhou, Jiaxing, Huzhou, Ningbo, Wenzhou), Anhui (Chizhou, Huangshan, Wuhu) were already qualified for reaching the emission peak. It was recommended that these cities came up with action plans to reach the peak during the 14th Five-Year Plan period and researched the mechanisms to control the carbon dioxide emissions.
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Key words:
- COVID-19 /
- Yangtze River Delta /
- carbon dioxide /
- peaking
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LE QUÉRÉ C, JACKSON R B, JONES M W, et al. Temporary reduction in daily global CO2 emissions during the COVID-19 forced confinement[J]. Nature Climate Change, 2020:1-7. OECD. Economic Outlook[EB/OL]. http://www.oecd.org/economic-outlook/, 2020-3. 国务院. 强化应对气候变化行动:中国国家自主贡献(全文)[EB/OL]. http://www.scio.gov.cn/xwfbh/xwbfbh/wqfbh/2015/20151119/xgbd33811/Document/1455864/1455864.htm.[2015-11-18]. 国务院. "十三五"控制温室气体排放工作方案[EB/OL]. http://www.scio.gov.cn/xwfbh/xwbfbh/wqfbh/39595/42117/xgzc42123/Document/1668860/1668860.htm.[2016-10-27]. 赵亚涛,南新元,贾爱迪.基于情景分析法的煤电行业碳排放峰值预测[J].环境工程,2018,36(12):177-181. 袁长伟,乔丹,杨颖芳,等.中国省域交通碳排放强度空间分异与聚类分析[J].环境工程,2018,36(7):185-190. 白静,曲建升,韦沁,等.我国城乡住宅建筑物化阶段碳排量现状与趋势分析[J].环境工程,2016,34(10):161-165. MCKINSEY. Pathways to a low-carbon economy:Version 2 of the global greenhouse gas abatement cost curve[R]. Chicago, 2013. IEA (International Energy Agency). World Energy Outlook 2018. Organization For Economic Co-Operation & Development[R]. Paris, 2018. EIA (Energy Information Administration), International Energy Outlook 2016(No. DOE/EIA-0484(2016))[R]. Washington, DC, 2016. WANG K J. China's CO2 peak before 2030 implied from characteristics and growth of cities[J]. Nature Sustainability, 2019, 2:748-754. 侯纲.城市建设领域的碳减排措施[J].环境工程,2012,30(4):114-117,109. 郭春梅,楚尚玲,由玉文,等.绿色居住建筑运营阶段碳排放量化指标计算与分析[J].环境工程,2017,35(11):168-172. 王继龙, 左晓利, 刘觅颖. 北京市碳排放达峰的思考[J]. 理论与现代化, 2017(6):29-36. 孙维, 余卓君, 廖翠萍. 广州市碳排放达峰值分析[J]. 新能源进展, 2016, 4(3):246-252. 冯宗宪, 王安静. 陕西省碳排放因素分解与碳峰值预测研究[J]. 西南民族大学学报(人文社科版), 2016, 37(8):112-119. 陈丽君, 吴红梅, 范玲, 等. 浙江省碳排放峰值判断及其对策研究[J]. 中国能源, 2017, 39(4):43-47. WU C B, HUANG G H, XIN B G,et al. Scenario analysis of carbon emissions' anti-driving effect on Qingdao's energy structure adjustment with an optimization model, Part Ⅰ:carbon emissions peak value prediction[J]. Journal of Cleaner Production, 2018, 172:466-474. C40. 27 Cities Have Reached Peak Greenhouse Gas Emissions whilst Populations Increase and Economies Grow[EB/OL]. https://www.c40.org/press_releases/27-cities-have-reached-peak-greenhouse-gas-emissions-whilst-populations-increase-and-economies-grow. 2018[2020-05-14]. DONG F, WANG Y, SU B, et al. The process of peak CO2 emissions in developed economies:a perspective of industrialization and urbanization[J]. Resources Conservation and Recycling, 2019,141:61-75. 落基山研究所. 中国城市群碳排放达峰之路:机遇与探索[EB/OL].[2019-08-04]. https://www.efchina.org/Reports-zh/report-lccp-20190804-zh. GOMI K, SHIMADA K, MATSUOKA Y, et al. A low-carbon scenario creation method for a local-scale economy and its application in Kyoto city[J]. Energy Policy, 2010,38(9):4783-4796. 上海市人民政府. 上海市城市总体规划(2017-2035年)[R]. 上海, 2017. 国家气候战略中心. 推动部分区域碳排放率先达峰调研分析报告[R]. 北京, 2019. 无锡市人民政府. 无锡市控制温室气体排放实施方案(2018-2020年)[EB/OL]. http://www.wuxi.gov.cn/doc/2019/06/25/2575899.shtml.[2019-06-25]. 南通市人民政府. 南通市"十三五"控制温室气体排放工作方案[EB/OL]. http://www.nantong.gov.cn/ntsrmzf/szfbwj/content/f2e33797-a2d5-472b-a055-04f77a23430e.html.[2018-07-11]. 合肥市人民政府. 合肥市控制温室气体排放工作实施方案(2018-2020年)[EB/OL]. http://www.hefei.gov.cn/xxgk/szfgb/2018/dsh/szfbgtwjian/56309861.html.[2018-03-30]. 芜湖市人民政府. 芜湖市碳排放达峰行动计划(2017-2022年)[EB/OL]. http://www.0553esf.com/jsitea/2018/0103/633265.shtml.[2018-01-03]. IPCC. 2019 Refinement to the 2006 IPCC Guidelines for National Greenhouse Gas Inventory[R]. 2019. 国家发展改革委应对气候变化司.中国温室气体清单研究2005[M]. 北京:中国环境出版社, 2014. World Bank. Global Economic Prospects, June 2020[EB/OL]. https://openknowledge.worldbank.org/handle/10986/33748, 2020-06. IMF. World Economic Outlook Update, June 2020[EB/OL]. https://www.imf.org/en/Publications/WEO/Issues/2020/06/24/WEOUpdateJune2020, 2020-06. OECD. Coronavirus:The world economy at risk[EB/OL]. http://www.oecd.org/economic-outlook/march-2020/,[2020-03-02]. 尉奕阳. 标普:亚太经济注定衰退中国今年GDP增长预计2.9%[EB/OL]. http://finance.caixin.com/2020-03-18/101530383.html,[2020-03-18]. 倪浩. 彭博下调了中国经济增速至1.4% 激进预测引质疑[EB/OL]. https://finance.huanqiu.com/article/3xTpiQCN8rv,[2020-03-19]. Reuters. Goldman cuts Q1 GDP estimate for China, sees 9% contraction vs+2.5% earlier[EB/OL]. https://www.cnbc.com/2020/03/17/reuters-america-goldman-cuts-q1-gdp-estimate-for-china-sees-9-percent-contraction-vs-2-point-5-percent-earlier.html,[2020-03-17]. WRI (World Resources Institute). Mitigation Goal Standard[EB/OL]. http://www.ghgprotocol.org/mitigation-goal-standard, 2014. LEVIN K, RICH D. Turning Points:Trends in Countries'Reaching Peak Greenhouse Gas Emissions Over Time[R]. World Resources Institute, 2017. 中华人民共和国国家统计局[EB/OL]. http://www.stats.gov.cn/. CHEN Y D, GUO F, WANG J C, et al. Provincial and gridded population projection for China under shared socioeconomic pathways from 2010 to 2100[J]. Scientific Data, 2020, 7(1):1-13. 中国城市温室气体工作组. 中国城市温室气体排放数据(2015)[M]. 北京:中国环境出版集团,2018. 中国城市温室气体工作组. 中国城市温室气体排放数据(2018)[M]. 北京:中国环境出版集团,2019.
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