Volume 13 Issue 1
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GU B J,ZHAO H X,LUO X L,et al.Research progress and prospect of collaborative reduction of pollution and carbon dioxide based on bibliometrics[J].Journal of Environmental Engineering Technology,2023,13(1):85-95 doi: 10.12153/j.issn.1674-991X.20210780
Citation: GU B J,ZHAO H X,LUO X L,et al.Research progress and prospect of collaborative reduction of pollution and carbon dioxide based on bibliometrics[J].Journal of Environmental Engineering Technology,2023,13(1):85-95 doi: 10.12153/j.issn.1674-991X.20210780

Research progress and prospect of collaborative reduction of pollution and carbon dioxide based on bibliometrics

doi: 10.12153/j.issn.1674-991X.20210780
  • Received Date: 2021-12-01
  • Collaborative reduction of pollution and carbon dioxide is the key way to promote ecological civilization construction in China. Therefore, the analysis of domestic and foreign research hotspots and trends provides a reference for the theoretical research and practical paths of China's collaborative emission reduction governance. CiteSpace was used to sort out and analyze Chinese and English literature of WoS and CNKI, respectively, and the development trend of research in this field was explored. The results showed that the number of papers in this field was on the rise and had specific periodical differences. The United States and China had the largest number of publications, while other publications were mainly from developed countries in Europe and East Asia. In addition to more articles published in environmental science journals, foreign energy journals are more influential, while domestic economic and management journals are more influential. Foreign and domestic studies focus on strategies and policies in this field and their effect evaluation, in addition to foreign studies focusing on emission simulation and domestic studies focusing on mechanism construction in specific industries and regions. The focus of future research should be to comprehensively consider the background of regional collaborative development and the impact mechanism of multiple environmental policies, and to study the paths and policy system of collaborative reduction of pollution and carbon dioxide.

     

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  • [1]
    易兰, 赵万里, 杨历.大气污染与气候变化协同治理机制创新[J]. 科研管理,2020,41(10):134-144.

    YI L, ZHAO W L, YANG L. Innovation of collaborative governance mechanism on air pollution and climate change control[J]. Science Research Management,2020,41(10):134-144.
    [2]
    朱妍. 中国工程院院士王金南: 协同推进减污降碳势在必行[N]. 中国能源报, 2021-09-20(2).
    [3]
    郑逸璇, 宋晓晖, 周佳, 等.减污降碳协同增效的关键路径与政策研究[J]. 中国环境管理,2021(5):45-51.

    ZHENG Y X, SONG X H, ZHOU J, et al. Synergetic control of environmental pollution and carbon emissions: pathway and policy[J]. Chinese Journal of Environmental Management,2021(5):45-51.
    [4]
    孙金龙, 黄润秋.建设人与自然和谐共生的现代化[J]. 环境保护,2021,49(5):8-9.

    SUN J L, HUANG R Q. Constructing the modernization of harmonious coexistence between man and nature[J]. Environmental Protection,2021,49(5):8-9.
    [5]
    黄润秋.深入贯彻落实党的十九届五中全会精神 协同推进生态环境高水平保护和经济高质量发展[J]. 环境保护,2021,49(增刊1):13-21.
    [6]
    PRITCHAED A. Statistical bibliography or bibliometrics[J]. Journal of Documentation,1969,1(25):348-349.
    [7]
    朱亮, 孟宪学.文献计量法与内容分析法比较研究[J]. 图书馆工作与研究,2013(6):64-66. doi: 10.3969/j.issn.1005-6610.2013.06.017

    ZHU L, MENG X X. The comparative study on bibliometric method and content analysis method[J]. Library Work and Study,2013(6):64-66. doi: 10.3969/j.issn.1005-6610.2013.06.017
    [8]
    鲍健强, 苗阳, 陈锋.低碳经济: 人类经济发展方式的新变革[J]. 中国工业经济,2008,241(4):153-160.

    BAO J Q, MIAO Y, CHEN F. Low carbon economy: revolution in the way of human economic development[J]. China Industrial Economics,2008,241(4):153-160.
    [9]
    李丽平, 周国梅.切莫忽视污染减排的协同效应[J]. 环境保护,2009,37(24):36-38.
    [10]
    GURJAR B R, BUTLER T M, LAWRENCE M G, et al. Evaluation of emissions and air quality in megacities[J]. Atmospheric Environment,2008,42(7):1593-1606. doi: 10.1016/j.atmosenv.2007.10.048
    [11]
    陈迎.英国促进企业减排的激励措施及其对中国的借鉴[J]. 气候变化研究进展,2006,2(4):197-201.

    CHEN Y. UK's incentives to promote emissions reduction in business sector and their relevance to China[J]. Advances in Climate Change Research,2006,2(4):197-201.
    [12]
    UHEREK E, HALENKA T, BORKEN-KLEEFELD J, et al. Transport impacts on atmosphere and climate: land transport[J]. Atmospheric Environment,2010,44(37):4772-4816. doi: 10.1016/j.atmosenv.2010.01.002
    [13]
    ZHOU K L, YANG S L, SHEN C, et al. Energy conservation and emission reduction of China's electric power industry[J]. Renewable and Sustainable Energy Reviews,2015,45(45):10-19.
    [14]
    周颖, 张宏伟, 蔡博峰, 等.水泥行业常规污染物和二氧化碳协同减排研究[J]. 环境科学与技术,2013,36(12):164-168.

    ZHOU Y, ZHANG H W, CAI B F, et al. Synergetic reduction of local pollutants and CO2 from cement industry[J]. Environmental Science & Technology,2013,36(12):164-168.
    [15]
    NAM K M, WAUGH C J, PALTSEV S, et al. Carbon co-benefits of tighter SO2 and NOx regulations in China[J]. Global Environmental Change,2013,23(6):1648-1661. doi: 10.1016/j.gloenvcha.2013.09.003
    [16]
    BEREZNICKI S D, SOBUS J R, VETTE A F, et al. Assessing spatial and temporal variability of VOCs and PM-components in outdoor air during the Detroit Exposure and Aerosol Research Study (DEARS)[J]. Atmospheric Environment,2012,61:159-168.
    [17]
    XU B and LIN B Q. Reducing carbon dioxide emissions in China's manufacturing industry: a dynamic vector autoregression approach[J]. Journal of Cleaner Production,2016,131:594-606.
    [18]
    唐湘博, 陈晓红.区域大气污染协同减排补偿机制研究[J]. 中国人口·资源与环境,2017,27(9):76-82.

    TANG X B, CHEN X H. Mechanism of regional atmospheric pollution collaborative reduction compensation[J]. China Population, Resources and Environment,2017,27(9):76-82.
    [19]
    LIU L, WANG K, WANG S S, et al. Assessing energy consumption, CO2 and pollutant emissions and health benefits from China's transport sector through 2050[J]. Energy Policy,2018,116:382-396. doi: 10.1016/j.enpol.2018.02.019
    [20]
    费伟良, 李奕杰, 杨铭, 等.碳达峰和碳中和目标下工业园区减污降碳路径探析[J]. 环境保护,2021,49(8):61-63. doi: 10.14026/j.cnki.0253-9705.2021.08.013

    FEI W L, LI Y J, YANG M, et al. Analysis of the synergistic path to reduce pollution and carbon in industrial parks under carbon peak and carbon neutrality targets[J]. Environmental Protection,2021,49(8):61-63. doi: 10.14026/j.cnki.0253-9705.2021.08.013
    [21]
    陈悦, 陈超美, 刘则渊, 等.CiteSpace知识图谱的方法论功能[J]. 科学学研究,2015,33(2):242-253.

    CHEN Y, CHEN C M, LIU Z Y, et al. The methodology function of CiteSpace mapping knowledge domains[J]. Studies in Science of Science,2015,33(2):242-253.
    [22]
    毛显强, 曾桉, 邢有凯, 等.从理念到行动: 温室气体与局地污染物减排的协同效益与协同控制研究综述[J]. 气候变化研究进展,2021,17(3):255-267.

    MAO X Q, ZENG A, XING Y K, et al. From concept to action: a review of research on co-benefits and co-control of greenhouse gases and local air pollutants reductions[J]. Climate Change Research,2021,17(3):255-267.
    [23]
    VAN VUUREN D P, COFALA J, EERENS H E, et al. Exploring the ancillary benefits of the Kyoto Protocol for air pollution in Europe[J]. Energy Policy,2006,34(4):444-460. doi: 10.1016/j.enpol.2004.06.012
    [24]
    RAMANATHAN V, XU Y Y. The Copenhagen Accord for limiting global warming: criteria, constraints, and available avenues[J]. Proceedings of the National Academy of Sciences,2010,107(18):8055-8062. doi: 10.1073/pnas.1002293107
    [25]
    VANDYCK T, KERAMIDAS K, KITOUS A, et al. Air quality co-benefits for human health and agriculture counterbalance costs to meet Paris Agreement pledges[J]. Nature Communications,2018,9(21):1345-1422.
    [26]
    RAZMJOO A, KAIGUTHA L G, RAD M A V, et al. A technical analysis investigating energy sustainability utilizing reliable renewable energy sources to reduce CO2 emissions in a high potential area[J]. Renewable Energy,2021,164:46-57.
    [27]
    WU P C, GUO F, CAI B F, et al. Co-benefits of peaking carbon dioxide emissions on air quality and health, a case of Guangzhou, China[J]. Journal of Environmental Management,2021,282:111796.
    [28]
    任亚运, 傅京燕.碳交易的减排及绿色发展效应研究[J]. 中国人口·资源与环境,2019,29(5):11-20.

    REN Y Y, FU J Y. Research on the effect of carbon emissions trading on emission reduction and green development[J]. China Population, Resources and Environment,2019,29(5):11-20.
    [29]
    OKORN K, JIMENEZ A, COLLIER-OXANDALE A, et al. Characterizing methane and total non-methane hydrocarbon levels in Los Angeles communities with oil and gas facilities using air quality monitors[J]. Science of the Total Environment,2021,777:146194.
    [30]
    KIRCHSTETTER T W, PREBLE C V, HADLEY O L, et al. Large reductions in urban black carbon concentrations in the United States between 1965 and 2000[J]. Atmospheric Environment,2017,151:17-23.
    [31]
    高庆先, 高文欧, 马占云, 等.大气污染物与温室气体减排协同效应评估方法及应用[J]. 气候变化研究进展,2021,17(3):268-278.

    GAO Q X, GAO W O, MA Z Y, et al. The synergy effect assessment method and its application for air pollutants and greenhouse gases reduction[J]. Climate Change Research,2021,17(3):268-278.
    [32]
    McPHAIL A, GRIFFIN R, EL-HALWAGI M, et al. Environmental, economic, and energy assessment of the ultimate analysis and moisture content of municipal solid waste in a parallel co-combustion process[J]. Energy & Fuels,2014,28(2):1453-1462.
    [33]
    李薇, 汤烨, 徐毅, 等.城市污水处理行业污染物减排与CO2协同控制研究[J]. 中国环境科学,2014,34(3):681-687.

    LI W, TANG Y, XU Y, et al. Pollutant mitigation and synergistic control of CO2 in sewage treatment system[J]. China Environmental Science,2014,34(3):681-687.
    [34]
    顾阿伦, 滕飞, 冯相昭.主要部门污染物控制政策的温室气体协同效果分析与评价[J]. 中国人口·资源与环境,2016,26(2):10-17. doi: 10.3969/j.issn.1002-2104.2016.02.002

    GU A L, TENG F, FENG X Z. Assessment and analysis on co-benefits of pollution control and greenhouse gases emission reduction in key sectors[J]. China Population, Resources and Environment,2016,26(2):10-17. doi: 10.3969/j.issn.1002-2104.2016.02.002
    [35]
    XU B, LIN B Q. Regional differences in the CO2 emissions of China's iron and steel industry: regional heterogeneity[J]. Energy Policy,2016,88(88):422-434.
    [36]
    ZHENG C Y, ZHANG H R, CAI X R, et al. Characteristics of CO2 and atmospheric pollutant emissions from China's cement industry: a life-cycle perspective[J]. Journal of Cleaner Production,2020,282(7):124533.
    [37]
    李媛媛, 王敏燕, 李丽平, 等.无水印刷技术协同减排污染物与温室气体案例评估[J]. 气候变化研究进展,2021,17(3):289-295.

    LI Y Y, WANG M Y, LI L P, et al. Assessment of emission co-reduction of pollutants and greenhouse gases by waterless printing technology[J]. Climate Change Research,2021,17(3):289-295.
    [38]
    沈岩, 武彤冉, 闫静, 等.基于COPERT模型北京市机动车大气污染物和二氧化碳排放研究[J]. 环境工程技术学报,2021,11(6):1075-1082. doi: 10.12153/j.issn.1674-991X.20210289

    SHEN Y, WU T R, YAN J, et al. Investigation on air pollutants and carbon dioxide emissions from motor vehicles in Beijing based on COPERT model[J]. Journal of Environmental Engineering Technology,2021,11(6):1075-1082. doi: 10.12153/j.issn.1674-991X.20210289
    [39]
    阿迪拉·阿力木江, 蒋平, 董虹佳, 等.推广新能源汽车碳减排和大气污染控制的协同效益研究: 以上海市为例[J]. 环境科学学报,2020,40(5):1873-1883.

    ALIMUJIANG A, JIANG P, DONG H J, et al. Synergy and co-benefits of reducing CO2 and air pollutant emissions by promoting new energy vehicles: a case of Shanghai[J]. Acta Scientiae Circumstantiae,2020,40(5):1873-1883.
    [40]
    WANG H H, CAO R X, ZENG W H. Multi-agent based and system dynamics models integrated simulation of urban commuting relevant carbon dioxide emission reduction policy in China[J]. Journal of Cleaner Production,2020,272:122620.
    [41]
    YU Y, LIU H R. Economic growth, industrial structure and nitrogen oxide emissions reduction and prediction in China[J]. Atmospheric Pollution Research,2020,11(7):1042-1050. doi: 10.1016/j.apr.2020.03.011
    [42]
    王涵, 李慧, 王涵, 等. 我国减污降碳与地区经济发展水平差异研究[J]. 环境工程技术学报, 2022, 12(5): 1584-1592.

    WANG H, LI H, WANG H, et al. Research on the difference in air pollution and carbon dioxide reduction and regional economic development levels in China[J]. Journal of Environmental Engineering Technology, 2022, 12(5): 1584-1592.
    [43]
    董战峰, 周佳, 毕粉粉, 等.应对气候变化与生态环境保护协同政策研究[J]. 中国环境管理,2021,13(1):25-34. doi: 10.16868/j.cnki.1674-6252.2021.01.025

    DONG Z F, ZHOU J, BI F F, et al. Research on synergistic policy of climate change and ecological environment protection[J]. Chinese Journal of Environmental Management,2021,13(1):25-34. doi: 10.16868/j.cnki.1674-6252.2021.01.025
    [44]
    CHEN W T, HU Z H. Using evolutionary game theory to study governments and manufacturers' behavioral strategies under various carbon taxes and subsidies[J]. Journal of Cleaner Production,2018,201(201):123-141.
    [45]
    CHAN Y T. Are macroeconomic policies better in curbing air pollution than environmental policie: a DSGE approach with carbon-dependent fiscal and monetary policies[J]. Energy Policy,2020,141:111454.
    [46]
    王涵, 马军, 陈民, 等. 减污降碳协同多元共治体系需求及构建探析[J]. 环境科学研究, 2022, 35(4): 936-944.

    WANG H, MA J, CHEN M, et al. Analysis of needs and construction of coordinated multi-governance system for pollution reduction and carbon reduction[J]. Research of Environmental Sciences, 2022, 35(4): 936-944.
    [47]
    耿静, 任丙南, 吕永龙, 等.海南省淘汰落后产能政策的污染物协同减排效应评价[J]. 环境科学,2016,37(6):2401-2408. doi: 10.13227/j.hjkx.2016.06.051

    GENG J, REN B N, LÜ Y L, et al. Estimation of co-benefits from pollution emission reduction by eliminating backward production capacities in Hainan Province[J]. Environmental Science,2016,37(6):2401-2408. doi: 10.13227/j.hjkx.2016.06.051
    [48]
    汪明月, 刘宇, 李梦明, 等.区域碳减排能力协同度评价模型构建与应用[J]. 系统工程理论与实践,2020,40(2):470-483. doi: 10.12011/1000-6788-2018-0901-14

    WANG M Y, LIU Y, LI M M, et al. Construction and application of evaluation model for coordinated degree of regional carbon emission[J]. Systems Engineering- Theory & Pratice,2020,40(2):470-483. doi: 10.12011/1000-6788-2018-0901-14
    [49]
    ZYSK J, WYRWA A, SUWALA W, et al. The impact of decarbonization scenarios on air quality and human health in Poland: analysis of scenarios up to 2050[J]. Atmosphere,2020(11):1222. doi: 10.3390/atmos11111222
    [50]
    MUJTABA G, SHAHZAD S J H. Air pollutants, economic growth and public health: implications for sustainable development in OECD countries[J]. Environmental Science and Pollution Research,2020,28(10):12686-12698.
    [51]
    XU M, QIN Z F, ZHANG S H. Carbon dioxide mitigation co-effect analysis of clean air policies: lessons and perspectives in China's Beijing-Tianjin-Hebei Region[J]. Environmental Research Letters,2020,16(1):015006.
    [52]
    REN F R, TIAN Z, PAN J J, et al. Cross-regional comparative study on energy efficiency evaluation in the Yangtze River Basin of China[J]. Environmental Science and Pollution Research,2020,27(2):1-15.
    [53]
    LI X, LI Y P. A multi-scenario ensemble simulation and environmental input-output model for identifying optimal pollutant- and CO2-emission mitigation scheme of Guangdong Province[J]. Journal of Cleaner Production,2020,262:121413.
    [54]
    邢有凯, 毛显强, 冯相昭, 等.城市蓝天保卫战行动协同控制局地大气污染物和温室气体效果评估: 以唐山市为例[J]. 中国环境管理,2020,12(4):20-28.

    XING Y K, MAO X Q, FENG X Z, et al. An effectiveness evaluation of co-controlling local air pollutants and GHGs by implementing blue sky defense action at city level: a case study of Tangshan City[J]. Chinese Journal of Environmental Management,2020,12(4):20-28.
    [55]
    ZHANG W W, ZHAO B, GU Y, et al. Environmental impact of national and subnational carbon policies in China based on a multi-regional dynamic CGE model[J]. Journal of Environmental Management,2020,270:1-9. ⊗
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