Volume 9 Issue 6
Nov.  2019
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SHI Dandan, LUO Hong, LÜ Lianhong, YANG Zhanhong, PEI Yingying. Research on energy optimization development countermeasures of Jincheng City[J]. Journal of Environmental Engineering Technology, 2019, 9(6): 761-768. doi: 10.12153/j.issn.1674-991X.2019.06.120
Citation: SHI Dandan, LUO Hong, LÜ Lianhong, YANG Zhanhong, PEI Yingying. Research on energy optimization development countermeasures of Jincheng City[J]. Journal of Environmental Engineering Technology, 2019, 9(6): 761-768. doi: 10.12153/j.issn.1674-991X.2019.06.120
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Research on energy optimization development countermeasures of Jincheng City

doi: 10.12153/j.issn.1674-991X.2019.06.120

  • Chinese Research Academy of Environmental Sciences, Beijing 100012, China

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  • Corresponding author: Lianhong Lü E-mail: lvlh@craes.org.cn
  • Received Date: 2019-03-21
  • Publish Date: 2019-11-20
    Abstract
  • Energy consumption is closely related to the quality of the atmospheric environmental quality. Energy development countermeasures in Beijing-Tianjin-Hebei region and surrounding areas are of great significance for air pollution control. In order to improve the air quality of Jincheng City, the current situation and problems of energy development in the city were analyzed by unary linear regression analysis and comparative analysis. The results showed that the energy consumption structure of Jincheng City was dominated by coal, and the coal consumption in 2017 was 11.76 million tons, accounting for 76.2% of the primary energy consumption. However, the total coal consumption continued to decline. In 2017, the coal consumption decreased by 2.58 million tons compared with 2015, with its proportion in the primary energy consumption reduced by 14.7 percentage points. By 2020, the proportion of coal consumption would continue to decline, but it will still dominate, and the natural gas consumption would rise sharply. The total energy consumption of Jincheng City continued to increase but the growth rate declined; the energy consumption intensity was strong, but the energy efficiency level continued to increase. From the perspective of regional distribution, Zezhou County had the highest energy consumption and energy intensity, as well as a great potential for energy conservation. The proportion of energy consumption in chemical raw materials and chemical manufacturing, electricity-heat production and supply was 67%, and their energy intensities were much higher than that of the average values of the same industries in China. There was a large contribution to air pollutants coming from energy-related key sources such as civil combustion, electricity power, industrial boilers, etc. It was suggested that Jincheng City should strengthen energy conservation and pollutant emission reduction in key industries and essential areas by focusing on boiler transformation, energy engineering measures such as clean heating, coal reduction, energy structure measures such as development of renewable energy, energy and environmental economic policies, enterprise energy efficiency management, and other energy management measures to achieve sustainable development of local energy and environment.

     

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    • References(31)
  • [1]
    FANG Y P, ZENG Y . Balancing energy and environment:the effect and perspective of management instruments in China[J]. Energy, 2007,32(12):2247-2261.
    [2]
    马晓波 . 能源高效利用与改善大气环境[J]. 节能技术, 2003,21(3):34-36.

    MA X B . Utilizing energy with high efficient and improving atmosphere environment[J]. Energy Conservation Technology, 2003,21(3):34-36.
    [3]
    LIU Y, WU J, YU D , et al. Understanding the patterns and drivers of air pollution on multiple time scales:the case of Northern China[J]. Environmental Management, 2018,61(6):1-14.
    [4]
    LOTT M C, DODDS P E, PYE S . Quantifying the co-impacts of energy sector decarbonisation on outdoor air pollution in the United Kingdom[J]. Energy Policy, 2017,101:42-51.
    [5]
    ZHAO D, CHEN H, LI X , et al. Air pollution and its influential factors in China’s hot spots[J]. Journal of Cleaner Production, 2018,185:619-627.
    [6]
    刘刚, 沈镭 . 能源环境研究的理论、方法及其主要进展[J]. 地理科学进展, 2006,25(6):33-41.
    doi: 10.11820/dlkxjz.2006.06.004

    LIU G, SHEN L . Theories,methods and progress of energy-environment research[J]. Progress in Geography, 2006,25(6):33-41. doi: 10.11820/dlkxjz.2006.06.004
    [7]
    吕连宏, 韩霄, 罗宏 , 等. 煤炭消费与大气污染影响下的燃煤火电分区发展策略[J]. 环境科学研究, 2016,29(1):1-11.

    LÜ L H, HAN X, LUO H , et al. Regional strategies for developing coal-fired plants based on influences from coal consumption and air pollution control[J]. Research of Environmental Sciences, 2016,29(1):1-11.
    [8]
    YUAN X, MU R, ZUO J , et al. Economic development,energy consumption,and air pollution:a critical assessment in China[J]. Human and Ecological Risk Assessment:an International Journal, 2015,21(3):781-798.
    [9]
    周新 . 中国的能源消费和改善大气环境质量的战略分析[J].环境保护, 2003(7):47-51.

    ZHOU X . Strategic analysis on energy consumption and improvement of atmospheric environmental quality in China[J]. Environmental Protection, 2003(7):47-51.
    [10]
    郝吉明, 王丽涛, 李林 , 等. 北京市能源相关大气污染源的贡献率和调控对策分析[J]. 中国科学(D辑:地球科学), 2005,35(增刊1):115-122.
    [11]
    闫祯, 陈潇君 . 我国“十三五”能源与环境协同发展策略研究[J]. 环境与可持续发展, 2017,42(2):31-35.

    YAN Z, CHEN X J . Study on synergetic development strategy of energy and environment in the 13th Five-Year-Planning[J]. Environment and Sustainable Development, 2017,42(2):31-35.
    [12]
    雷宇, 陈潇君 . 基于大气环境质量改善的能源供给侧改革分析[J]. 环境保护, 2016,44(16):25-28.

    LEI Y, CHEN X J . Analysis on energy supply-side reform from perspective of air quality improvement[J]. Environmental Protection, 2016,44(16):25-28.
    [13]
    张肖一 . 北京市能源消费结构对空气质量影响研究[D]. 北京:首都经济贸易大学, 2017.
    [14]
    陈刚 . 能源型城市大气环境质量的评价研究[J].环境科学与技术, 2005(增刊2):89-90.

    CHEN G . Air quality assessment in energy cities[J]. Environmental Science & Technology, 2005(Suppl 2):89-90.
    [15]
    许亚宣, 李小敏, 于华通 , 等. 中原经济区能源消费视角下的大气环境压力评估[J]. 中国环境管理, 2016,8(5):63-69.

    XU Y X, LI X M, YU H T , et al. Atmospheric environmental pressure assessment under the perspective of energy consumption in central plains economic region[J]. Chinese Journal of Environmental Management, 2016,8(5):63-69.
    [16]
    吕连宏, 罗宏, 张型芳 . 近期中国大气污染状况、防治政策及对能源消费的影响[J]. 中国能源, 2015,37(8):9-15.
    [17]
    孟海贵, 田宇 . 低碳城镇化发展道路的实践与研究:以山西省晋城市为例[J].经济师, 2013(12):83-86.
    [18]
    牛晋鹏, 李敏, 刘玉祥 . 关于晋城市农村可再生能源服务体系建设的几点思考[J].农业工程技术(新能源产业), 2009(8):13-15.
    [19]
    郭治琛, 王新菊, 张大鹏 . 晋城市能源开发利用及节能减排情况[J].山西能源与节能, 2009(5):81-84.

    GUO Z C, WANG X J, ZHANG D P . Situation of energy development and energy conservation and emission reduction in Jincheng City[J]. Shanxi Energy and Conservation, 2009(5):81-84.
    [20]
    牛晋鹏, 李敏, 常家亮 . 浅谈晋城市清洁能源在“气化晋城”中遇到的困境与对策[J].农业工程技术(新能源产业), 2014(2):9-11.
    [21]
    元学会, 张璐, 古建云 . 山西省晋城市城区以沼气为主的清洁能源发展现状及应对措施[J].农业工程技术(新能源产业), 2013(9):27-30.
    [22]
    罗锦洪, 韩海忠 . 晋城市大气污染源排放清单编制技术报告[R]. 山西:山西省环境规划院, 2018.
    [23]
    晋城市统计局. 晋城市统计年鉴2018[M]. 北京: 中国统计出版社, 2018.
    [24]
    李晓丹, 魏玉瑞 . 北京市分区大气环境质量与能源消费关联性分析[J]. 中国能源, 2017,39(3):44-47.
    [25]
    李林, 郝吉明, 胡京南 . 北京市能源利用对空气质量的影响分析和预测[J]. 中国环境科学, 2005,25(6):746-750.

    LI L, HAO J M, HU J N . Analysis and prediction of air quality influence from energy utilization in Beijing[J]. China Environmental Science, 2005,25(6):746-750.
    [26]
    RAFINDADI A, YUSOF Z, ZAMAN K , et al. The relationship between air pollution,fossil fuel energy consumption,and water resources in the panel of selected Asia-Pacific countries[J]. Environmental Science & Pollution Research International, 2014,21(19):11395-11400.
    [27]
    BP经济学团队. BP世界能源统计年鉴2018[M]. 伦敦:BP集团, 2018.
    [28]
    何治, 袁九毅, 王颖 , 等. 优化能源结构改善兰州大气环境质量的研究[J].干旱区资源与环境, 2004(增刊2):32-35.

    HE Z, YUAN J Y, WANG Y , et al. Study on optimization of energy structure to improve air environmental quality[J]. Journal of Arid Land Resources and Environment, 2004(Suppl 2):32-35.
    [29]
    LIU Y, LU H, SHEN J , et al. Optimization-based provincial hybrid renewable and non-renewable energy planning:a case study of Shanxi,China[J]. Energy, 2017,128:839-856.
    [30]
    ÁLVAREZ-HERRANZ A, BALSALOBRE-LORENTE D, SHAHBAZ M , et al. Energy innovation and renewable energy consumption in the correction of air pollution levels[J]. Energy Policy, 2017,105:386-397.
    [31]
    魏巍贤, 赵玉荣 . 可再生能源电价补贴的大气环境效益分析[J]. 中国人口·资源与环境, 2017,27(10):209-216.

    WEI W X, ZHAO Y R . Analysis of feed-in tariff on atmospheric environmental benefits[J]. China Population Resources and Environment, 2017,27(10):209-216.
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