Exploration of the Development of Schemes to Achieve a District-Aggregate Energy-Intensity Goal - Taking the 12th Five-Year Period Energy Intensity Goal of Daxing District, Beijing as a Study Case

Xiang Qian Li; Li Juan Yang; Ling Ling Chen

doi:10.4028/www.scientific.net/AMR.962-965.1455

Paper Titles

Analysis of Impacting Factors of Regional Carbon Emissions Based on the STIRPAT Mode - A Case Study of Shaanxi Province
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Construction of the Decision Method Based on Energy Saving and Reduction of Greenhouse Gas Emissions
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Design of Carbon Efficient Online Logistics Networks
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Experimental Investigations on the Effects of Multi-Composite Naphthenates Fuel Additives on Diesel
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Exploration of the Development of Schemes to Achieve a District-Aggregate Energy-Intensity Goal - Taking the 12^th Five-Year Period Energy Intensity Goal of Daxing District, Beijing as a Study Case
p.1455

Provincial Energy Conservation Visual Potential Analysis Based on DEA Model
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Study on Influencing Factors of China’s Carbon Emission Rights Price
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Study on the Countermeasures of China’s Agricultural Products Export to Cope with Low Carbon Trade Barriers
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Study on the Gas Distribution Characters of the Outsize CO₂ Absorber of the Flue Gas in the Coal-Fired Power Plant
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 962-965Exploration of the Development of Schemes to...

Exploration of the Development of Schemes to Achieve a District-Aggregate Energy-Intensity Goal - Taking the 12^th Five-Year Period Energy Intensity Goal of Daxing District, Beijing as a Study Case

Abstract:

The paper explored how to develop schemes to achieve a district’s energy consumption per gross domestic product (ECPGDP) target. It first analysed the available measures regarding the reduction of ECPGDP. These measures include optimising the industrial structure, reducing the energy intensity of different industries, reducing the per capita residential energy consumption, and reducing the energy losses. Next, the procedure and methods of developing schemes to achieve the target ECPGDP were proposed. The procedure contains five steps: determine the target ECPGDP, predicting the initial value of the ECPGDP, analysing the availability of different measures of reducing the ECPGDP, forming the schemes of achieving the target, and summarising the proposed schemes. Finally, the paper considered the 12^th Five-Year period ECPGDP target of Daxing District, Beijing as a study case. In the case study, four quantitative schemes to achieve the target ECPGDP were considered.

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Periodical:

Advanced Materials Research (Volumes 962-965)

Pages:

1455-1460

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.962-965.1455

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Online since:

June 2014

Authors:

Xiang Qian Li*, Li Juan Yang, Ling Ling Chen

Keywords:

Energy Intensity, Energy Intensity Goal, Measure, scheme

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* - Corresponding Author

References

[1] Francois Lescaroux. Energy Policy. 2011, 39: 66-82.

Google Scholar

[2] XIA Yan, YANG Cui-hong, et al. Acta Scientiarum Naturalium Universitatis Pekinensis. 2010, 46(3): 442-448. (In Chinese).

Google Scholar

[3] TIAN Li-xin, LIU Jing. Journal of Nature Resources. 2010,. 25 (9): 1519-1524. (In Chinese).

Google Scholar

[4] Roberto Ezcurra. Energy Policy. 2007, 35: 5254-5259.

Google Scholar

[5] Juan Antonio Duro and Emilio Padilla. Energy Economics. 2011, 33: 474-479.

Google Scholar

[6] Juan Antonio Duro, Vicent Alcántara, et al. Ecological Economics. 2010, 69: 2468-2474.

Google Scholar

[7] SONG Feng, WANG Lili. Resources Science. 2012, 34(1): 13-19. (In Chinese).

Google Scholar

[8] Ian Sue Wing. Resources and Energy Economics. 2008, 30: 21-49.

Google Scholar

[9] José Goldemberg and LuizTadêo Siqueira Prado. Energy Policy. 2011, 39: 1802-1805.

Google Scholar

[10] María Mendiluce, Ignacio Pérez-Arriaga, et al. Energy Policy. 2010, 38: 639-645.

Google Scholar

[11] MIAO Zhuang, ZHOU Peng, et al. China Population Resources and Environment. 2013, 23(5): 58-64. (In Chinese).

Google Scholar

[12] Xiang-qian Li. Adanced Material Research Vols. 724-725(2103): 951-954.

Google Scholar

[13] Beijing Municipal Bureau of Statistics, NBS Survey Office in Beijing. Beijing Statistical Yearbook 2011. China Statistics Press. 2011, 8: 112. (In Chinese).

Google Scholar