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Development of a Low Carbon Economy in Wuxi City

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DOI: 10.4236/ajcc.2012.12007    7,316 Downloads   17,208 Views   Citations

ABSTRACT

The development of a Low Carbon Economy is a vital instrument to encounter climate change and take into account the growing challenges of an increasing urbanization in China. Wuxi City in East China’s Jiangsu Province is starting to implement a Low Carbon City Plan for safeguarding a sustainable development of the city until 2020 and beyond. This paper aims at estimating the impact of the Low Carbon City plan for Wuxi’s energy demand and CO2-emissions until 2050. Using an econometric energy supply and demand model to estimate and forecast the Wuxi energy and CO2-balance aggregates until 2050, it compares a scenario without specific Low Carbon City measures to reduce sectoral CO2-intensities to a Low Carbon scenario implementing these measures according to the Low Carbon City Plan until 2020 and beyond. The decomposition of the Kaya-identity reveals that the increase of per capita income has the largest impact on the growth of CO2-emissions and the decrease of energy intensity of Gross Value Added the largest impact on the reduction of CO2-emissions in Wuxi. A decrease of population and CO2-intensity of Primary energy supply only have average contributions. The decrease of energy intensity of Gross Value Added is due to energy efficiency gains in the single economic sectors, but to a large extent due to structural changes of the economy away from energy intensive sectors such as iron and steel, chemical industry or cement industry towards the energy extensive service sectors. A growing residential sector also reduces the industrial share of energy demand. Only following the assumed national trend with a shift from CO2-intensive industries to a CO2-extensive service economy, the Low Carbon goal of a 50% reduction of CO2-intensity of Gross Value Added compared to 2005 cannot be reached in Wuxi. Specific sectoral CO2 -intensity goals have to be successfully observed by the economic sectors in Wuxi, especially by the industry. The promotion of combined heat and power generation also has to contribute to the specific activities in Wuxi.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

A. Oberheitmann, "Development of a Low Carbon Economy in Wuxi City," American Journal of Climate Change, Vol. 1 No. 2, 2012, pp. 64-103. doi: 10.4236/ajcc.2012.12007.

References

[1] IPCC, “Climate Change 2007. Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment Re-port of the Intergovernmental Panel on Climate Change,” IPCC, Geneva, 2007.
[2] E. Blanc, “The Impact of Climate Change on Crop Yields in Sub-Saharan Africa,” American Journal of Climate Change, Vol. 1, No. 1, 2012, pp. 1-13.
[3] M. Crabbe, “The Influence of Extreme Climate Events on Models of Coral Colony Recruitment and Survival in the Caribbean,” American Journal of Climate Change, Vol. 1, No. 1, 2012, pp. 33-40.
[4] Y. Latypov and N. Selin, “Changes of Reef Com-munity near Ku Lao Cham Islands (South China Sea) after Sangshen Typhoon,” American Journal of Climate Change, Vol. 1, No. 1, 2012, pp. 41-47.
[5] Q. Zhang, M. Xiao X. and Chen, “Regional Evaluations of the Meteorological Drought Characteristics across the Pearl River Basin, China,” American Journal of Climate Change, Vol. 1, No. 1, 2012, pp. 48-55.
[6] Wuppertal Institute for Climate, “Environment and Energy Sustainable Urban Infrastructure Munich Edition— Paths toward a Carbon-Free Future,” 2009. http://www.mobility.siemens.com/shared/data/pdf/www/corporate/sustainable_munich_2009_e.pdf
[7] S. Nader, “Paths to a Low-Carbon Economy—The Masdar Example,” Energy Pro-cedia, Vol. 1, No. 1, 2009, pp. 3951-3958. doi:10.1016/j.egypro.2009.02.199
[8] K. Shimada, Y. Tanaka, K. Gomi and Y. Matsuoka, “Developing a Long-Term Local Society Design Methodology towards a Low-Carbon Economy: An application to Shiga Prefecture in Japan,” Energy Policy, Vol. 35, No. 9, 2007, pp. 4688-4703. doi:10.1016/j.enpol.2007.03.025
[9] C. J. Liu, B. M. Feng, “The Revelation of Low-Carbon Economy on the Construction of Wuhan City Circle ‘Two Type Society’ in China,” Chinese Population Resources and Environment, No. 5, 2009, pp. 16-21.
[10] Q. Bao, Y. Miao and F. Chen, “Low-Carbon Economy: A New Mode of Economic Development of Human Transformation,” China Industrial Economy, No. 4, 2008, pp. 153-160.
[11] LCFC, “Low Carbon Future Cities—A Sino-German Cooperation on an Integrated Climate and Re-source Proof Urban Development. WP 1 Report: Technical Definitions and Methodological Framework,” LCFC, Wuppertal, 2011.
[12] WLCDRC, “Wuxi Urban Low Carbon Develop-ment Strategy Plan,” Jiangnan University, Wuxi, 2010..
[13] Wuxi City Statistical Bureau, “Wuxi Statistical Yearbook,” China Statistical Press, Beijing, 2010.
[14] IEA, “World Energy Outlook 2011,” International Energy Agency, Paris, 2011.
[15] Z. D. Li, “An Econometric Study on China’s Economy, Energy and Environment to the Year 2030,” Energy Policy, Vol. 31, No. 11, 2003, pp. 1137-1150. doi:10.1016/S0301-4215(02)00219-7
[16] Q.Y Zhang, K. Asano and H.X. Yang, “Forecasting of Chinese Population, GDP, Energy Consumption and CO2 Emission for the 21st Century,” World Resource Review, Vol. 12, No. 4, 2000, pp. 660-668.
[17] P. S?derholm, “Modeling the Economic Costs of Climate Policy: An Overview,” American Journal of Climate Change, Vol. 1, No. 1, 2012, pp. 14-32.
[18] R. S. Pindyck and D. L. Rubinfeld, “Econometric Models and Economic Fore-casts,” Irwin/McGraw-Hill, Boston, 1998.
[19] D.A. Dickey and W.A Fuller, “Distribution of the Estimators for Autore-gressive Time Series with a Unit Root,” Journal of the Ameri-can Statistical Association, Vol. 74, 1979, pp. 427-431.
[20] “China Energy Statistical Yearbook,” China Statistical Press, Beijing, 2010.
[21] A. Oberheitmann and M. Frondel, “The Dark Side of China’s Increasing Economic Prosperity: Will Energy Consumption and Global Emissions Rise Dramatically?” In: R. Bleischwitz and O. Budzinski, Eds., INFER Annual Conference on Environmental Econom-ics—Institutions, Competition, Rationality, Wuppertal, 22-23 October 2004, pp. 207-224.
[22] K. C. Wu, “The Characteris-tics of an Aging Population, Trends and Countermeasures,” New Academic Forum, Vol. 3, 2008. http://web.cenet.org.cn/web/wdr1960/index.php3?file=detail.php3&nowdir=&id=105504
[23] K. J. Jiang, X. L. Hu, X. Zhuang, et al., “China’s Energy Demand and Greenhouse Gas Emission Scenarios in 2050,” Advances in Climate Change Research, Vol. 4, No. 5, 2008, pp. 296-302.
[24] BP, “BP Sta-tistical Review of World Energy,” 2011. http://www.bp.com/sectionbodycopy.do?categoryId=7500&contentId=7068481
[25] A. Oberheitmann, “A New Post-Kyoto Climate Regime Based on Per-Capita Cumulative Emissions Rights—Rationale, Architecture and Quantitative Assessment of the Implication for the CO2-Emissions from China, India and the Annex-I Countries by 2050,” Mitigation and Adaptation Strategies for Global Change, Vol. 15, No. 2, 2010, pp. 137-168. doi:10.1007/s11027-009-9207-4
[26] Y. Kaya, “Im-pact of Carbon Dioxide Emission Control on GNP Growth: Interpretation of Proposed Scenarios,” The IPCC Energy and Industry Subgroup, Response Strategies Working Group, Paris, 1990.

  
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