Heterogeneity of production technology, carbon dioxide emission and performance lose: An international comparison based on meta-frontier

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Science Research Management ›› 2014, Vol. 35 ›› Issue (10) : 41-48.

Wang Qunwei^1,2, Zhou Peng², Zhou Dequn²

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Abstract

Considering the heterogeneity of production technology, this paper proposes a new CO₂ emission performance index with meta-frontier and non-radial DEA. The performance lose is also decomposed theoretically. Based on this, the CO₂ emission performance in 58 emitters worldwide is measured for the 1995-2007 period. The conclusion includes:(1) The CO₂ emission performance is less, when meta-frontier is used as the basis, than that of group frontier. However, it can indicate the most potential to improve performance under the best technology. (2)The average CO₂ emission performance of European is better than America and Europe. Technology gap ratio in Asia, Europe and America demonstrate three different trends. (3) Technology gap and ineffective management both result in loss of CO₂ emission performance. However, the latter one is obviously higher than the former one on the whole. (4)Though CO₂ emission performance has been improved slowly, the potential carbon intensity is only the half of the actual, thus the task of emission reduction is still huge.

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carbon dioxide / performance decomposition / production technology / meta-frontier

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Wang Qunwei, Zhou Peng, Zhou Dequn. Heterogeneity of production technology, carbon dioxide emission and performance lose: An international comparison based on meta-frontier[J]. Science Research Management. 2014, 35(10): 41-48

References

[1] Wang C, Chen J,Zou J.Decomposition of energy-related CO₂ emission in China:1957–2000[J].Energy,2005,30(1):73-83. [2] Fan Y, Liu L C,Wu G.,Tsai H T,Wei Y M.Changes in carbon intensity in China:Empirical findings from 1980–2003[J].Ecological Economics,2007,62(3):683-691. [3] 何建坤,苏明山. 应对全球气候变化下的碳生产率分析[J].中国软科学,2009(10):32-37. [4] Jobert T, Karanfil F,Tykhonenko A.Convergence of per capita carbon dioxide emissions in the EU:Legend or reality?[J].Energy Economics,2010,32(6):1364-1373. [5] 王文举,向其凤. 国际贸易中的隐含碳排放核算及责任分配[J].中国工业经济,2011(10):56-64. [6] Mielnik O, Goldemberg J.The evolution of the “carbonization index” in developing countries [J].Energy Policy,1999,27(5):307-308. [7] Ang B W. Is the energy intensity a less useful indicator than the carbon factor in the study of climate change? [J] Energy Policy,1999,27(15):943-946. [8] Sun J W. The decrease of CO₂ emission intensity is decarbonization at national and global levels [J].Energy Policy,2005,33(8):975-978. [9] 何建坤,刘滨. 作为温室气体排放衡量指标的碳排放强度分析[J].清华大学学报:自然科学版,2004,44(6):740-743. [10] 金碚. 资源与环境约束下的中国工业发展[J].中国工业经济,2005(4):5-14. [11] Zhang Z Q, Qu J S,Zeng J J.A Quantitative comparison and analysis on the assessment indicators of greenhouse gases emission [J].Journal of Geographical Sciences,2008,18(4):387-399. [12] Ramanathan R. Combining indicators of energy consumption and CO₂ emissions:A cross-country comparison [J].International Journal of Global Energy Issues,2002,17(3):214-227. [13] 史丹. 中国能源效率的地区差异与节能潜力分析[J].中国工业经济,2006(10):49-58. [14] Zhou P, Ang B W,Han J Y.Total factor carbon emission performance:A malmquist index analysis [J].Energy Economics,2010,32(1):194-201. [15] 刘明磊,朱雷, 范英.我国省级碳排放绩效评价及边际减排成本估计:基于非参数距离函数方法[J].中国软科学,2011(3):106-114. [16] 王群伟, 周德群,周鹏.区域二氧化碳排放绩效及减排潜力研究——以我国主要工业省区为例[J].科学学研究,2011,29(6):868-875. [17] Oh D H. A metafrontier approach for measuring an environmentally sensitive productivity growth index [J].Energy Economics,2010,32(1):146-157. [18] O'Donnell C J, Griffiths W E.Estimating state-contingent production frontiers [J].American Journal of Agricultural Economics,2006,88(1):249-266. [19] Hayami Y. Sources of agricultural productivity gap among selected countries [J].American Journal of Agricultural Economics,1969,51(3):564-575. [20] 王群伟,周鹏, 周德群.我国二氧化碳排放绩效的动态变化、区域差异及影响因素[J].中国工业经济,2010(1):45-54. [21] Wang Q W, Zhou P,Zhou D Q.Efficiency measurement with carbon dioxide emissions:The case of China [J].Applied Energy,2012,90(1):161-166. [22] Chung Y H, Fre R,Grosskopf S.Productivity and undesirable outputs:A directional distance function Approach [J].Journal of Environmental Management,1997,51(3):229-240. [23] Chiu C R, Liou J L,Wu P I,Fang C L.Decomposition of the environmental inefficiency of the meta-frontier with undesirable output [J].Energy Economics,2012,34(5):1392-1399.