姚西龙,于渤

• 1:哈尔滨工业大学管理学院

摘要(Abstract)：

本文利用DEA的方法从全要素生产率中分解出规模效率、技术进步和纯技术效率三个指标,然后基于1998-2008年的省际面板数据分析了不同地区的工业规模效率及技术进步对CO2排放影响的程度及差异化的原因。研究结果显示:从总体来看,技术进步对单位GDP的CO2排放有抑制作用,而规模效率则与CO2排放呈正向关系,但各个地区的情况不同,东中部地区的技术进步对单位GDP的CO2排放起到了抑制作用,东北地区和西部地区的技术进步则对单位GDP的CO2排放起到了促进作用;东中部地区的规模效率对单位GDP CO2排放的影响程度要远小于东部地区和西部地区;产生这些差异的原因可能是与我国区域间技术进步与规模效率所属的种类不同有关,东部地区的技术进步可能属于节能型技术进步,而西部地区则属于耗能型的技术进步;东北地区和西部地区规模效率的提升可能更多地依靠能源消耗,中东部地区则有所改善。

关键词(KeyWords)： 规模效率;技术进步;CO2

Abstract:

Keywords:

基金项目(Foundation): 国家自然科学基金项目(编号:70972098)

作者(Author): 姚西龙,于渤

参考文献(References)：

• [1]Grubb M,Chapuis T,Duong M H.The Economics of ChangingCourse:Implications of Adaptability and Inertia for Optimal ClimatePolicy[J].Energy Policy,1995,23(4-5):417-431.
• [2]Grübler A,Messner S.Technological Change and the Timing ofMitigation Measures[J].Energy Economics,1998,20(5-6):495-512.
• [3]Manne A,Richels R.The Impact of Learning-by-doing on the Timingand Costs of CO2 Abatement[J].Energy Economics,2004,26(4):603-619.
• [4]Kemfert C.Induced Technological Change in a Multi-regional,Multi-sectoral,Integrated Assessment Model(WIAGEM)ImpactAssessment of Climate Policy Strategies[J].Ecological Economics,2005,54(2-3):293-305.
• [5]Kemfert C,Truong T.Impact Assessment of Emissions StabilizationScenarios with and without Induced Technological Change[J].Energy Policy,2007,35(11):5337-5345.
• [6]Gerlagh R.ITC in a Global Growth-climate Model with CCS:TheValue of Induced Technical Change for Climate Stabilization[J].Energy Journal,2006,(10):223-240.
• [7]Gerlagh R.Measuring the Value of Induced Technological Change[J].Energy Policy,2007,35(11):5287-5297.
• [8]Feng Xiangzhao,Zou Ji.Economic Analysis of CO2Emission Trendsin China[J].China Population,Resources and Environment,2008,18(3):43-47.
• [9]胡初枝,黄贤金,钟太洋,等.中国碳排放特征及其动态演进分析[J].中国人口.资源与环境,2008,18(3):38-42.[HuChuzhi,Huang Xianjin,Zhong Taiyang,et al.Character of CarbonEmission in China and Its Dynamic Development Analysis[J].ChinaPopulation,Resources and Environment,2008,18(3):38-42.]
• [10]宋德勇,卢忠宝.中国碳排放影响因素分解及其周期性波动研究[J].中国人口.资源与环境,2009,19(3):18-24.[SongDeyong,Lu Zhongbao.The Factor Decomposition and PeriodicFluctuations of Carbon Emission in China[J].China Population,Resources and Environment,2009,19(3):18-24.]
• [11]Saunders H D.A View from the Macro Side:Rebound,Backfire,and Khazzoom-Brookes[J].Energy Policy,2000,28(6-7):439-449.
• [12]周勇,林源源.技术进步对能源消费回报效应的估算[J].经济学家,2007,(2):45-52.[Zhou Yong,Lin Yuanyuan.TheEstimation of Technological Progress on the Energy ConsumptionReturns Effects[J].Economist,2007,(2):45-52.]
• [13]Unruh G C.Escaping Carbon Lock-in[J].Energy Policy,2002,30(4):317-325.
• [14]Unruh G C.Understanding Carbon Lock-in[J].Energy Policy,2000,28(12):817-830.
• [15]Fre R,Grosskopf S,Norris M.Productivity Growth,TechnicalProgress,and Efficiency Change in Industrialized Countries[J].The American Economic Review,1994,(84):66-83.
• [16]张军,章元.对中国资本存量K的再估计[J].经济研究,2003(7):35-43.[Zhang Jun,Zhang Yuan.Recalculating the Capitalof China and a Review of Li and Tang's Article[J].EconomicResearch Journal,2003,(7):35-43.]