地球科学进展 ›› 2013, Vol. 28 ›› Issue (12): 1305 -1312. doi: 10.11867/j.issn.1001-8166.2013.12.1305

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家庭生活碳排放研究进展分析
王勤花( ), 张志强, 曲建升   
  1. 中国科学院国家科学图书馆兰州分馆/中国科学院资源环境科学信息中心,甘肃 兰州,730000
  • 收稿日期:2013-07-05 修回日期:2013-11-28 出版日期:2013-12-10
  • 基金资助:
    [HT6SS][ZK(]中国科学院战略性先导科技专项#cod#x0201c;应对气候变化的碳收支认证及相关问题#cod#x0201d;(编号:XDA05140100)资助.

A Review of the Scientific Assessment and Research on Household Carbon Emission

Qinhua Wang( ), Zhiqiang Zhang, Jiansheng Qu   

  1. Lanzhou Branch of the National Science Library, Scientific Information Center for Resources and Environment, Chinese Academy of Sciences, Lanzhou, ,730000,China
  • Received:2013-07-05 Revised:2013-11-28 Online:2013-12-10 Published:2013-12-10

家庭是重要的消费部门,家庭生活消费是CO2排放的重要来源之一。但在气候变暖的政策措施上,家庭生活消费及其碳排放常被忽视。通过对居民家庭生活消费及其碳排放研究的文献综述,对家庭生活消费及其碳排放研究的国内外现状进行了概述,归纳总结了目前生活碳排放研究的主要方面及今后应该着重研究的方向与重点。目前,家庭生活碳排放[JP2]主要研究包括收入与消费水平等因素对家庭生活碳排放的影响、家庭直接与间接碳排放的关系及家庭生活碳排放的来源与结构等。在未来的研究中,需要深入研究4个方面的问题:①家庭碳排放的指标与模型;②人口结构变化对家庭生活碳排放的影响;③可持续的绿色生活模式实现路径;④家庭生活碳排放的相关政策。

Household consumption represents an important proportion of all energy consumption,and it is an important source of CO2 emission. But household consumption and carbon emissions are often overlooked in climate change policies and measures. Through literature review, the research status of household consumption and carbon emissions were reviewed. On this basis, the main aspects and directions of the research are summarized and the main research of household carbon emissions should focus on three aspects in the future: ①The impact of income, consumption levels and other factors on household carbon emission; ②The relationship between direct and indirect carbon emissions of household carbon emission; ③The structure and source of household carbon emission. In future research, there are four issues which need in-depth study: ①Index and models study of household carbon emissions;②Impact of demographic change on household carbon emissions; ③The path of how to achieve sustainable and green urban lifestyle;④The relevant policy research of household carbon emissions.

表 1 生活水平提高、家庭能耗与碳排放量之间的动态关系
[1] Feng Ling, Lin Tao, Zhao Qianjun.Analysis of the dynamic characteristics of urban household energy use and carbon emissions in China[J]. China Population Resources and Environment, 2011, 21(5): 93-100.
[冯玲, 吝涛, 赵千军. 城镇居民生活能耗与碳排放动态特征分析[J]. 中国人口#cod#x000b7;资源与环境, 2011, 21(5): 93-100.]
[2] Bin S, Dowlatabadi H. Consumer lifestyle approach to US energy use and the related CO2 emissions[J]. Energy Policy, 2005, 33: 197-208.
[3] Liu L C, Wu G, Wang J N, et al. China#cod#x02019;s carbon emissions from urban and rural households during 1992-2007[J]. Journal of Cleaner Production, 2011, 19: 1 754-1 762.
[4] Schipper L, Bartlett S. Linking life-styles and energy use: A matter of time?[J]. Annual Review of Energy, 1989, 14: 271-320.
[5] Dietz T, Gardner G T, Gilligan J, et al. Household actions can provide a behavioral wedge to rapidly reduce US carbon emissions[J]. Proceedings of the National Academy of Sciences, 2009, 106(44): 18 452-18 456.
[6] Zeng Jingjing, Zhang Zhiqiang, Qu Jiansheng, et al.Analysis and evaluation of methods for household carbon emissions calculation[J]. Progress in Geography, 2012, 31(10): 1 341-1 352.
[曾静静, 张志强, 曲建升, 等.家庭碳排放计算方法分析评价[J]. 地理科学进展, 2012, 31(10): 1 341-1 352.]
[7] Golley J, Meng X. Income inequality and carbon dioxide emissions: The case of Chinese urban households[J]. Energy Economics, 2012, 34: 1 864-1 872.
[8] Fan J, Guo X, Marinova D, et al. Embedded carbon footprint of Chinese urban households: Structure and changes[J]. Journal of Cleaner Production, 2012, 33: 50-59.
[9] Shirley R, Jones C, Kammen D. A household carbon footprint calculator for islands: Case study of the United States Virgin Islands[J]. Ecological Economics, 2012, 80: 8-14.
[10] Bullard C W, Herendeen R A. Energy cost of goods and services[J]. Energy Policy, 1975, 3: 268-278.
[11] Lenzen M. Primary energy and greenhouse gases embodied in Australian final consumption: An input-output analysis[J]. Energy Policy, 1998, 26: 495-506.
[12] Reinders A, Vringer K, Blok K. The direct and indirect energy requirement of households in the European Union[J]. Energy Policy, 2003, 31(2): 139-153.
[13] Tukker A, Jansen B. Environment impacts of products#cod#x02014;A detailed review of studies[J]. Journal of Industrial Ecology, 2006, 10(3): 159-182.
[14] Chitnis M, Hunt L C. What drives the change in UK household energy expenditure and associated CO2 emissions? Implication and forecast to 2020[J]. Applied Energy, 2012, 94: 202-214.
[15] Dai H, Masui T, Matsuoka Y, et al. The impacts of China#cod#x02019;s household consumption expenditure patterns on energy demand and carbon emissions towards 2050[J]. Energy Policy, 2012, 50: 736-750.
[16] Shigeto S, Yamagata Y, Ryota I, et al. An easily traceable scenario for 80% CO2 emission reduction in Japan through the final consumption-based CO2 emission approach: A case study of Kyoto-city[J]. Applied Energy, 2012, 90(1): 201-205.
[17] Huang B, Meng L. Convergence of per capita carbon dioxide emissions in urban China: A spatio-temporal perspective[J]. Applied Geography, 2013, 40: 21-29.
[18] Liu W, Spaargaren G, Heerink N, et al. Energy consumption practices of rural households in north China: Basic characteristics and potential for low carbon development[J]. Energy Policy, 2013, 55: 128-138.
[19] Qin B, Han S S. Planning parameters and household carbon emission: Evidence from high-and low-carbon neighborhoods in Beijing[J]. Habitat International, 2013, 37: 52-60.
[20] Sardianou E, Genoudi P. Which factors affect the willingness of consumers to adopt renewable energies?[J]. Renewable Energy, 2013, 57: 1-4.
[21] Thomas B A, Azevedo I L. Estimating direct and indirect rebound effects for U.S. households with input-output analysis. Part 2: Simulation[J]. Ecological Economics, 2013, 86: 188-198.
[22] Wang P, Wu W, Zhu B, et al. Examining the impact factors of energy-related CO2 emissions using the STIRPAT model in Guangdong Province, China[J]. Applied Energy, 2013, 106: 65-71.
[23] Zhu D, Tao S, Wang R, et al. Temporal and spatial trends of residential energy consumption and air pollutant emissions in China[J]. Applied Energy, 2013, 106: 17-24.
[24] Noorman K J, Biesiot W. Energy requirements of household consumption: A case study of the Netherlands[J]. Ecological Economics, 1999, 28(3): 367-383.
[25] Munksgaard J, Pedersena K A, Mette Wien. Impact of household consumption on CO2 emissions[J]. Energy Economics, 2000, 22(4): 423-440.
[26] Benders R M J, Kok R, Moll H C, et al. New approaches for household energy conservation#cod#x02014;In search of personal household energy budgets and energy reduction options[J]. Energy Policy, 2006, 34(18): 3 612-3 622.
[27] Kees Vringer K B. The direct and indirect energy requirements of households in the Netherlands[J]. Energy Poliy, 1995, 23(10): 893-910.
[28] Qu Jiansheng, Zhang Zhiqiang, Zeng Jingjing, et al. Household carbon emission differences and their driving factors in Northwestern China[J]. Chinese Science Bulletin, 2013, 58(3): 260-266.
[曲建升, 张志强, 曾静静, 等.西北地区居民生活碳排放结构及其影响因素[J].科学通报报,2013,58(3):260-266.] [29]Duarte R, Mainar A, S#cod#x000e1;nchez-Ch#cod#x000f3;liz J. The impact of household consumption patterns on emissions in Spain[J]. Energy Economics, 2010, 32: 176-185.
[30] Br#cod#x000e4;nnlund R, Ghalwash T. The income-pollution relationship and the role of income distribution: An analysis of Swedish household data[J]. Resource and Energy Economics, 2008, 30: 369-387.
[31] Rosas J, Sheinbaum C, Morillon D. The structure of household energy consumption and related CO2 emissions by income group in Mexico[J]. Energy for Sustainable Development, 2010, 14: 127-133.
[32] Kok R, Benders R M J, Moll H C. Measuring the environmental load of household consumption using some methods based on input-output energy analysis: A comparison of methods and a discussion of results[J]. Energy Policy, 2006, 34: 2 744-2 761.
[33] Lenzen M, Lise-Lotte P, Munksgaard J. CO2 multipliers in multi-region input-output models[J]. Economic Systems Research, 2004, 16: 391-412.
[34] Wier M, Lenzen M, Munksgaard J, et al.Effects of household consumption patterns on CO2 requirements[J]. Economic Systems Research, 2001, 13(3): 259-274.
[35] Wei Y M, Liu L C, Fan Y, et al.The impact of lifestyle on energy use and CO2 emission: An empirical analysis of China#cod#x02019;s residents[J]. Energy Policy, 2007, 35: 247-57.
[36] Papathanasopoulou E. Household consumption, associated fossil fuel demand and carbon dioxide emissions: The case of greece between 1990 and 2006[J]. Energy Policy, 2010, 38: 4 152-4 162.
[37] Bin S, Orr H, Sanquist T. Total energy use and related CO2 emissions of american household consumption, 1997-2007[C]//2010 ACEEE Summer Study on Energy Efficiency in Buildings. California: Asilomar Conference Grounds Pacific Grove, 2010.
[38] Weber C L, Matthews H S. Quantifying the global and distributional aspects of American household carbon footprint[J]. Ecological Economics, 2008, 66: 379-391.
[39] Irsigler K. Energy household of the human organism[J]. Wiener Klinische Wochenschrift, 1969, 81(47): 845-854.
[40] Kim B R, Neff R. Measurement and communication of greenhouse gas emissions from U.S. food consumption via carbon calculators[J]. Ecological Economics, 2009, 69(1): 186-196.
[41] Park H C, Heo E. The direct and indirect household energy requirements in the republic of Korea from 1980 to 2000#cod#x02014;An input-output analysis[J]. Energy Policy, 2007, 35: 2 839-2 851.
[42] Peters G P, Hertwich E G.The importance of imports for household environmental impacts[J]. Journal of Industrial Ecology, 2006, 10(3): 89-109.
[43] Ahmad N, Wyckoff A. Carbon Dioxide Emissions Embodied in International Trade of Goods[R]. Paris, France:OECD Publishing, 2003.
[44] Peters G P. From production-based to consumption-based national emission inventories[J]. Ecological Economics, 2008, 65: 13-23.
[45] Babiker M, Reilly J M, Jacoby H D.The Kyoto protocol and developing countries[J]. Energy Policy, 2000, 28: 525-536.
[46] Babiker M H. Climate change policy, market structure, and carbon leakage[J]. Journal of International Economics, 2005, 65(2): 421-445.
[47] Bin S, Harriss R. The role of CO2 embodiment in US-China trade[J]. Energy Policy, 2006, 34: 4 063-4 068.
[48] Kander A, Lindmark M. Foreign trade and declining pollution in Sweden: A decomposition analysis of long-term structural and technological effects[J]. Energy Policy, 2006, 34: 1 590-1 599.
[49] Maenpaa I, Siikavirta H. Greenhouse gases embodied in the international trade and final consumption of finland: An input-output analysis[J]. Energy Policy, 2007, 35: 128-143.
[50] Weber C L, Matthews H S, Corbett J J, et al.Carbon emissions embodied in the importation, transport and retail of electronics in the U.S. : A growing global issue[C]//Proceedings of the 2007 IEEE International Symposium on Electronics and the Environment, Orlando,FL, 2007.
[51] Lenzen M, Wier M, Cohen C, et al. A comparative multivariate analysis of household energy requirements in Australia, Brazil, Denmark, India and Japan[J]. Energy, 2006, 31: 181-207.
[52] Feng Z H, Zou L L, Wei Y M. The impact of household consumption on energy use and CO2 emissions in China[J]. Energy, 2011, 36: 656-670.
[53] Feng Rui, Chen Shengnan. A comparison of household carbon emissions calculators[J]. Ecological Environment, 2010, 30(9): 61-65.
[冯蕊, 陈胜男. 居民生活消费碳排放估算方法分析比较[J]. 生态环境, 2010, 30(9): 61-65.]
[54] Song Min.Construction of China#cod#x02019;s green cities homebased estimates of carbon emissions[J]. Journal of China University of Mining & Technology(Social Sciences), 2010, 4: 45-55.
[宋敏.中国绿色城市建设研究#cod#x02014;#cod#x02014;基于家庭碳排放的测算分析[J]. 中国矿业大学学报:社会科学版, 2010, 4: 45-55.]
[55] Yang Xuanmei, Ge Yousong, Zeng Hongying. The household carbon emission analysis under individual consumer behavior[J]. China Population Resources and Environment, 2010, 20(5): 35-40.
[杨选梅, 葛幼松, 曾红鹰. 基于个体消费行为的家庭碳排放研究[J]. 中国人口#cod#x000b7;资源与环境, 2010, 20(5): 35-40.]
[56] Ye Hong, Pan Lingyang, Chen Feng, et al.Direct carbon emission from urban residential energy consumption: A case study of Xiamen, China[J]. Acta Ecologica Sinica, 2010, 30(14): 3 802-3 811.
[叶红, 潘玲阳, 陈峰, 等.城市家庭能耗直接碳排放影响因素#cod#x02014;#cod#x02014;以厦门岛区为例[J]. 生态学报, 2010, 30(14): 3 802-3 811.]
[57] Feng Rui, Zhu Tan, Chen Shengnan, et al.Analysis on estimation of CO2 emission on household energy consumption in Tianjin[J]. China Environmental Science, 2011, 31(1): 163-169.
[冯蕊, 朱坦, 陈胜男, 等.天津市居民生活消费CO2排放估算分析[J]. 中国环境科学, 2011, 31(1): 163-169.]
[58] Yao Liang, Liu Jingru, Wang Rusong.Comparison and analysis of carbon emissions embodied in household consumption between urban and rural area of China[J]. China Population Resources and Environment, 2011, 21(4): 25-29.
[姚亮, 刘晶茹, 王如松. 中国城乡居民消费隐含的碳排放对比分析[J]. 中国人口#cod#x000b7;资源与环境, 2011, 21(4): 25-29.]
[59] Lin Tao, Bai Xuemei, Feng Ling, et al. Greenhouse gas emissions accounting of urban residential consumption: A household survey based approach[J]. PLoS ONE, 2013, 8(2): 12-20.
[60] Qu Jiansheng, Wang Qin, Zeng Jingjing, et al. An assessment on the subsistence carbon emissions of peasants and herdsmen in arid-alpine regions, China[J]. China Population Resources and Environment, 2012, 22(4): 90-95.
[曲建升, 王琴, 曾静静, 等.中国西北寒旱区农牧民生活碳排放评估[J]. 中国人口#cod#x000b7;资源与环境, 2012, 22(4): 90-95.]
[61] Qu Jiansheng, Liu Jin, Chen Fahu. An Analysis on Characteristics and Solutions of GHG Emission in Less-developed Regions[M]. Beijing: China Meteorological Press, 2009.
[曲建升, 刘瑾, 陈发虎. 欠发达地区温室气体排放特征与对策研究[M]. 北京: 气象出版社, 2009.]
[62] Qu Jiansheng, Zeng Jingjing, Li Yan, et al.Household carbon dioxide emissions from peasants and herdsmen in northwestern arid-alpine regions, China[J]. Energy Policy, 2013, 57(1): 133-140.
[63] Christoph W A P. Modelling lifestyle effects on energy demand and related emissions[J]. Energy Policy, 2000, 28: 549-566.
[64] Olivier J G J, Janssens-Maenhout G, Peters J A, et al. Long-term Trend in Global CO2 Emissions[R]. The Hague: PBL/JRC, 2011.
[65] Golley J, Meagher D, Meng Xin. Chinese urban household energy requirements and CO2 emissions[M]// Song Ligang, Hu Yongtai,eds. China#cod#x02019;s Dilemma: Economic Growth, the Environment and Climate Change. Beijing: Social Sciences Academic Press, 2009.
[Golley J, Dominic Meagher, 孟昕.中国城市家庭能源需求与二氧化碳排放[M]//宋立刚, 胡永泰.经济增长、环境与气候变迁#cod#x02014;#cod#x02014;中国政府的政策选择.北京:科学社会文献出版社, 2009.]
[66] Schipper L. Determinants of automobile use and energy consumption in OECD countries[J]. Annual Review of Energy and Environment, 1995, 20: 325-386.
[67] Schipper L, Peake S, Marie C. Carbon-dioxide emissions from travel and freight in IEA countries: Past and future[J]. Plan Transport Research Comput-PTRC Publications, 1997, 413: 493-518.
[69] Europe Environmental Agency. Environmental Pressures from European Consumption and Production[R]. Luxemboury: Europe Environmental Agency, 2013.
[70] Kerkhof A C, Benders R M J, Moll H C. Determinants of variation in household CO2 emissions between and within countries[J]. Energy Policy, 2009, 37: 1 509-1 517.
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