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http://dx.doi.org/10.5855/ENERGY.2015.24.1.137

LMDI Decomposition Analysis for Electricity Consumption in Korean Manufacturing  

Han, Joon (Green Technology Center)
Publication Information
Journal of Energy Engineering / v.24, no.1, 2015 , pp. 137-148 More about this Journal
Abstract
So far, the phenomenon of "electrification" has been deepened in Korean industry and especially direct heating energy which accounted for 44.0%(2010) of total energy consumed in Korean manufacturing has been significantly electrified. This paper decomposed electricity consumption for direct heating in Korean manufacturing from 1992 to 2012 using LMDI(Log Mean Divisia Index). This paper includes 4 different factors such as electricity proportion effect, direct heating proportion effect, energy intensity effect and added value effect. And this paper compared the consumption pattern by business type. As results, electricity proportion effect had contributed the most to the increase of electricity consumption for direct heating in Korean manufacturing. And Petrol-Chemical and Iron & Steel had the most electrification of direct heating.
Keywords
Decomposition Analysis; LMDI; Electricity Consumption; Direct heating;
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1 Torvanger, A. "Manufacturing sector carbon dioxide emissions in nine OECD countries: 1973-87" Energy Economics, 1991, Vol.13, pp.168-186   DOI
2 Valunjkar, T. N. "Social Consequences of Rural Electrification", Economic and Political Weekly, 1968, Vo.3, No.10, pp.431-434
3 Xu, X. Y. and Ang, B. W., "Index decomposition analysis applied to CO2 emission studies", Ecological Economics, 2013, Vol.93, pp.313-329   DOI
4 Zhao, X., Li, N., Ma, C., "Residential energy consumption in urban China: A decomposition analysis", Energy Policy, 2012. Vol.41, pp.644-653   DOI
5 Social Progress Imperative 홈페이지 http://www.socialprogressimperative.org
6 World Bank 홈페이지 http://www.worldbank.org
7 김수이․김현석, "LMDI 방법론을 이용한 국내 제조업의 에너지 소비 요인 분해 분석", "에너지경제연구", 2011, 제10권, 제1호, pp.49-760
8 김수이․정경화, "LMDI 방법론을 이용한 국내 제조업의 온실가스 배출 요인분해 분석", "자원․환경경제연구", 2011, 제20권, 제2호, pp.229-254
9 김진수․허은녕, "구조분해분석을 통한 국내 산업별 에너지 소비 변화요인 연구", "자원․환경경제연구", 2005, 제14권, 제2호, pp.257-290
10 산업자원부, "1999년도 에너지총조사 보고서", 2000
11 산업자원부, "2002년도 에너지총조사 보고서", 2003
12 산업자원부, "2005년도 에너지총조사 보고서", 2006
13 상공자원부, "1993년도 에너지총조사 보고서", 1993
14 석광훈, "전력 수요관리 및 요금체제의 현황과 개선 방안", "국회기후변화포럼 부설 기후변화정책연구소 정책보고서 '이명박정부 기후변화정책 평가 및 차기정부 정책과제'", 2012
15 에너지경제연구원. "산업부문 에너지이용효율화 추이 분석기법 및 Tool 개발", 2007
16 임소영, "개발도상국의 지속가능한 농촌전력화를 위한 개발협력 프로그램", "환경사회학연구 ECO", 2012, 제16권, 제1호, pp.205-248
17 조영탁, "에너지의 전력화, 어떻게 대응할 것인가?", "석유협회지", 2012, 제286권, pp.19-22
18 지식경제부, "2008년도 에너지총조사 보고서", 2009
19 지식경제부, "2011년도 에너지총조사 보고서", 2012
20 지식경제부․에너지경제연구원, "2012 에너지통계연보", 2013
21 진상현․정경화, "지역별 온실가스 배출특성에 관한 연구: 지수분해분석을 중심으로", "한국정책과학학회보", 2013, 제17권, 제2호, pp.1-6
22 Herrin, A. N., "Rural Electrification and Fertility Change in the Southern Philippines", Population and Development Review, 1979, Vol.5 No.1, pp.61-86   DOI
23 통상산업부, "1996년도 에너지총조사 보고서", 1996
24 현대경제연구원, "에너지 수급 불균형 해소를 위한 생산 효율성 제고 방안 - 에너지 전환손실 1% 감축으로 원자력발전소 1기를 대체할 수 있다", "새로운 경제시스템 창출을 위한 경제주평", 2013, 제566호
25 황인창, "생태적 근대화와 기후변화정책 - 영국과 독일, 한국의 비교", 서울대학교 석사학위논문, 2008
26 Ang, B. W., "Decomposition Analysis for Policy- making in Energy: Which is the Preferred Method?", Energy Policy, 2004, Vol.32, pp.1131-1139   DOI
27 Barnes, D. F. and Binswanger, H. P., "Impact of Rural Electrification and Infrastructure on Agricultural Changes", Economic and Political Weekly, 1986, Vol.21, No.1, pp.26-34
28 Carmody, J. M., "Rural Electrification in the United States", Annals of the American Academy of Political and Social Science, 1938, Vol.201, pp.82-88
29 Desbrosses, N., "Understanding the electrification of industrial energy consumption in Europe", The Leonardo Energy initiative homepage, 2006
30 Dinkelman, T. "The Effects of Rural Electrification on Employment: New Evidence from South Africa", The American Economic Review, 2011, Vol.101, No.7, pp.3078-3108   DOI
31 Electric Power Research Institute (EPRI), "The potential to reduce $CO_2$ emissions by expanding end-use applications of electricity", 2009
32 International Energy Agency (IEA) and Organization for Economic Co-operation and Development (OECD). "Energy Balances of OECD Countries 2014 Edition", 2014
33 Muller, A. "Putting decomposition of energy use and pollution on a firm footing - clarifications on the residual, zero and negative values and strategies to assess the performance of decomposition methods", Working Papers in Economics 215, 2006, Goteborg University, Department of Economics. Revised 10 Aug 2007
34 Ma, C. "A multi-fuel, multi-sector and multi-region approach to index decomposition: An application to China's energy consumption 1995-2010", Energy Economics, 2014, Vol.42, pp.9-16   DOI
35 Mairet, N. and Decellas, F., "Determinants of energy demand in the French service sector: A decomposition analysis", Energy Policy, 2009, Vol.37, pp.2734-2744   DOI
36 Manne, A., Richels, R., "Buying greenhouse insurance: the economic costs of $CO_2$ emission limits", 1992
37 Nishio, K., Hoshino Y., "Impacts of electrification on CO2 emission reduction potentials in the G7countries", SERC discussion Paper 10004, 2010, Central Research Institute of Electric Power Industry, Japan
38 Ranganathan, V. and Ramanayya, T. V., "Long-Term Impact of Rural Electrification: A Study in UP and MP" Economic and Political Weekly, 1998, Vol.33, No.50, pp.3181-3184
39 Rogan, F., Cahill, C. J., Gallachoir, B. P. O., "Decomposition analysis of gas consumption in the residential sector in Ireland." Energy Policy, 2012, Vo.42, pp.19-36   DOI
40 Schurr, S. H., Burwell, C. C., Devine, W. D., Sonenblum, S., "Electricity in the American Economy: Agent of Technical Progress", 1990, Greenwood Press, New York
41 Stern, D. I. "The role of energy in economic growth", ANNALS OF THE NEW YORK ACADEMY OF SCIENCES, 2011, ISSN 0077-8923