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Evaluation of Environmental Performance of Energy Systems employing Market Allocation Model in Building Sector in Korea  

Park, Tong-So (한서대학교 건축공학과)
Publication Information
KIEAE Journal / v.2, no.4, 2002 , pp. 65-72 More about this Journal
Abstract
In this study, the evaluation of environmental performance of the building energy system of domestic commercial sector was carried out. Based on the theory of linear programming model, we established an evaluation model satisfying object functions and constraint conditions. Employing the model, the evaluation of building energy system was performed under the consideration of cost and environmental constraint conditions. As an evaluation tool, MARKAL (MARKet Allocation) known as a market distribution model was employed. We analyzed scenarios of Case I (Base Scenarios) through Case IX established by the combination of the components of building energy system such as glazing, building skin, core, and heat source system. According to the results of the evaluation, highest contribution on the useful energy demand was obtained from the building energy system combined with solar heat source system, when the total amounts of $CO_2$ exhaust as an environmental constraint condition is assumed to be the level of 1995.
Keywords
Building Energy System; Evaluation; Linear Programming Model; Environmental Constraint;
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1 울산광역시, '울산광역시 지역에너지계획', 울산광역시, 1999
2 서울특별시, '서울특별시 지역에너지계획 수립연구', 서울특별시, 1997
3 Grckis, Aldis et al, 'Evaluation of CO2 Emissions Reduction Potential in Building Sector in Latvia', Clima 2000/Napoli 2001 world Congress, 2001
4 Gielen, D. J., 'Building Materials and $CO_2$, Western European emission reduction strategies', ECN-C-97-065, 1997
5 UNFCCC, 'UNFCCC Workshop on the IPCCC 3rd Assessment Report', 2002
6 Fishbone, L, G., et al, 'User's Guide for MARKAL A Multi-period Linear-propramming Model for Energy Systems Analysis', Brookhaven National Laboratory, Upton, NY, 1991
7 환경부, '기후변화협약 제8차 당사국총회참가결과 보고', 환경부, 2002. 11
8 환경부, '기후변화협약 관련 업무보고, 환경부, 2001. 4
9 Xu S., Madden, M., 'Urban Ecosystem: a Holistic Approach to Urban Analysis and Planning', Environment and Planning B: Planning and Design, Vol.16, 1989, pp.187-200
10 홍종철외, '비용최소화와 환경영향을 고려한 철강기술 평가에 관한 연구; MARKAL 모형의 응용, 한국에너지공학회지, 제6권 제2호, 1997, pp.188-197
11 Bansal N. K., 'Sustainability in Building: A Study in the Indian Context', Proceedings of 2002 KSES International Symposium, pp.49-72. 2002. 11
12 Asimakopoulos, D. N., 'Climate and Climate Change', Energy and Climate in the Urban Built Environment, James & James Ltd., 2001. pp.19-32
13 홍종철외, '$CO_2$ 배출량 저감을 고려한 국내 에너지공급시스템 분석: 시장분배모형(MARKAL)의 응용', 한국경영학회지, 제18권 제1호, pp.79-95
14 Seebregts, Ad J., et al, 'Energy/Environmental Modeling with the MARKAL Family of Models
15 ETSU, 'An Appraisal of UK Energy Research, Development, Demonstration & Dissemination', HMSO, 1994
16 Boyden, Stephen, 'Ecological Study of Human Settlements', Nature and Resources, Vol.15, No.3, 1980, pp.2-9
17 통상산업부, '지역에너지계획 수립 기본지침서', 1994
18 UNESCO, 'Ecological Effect of Energy Utilization in Urban and Industrial System' Programme on Man and the Biosphere, No.13, 1973
19 한국에너지기술연구소, '에너지 적합형 지역개발사업 모델개발 연구', 1994
20 한국에너지기술연구소, '지구환경을 고려한 에너지자원 기술 정책방향', 1996
21 박동소, 도시생태계를 고려한 건물 에너지 시스템평가에 관한 연구, 대한건축학회 논문집 계획계 14권 10호 통권 120호, 1998. pp.247-256
22 에너지관리공단, '기후변화협약 관련 업무추진계획', 에너지관리공단, 1999
23 한국에너지기술연구소, '에너지절약기술 평가 및 실용화 보급 연구', 1996