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Optimization of Stand-Alone Hybrid Power Systems Using HOMER Program
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 Title & Authors
Optimization of Stand-Alone Hybrid Power Systems Using HOMER Program
Yang, Su-Hyung; Boo, Chang-Jin; Kim, Ho-Chan;
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 Abstract
Diesel fuel is expensive because transportation to remote areas adds extra cost, and it causes air pollution by engine exhaust. Providing a feasible economical and environmental solution to diesel generators is important. A hybrid system of renewable plants and diesel generators can benefit islands or other isolated communities and increase fuel savings. Renewable energy is, however, a natural source that produces a fluctuating power output. In this paper, hybrid power system of the marado lighthouse is proposed to supply stable power in the stand-alone hybrid power system. The proposed hybrid power system consists of the diesel generator, wind turbine, photovoltaic, fuel cell, and battery bank. To decrease the carbon emissions and find the optimization, the cost analysis of hybrid system is simulated using HOMER program and the optimized hybrid power system is designed.
 Keywords
Stand-alone;Carbon emission;HOMER(Hybrid Optimization Modelfor Electric Renewable);
 Language
Korean
 Cited by
1.
태양광 발전량 예측 도구별 입력 요소 분석 및 실제 발전량 비교에 관한 연구,노상태;

KIEAE Journal, 2014. vol.14. 6, pp.87-92 crossref(new window)
2.
독립형 풍력기반 Smart Microgrid 시스템의 현장 실증 시험을 위한 도서지역 전력 및 경제성 시뮬레이션,강상균;이은규;이장호;

신재생에너지, 2014. vol.10. 3, pp.22-30 crossref(new window)
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Power and Economic Simulation of Island for the Field Demonstration Test of Smart Microgrid System Based on Stand-alone Wind power, Journal of the Korean society for New and Renewable Energy, 2014, 10, 3, 22  crossref(new windwow)
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Comparison of Measured and Predicted Photovoltaic Electricity Generation and Input Options of Various Softwares, KIEAE Journal, 2014, 14, 6, 87  crossref(new windwow)
 References
1.
A.M.O. Haruni et al., Dynamic operation and control of a hybrid wind-dieselst and alone power systems, in Proceedings of IEEE APEC, pp.162-169, 2010.

2.
.B. Silva et al., Sizing and optimization photovoltaic, fuel cell and battery hybrid system, IEEE Latin America Transaction, vol.9, no.1, pp.83-88, 2011.

3.
P. Bajpai et al., Sizing optimization and analysis of a stand-alone WTG system usinghybridenergystoragetechnologies, International Conference on Energy and Sustainable Development : Issues and Strategies, pp.1-6, 2010.

4.
A. Rohani et al., Modeling of a hybrid power system for economic analysis and environmental impact in HOMER, IEEE Electrical Engineering Iranian Conference, pp.819-823, 2010.

5.
장하나 외, 도서지역 신.재생복합 전력시스템 보급 타당성 분석, 자원.환경경제연구, 제15권 제4호, pp.693-712, 2006

6.
이탁기 외, 서해 도서지역의 풍력-디젤 하이브리드 발전에 대한 경제성 분석, 한국항해항만학회지, 제35권 제5호, pp.381-385, 2011.

7.
국토해양부, http://www.mltm.go.kr, 2011.

8.
문희성 외, 국내 독립형 태양광발전시스템의 배터리 용량산정 비교분석, 대한전기학회 춘계학술대회 논문집, pp.242-244, 2009.

9.
P. Nema et al., PV-solar/wind hybrid energy system for GSM/CDMA type mobile telephony base station, International of Energy and Environment, Vol. 1, no.2, 2010.

10.
Y. Tanoto, et al., Optimum configuration of stand-alone hybrid distributed generation: A case of eastern Indonesia, Electrical Engineering and Informatics, pp.1-6, 2011.

11.
한국에너지기술연구원 신재생에너지자원데이터센터, http://kredc.kier.re.kr/kier, 2011.

12.
NASA Surface Meteorology and Solar Energy, http://eosweb.larc.nasa.gov, 2011

13.
S.G. Baron, Developing Power Business Plan : Empowering the Bottom of the Pyramid, Master of Science in Natural Resources and Environment, University of Michigan, 2004.

14.
박세준 외, HOMER를 이용한 가정용 태양광-연료전지 하이브리드시스템의 운전 최적화, 대한전기학회논문지, 59권 1호, pp. 129-133, 2010.