Feasibility Study of Zero Energy Houses: Case Study of Magrun City - Libya
DOI:
https://doi.org/10.51646/jsesd.v7i2.41الكلمات المفتاحية:
zero energy houses ، renewable energy ، wind energy ، modeling energy systems ، HOMER softwareالملخص
The residential load is one of the largest consumers of the electric energy in Libya that could be supplied by renewable energies. Renewable energy technologies and systems can be a good solution to build “Zero Energy Buildings”. A zero-energy house is proposed for Maqrun city. It is intended to use wind turbine with batteries as a storage system to supply electric energy demand for this house. The intended house average daily electric energy demand is estimated to be 35 kWh/day. Two WECS were selected to supply the energy demand each of size 6 kW. Th energy produced by the selected wind energy conversion system (WECS) is about 23,894 kWh/yr and the expected capacity factor at the site is about 23%. Modeling of energy demand of the house and simulation of its performance was performed using excel sheets and HOMER softare.
التنزيلات
المقاييس
المراجع
. P. Torcellini, S. Pless, and M. Deru, Zero Energy Buildings: A Critical Look at the Defiition, ACEEE Summer Study
Pacifi Grove, California August 14−18, 2006.
. Alejandra Elizondoa, Vanessa Pérez-Cirerab, Alexandre Strapassonc, d, José Carlos Fernándeze, Diego Cruz-Canof, Mexico’s low carbon futures: An integrated assessment for energy planning and climate change mitigation by 2050, Futures, Vol. 93, October 2017, 14-26.
. Sea´n Collins, Paul Deane, Brian O´ Gallacho´ ir, Stefan Pfenninger, and Iain Staffll, Impacts of Inter-annual Wind and Solar Variations on the European Power System, Joule, July 2018.
. R. Ba˜nosa, F. Manzano-Agugliarob, F.G. Montoyab, C. Gila, A. Alcaydeb, J. Gomezc, Optimization methods applied to renewable and sustainable energy: A review, Renewable and Sustainable Energy Reviews, 15 (2011) 1753–1766.
. Deepak Kumar Lal, Bibhuti Bhusan Dash, and A. K. Akella, Optimization of PV/Wind/Micro-Hydro/Diesel Hybrid Power System in HOMER for the Study Area, International Journal on Electrical Engineering and Informatics ‐ Volume 3, Number 3, 2011.
. O. Erdinc, M. Uzunoglu , Optimum design of hybrid renewable energy systems: Overview of diffrent approaches, Renewable and Sustainable Energy Reviews 16 (2012) 1412–1425.
. I. Tégania , A. Abouboua , M.Y. Ayad , M. Becherifc , R. Saadia and O. Kraa, Optimal sizing design and energy management of stand-alone photovoltaic/wind generator systems , Th International Conference on Technologies and Materials for Renewable Energy, Environment and Sustainability, TMREES14, Energy Procedia 50 ( 2014 ) 163 – 170.
. Pragya Nema , R.K. Nema , Saroj Rangnekar, A current and future state of art development of hybrid energy system using
wind and PV-solar: A review, Renewable and Sustainable Energy Reviews 13 (2009) 2096–2103.
. Wei Zhou , Chengzhi Lou , Zhongshi Li , Lin Lu , Hongxing Yang a, Current status of research on optimum sizing of standalone hybrid solar–wind power generation systems, Applied Energy 87 (2010) 380–389.
. Pragya Nema , R.K. Nema , Saroj Rangnekar, A current and future state of art development of hybrid energy system using wind and PV-solar: A review, Renewable and Sustainable Energy Reviews 13 (2009) 2096–2103.
. S. Rehman, I.M El-Amin, F. Ahmad, S.M. Shaahid, A.M. Al-Shehri, J.M. Bakhashwain and A. Shash. Feasibility study of hybrid retrofis to an isolated offgrid diesel power plant. Renewable and Sustainable Energy Reviews, pp.635,2007.
. Alexander Kies, Bruno U. Schyska, and Lueder von Bremen, Th Demand Side Management Potential to Balance a Highly Renewable European Power System, Energies 2016, 9, 955.
. Antimo Barbato and Antonio Capone, Optimization Models and Methods for Demand-Side Management of Residential
Users: A Survey, Energies 7, (2014), 5787-5824
. Omid Nematollahi, Hadi Hoghooghi, Mehdi Rasti, Ahmad Sedaghat, Energy demands and renewable energy resources
in the Middle East, Renewable and Sustainable Energy Reviews 54 (2016) 1172–1181.
. Steven Griffis, A review and assessment of energy policy in the Middle East and North Africa region, Energy Policy,
Vol. 102, March 2017, 249-269.
. Ahmed M.A.Mohamed, AminAl-Habaibeh, Hafez Abdo, An investigation into the current utilization and prospective of renewable energy resources and technologies in Libya, Renewable Energy 50 (2013), 732-740
. Ahmed M.A. Mohamed, Amin Al-Habaibeh , Hafez Abdo , Sherifa Elabar , Towards exporting renewable energy from MENA region to Europe: An investigation into domestic energy use and householders’ energy behavior in Libya, Applied Energy 146 (2015) 247–262.
. Usama Elghawi, Wedad El-Osta, Th alternative energy sources and technologies suitable for Libyan future energy demand mix, Int. Journal of Energy Policy and Technology, Vol. 11, No. 1, 2015, pp 36-52.
. Basim Belgasim, Yasser Aldali, Mohammad J.R. Abdunnabi, Gamal Hashem, Khaled Hossin, The potential of concentrating solar power (CSP) for electricity generation in Libya, Renewable and Sustainable Energy Reviews 90 (2018) 1–15.
. Ashraf Khalil, Zakaria Al Faituri and Ali Asheibi, “Energy Effiency and Renewable Energy Libya-Th Economic Feasibility of Photovoltaic Systems for Electricity Production in Libya, Electrical and Electronic Engineering Department, Faculty of Engineering, University of Benghazi, Libya, 2015.
. IEA and UNEP (2018): 2018 Global Status Report: towards a zero emission, effient and resilient buildings and construction sector.
. Meteo data report for general electrical company of Libyan (GECOL) AL-Magrun, Project, 2.3.0.216, April 2003.
. M. Ekhlat, I. M. Salah & N. M. Kreama, General Electric Company of Libya “GECOL, Plan Bleu Regional Activity Centre Sophia Antipolis, Mediterranean and National Strategies for Sustainable Development Priority Field of Action 2: Energy and Climate Change, Energy Effiency and Renewable Energy Libya - National study, September 2007.
. W.B. El-Osta, M El-Hadi, A Hawass, Y Kalifa, A Taher., “Wind Energy Potential in Libya”, Th National Solar Energy Conference, SOLAR 90, ASES Annual Conf., March 19-22, 1990, Austin Texas, American Society Inc.. 1990.
. El-Osta, W.B., and Taher, A., “Forecast for Wind Energy Potential in Libya”, EWEC’91, 14-17 Oct., 1991, Amsterdam, The Netherlands.
. W.B. El-Osta, Y. Kalifa, “Kadam Eljabal Pilot Project for Electricity Generation”, European Community Wind Energy Conference and Exhibition, 8-12 March, 1993, Travemund, Germany.
. W.B. El-Osta, M. Belhag, M. Khlat, I. Fallah, Y. Kalifa, “Wind Farm Pilot Project in Libya”, Journal of Renewable Energy, Vol.6, No. 5-6, pp639-642, Elsevier Science Ltd., 1995.
. W.B. El-Osta, A. El-Taher, F. Gumati “Evaluation of Wind Energy Potential in Libya”, Applied Energy, Special Issue Proceedings, 5th Arab Int. Solar Energy Conf., Bahrain, 13-16 Nov. 1995, pp. 675- 684, Elsevier Applied Science, 1995.
. W.B. El-Osta, M. A. Muntaser, and Y. M. Khalifa, “Wind Atlas for the Northern Coast of Libya”, Proceedings of OFFSHORE WIND ENERGY IN THE MEDITERRAINEAN AND OTHER EUROPEAN SEAS: Technology and Potential Applications, OWEMES’97, 10-11 April 1997, Sardinia, Italy.
. A. M. Elmabrouk, “ESTIMATION OF WIND ENERGY AND WIND IN SOME AREAS (SECOND ZONE) IN LIBYA” EVRE, Monaco, March 26-29, 2009.
. El-Osta, W.B. and Y. Khalifa, “Prospects of Wind Energy Plants in Libya: A Case Study”, Journal of Renewable Energy, 28 (2003) 363-371, Elsevier Science Ltd.
. El-Osta, W.B., …et al, “ Estimation of Capacity Credit for wind Power in Libya”, International Journal of Energy
Technology and Policy, Inderscience Pub., Vol.3, No. 4, 2005, pp 363-377.
. Sathyajith Mathew, Wind Energy Fundamentals, Resource Analysis and Economics, Springer-Verlag Berlin Heidelberg
. Ali Hajiah, M. Sebzali, Optimal Sizing of Wind Power Systems in Thee High Wind Potential Zones in Kuwait for Remote Housing Electrifiation, INTERNATIONAL JOURNAL of RENEWABLE ENERGY RESEARCH Ali Hajiah et al.,Vol.3, No.1, 2013.
. http://www.nppd.com, Electric Usage In Your Home,
. https://www.homerenergy. com
. Mahmoud M.M. , Ibrik H.I. Techno-economic feasibility of energy supply of remote villages in Palestine by PV- systems, diesel generators and electric grid. Renewable & Sustainable Energy Reviews. 10(2006) 128-138.
. Mahmoud Salah Ismail Abdel-Qader, Simulation of a Hybrid Power System Consisting of Wind Turbine, PV, Storage Battery and Diesel Generator with Compensation Network: Design, Optimization and Economical Evaluation.
. Eric Chekwube Okonkwo, Chinedu Frank Okwose , Serkan Abbasoglu, Department of Energy System Engineering, Faculty of Engineering, Cyprus International University, North Cyprus, Techno-Economic Analysis of the Potential Utilization of a Hybrid PV-Wind Turbine System for Commercial Buildings in Jordan, 2017
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