DOI: https://doi.org/10.14710/ijred.6.3.263-272

Sizing and Optimization for Hybrid Central in South Algeria Based on Three Different Generators

1LDDI Laboratory, Faculty of Sciences and Technology, University of Adrar, Adrar, Algeria, Algeria

2LDDI Laboratory, Faculty of Sciences and Technology, University of Adrar, Adrar, Algeria

3LEESI Laboratory, Faculty of Sciences and Technology, University of Adrar, Adrar,, Algeria

Published: 6 Nov 2017.
Editor(s): H Hadiyanto

Citation Format:
Abstract

In this paper, we will size an optimum hybrid central content three different generators, two on renewable energy (solar photovoltaic and wind power) and two nonrenewable (diesel generator and storage system) because the new central generator has started to consider the green power technology in order for best future to the world, this central will use all the green power resource available and distributes energy to a small isolated village in southwest of Algeria named “Timiaouine”. The consumption of this village estimated with detailed in two season; season low consumption (winter) and high consumption (summer), the hybrid central will be optimized by program Hybrid Optimization Model for Electric Renewable (HOMER PRO), this program will simulate in two configuration, the first with storage system, the second without storage system and in the end the program HOMER PRO will choose the best configuration which is the mixture of both economic and ecologic configurations, this central warrants the energetic continuity of village.

Article History: Received May 18th 2017; Received in revised form July 17th 2017; Accepted Sept 3rd 2017; Available online

How to Cite This Article: Ammari, C., Hamouda,M., and Makhloufi,S. (2017) Sizing and Optimization for Hybrid Central in South Algeria Based on Three Different Generators. International Journal of Renewable Energy Development, 6(3), 263-272.

http://doi.org/10.14710/ijred.6.3.263-272

Fulltext View|Download
Keywords: : hybrid system, HOMER PRO, renewable energy, solar energy, wind energy, diesel generator

Article Metrics:

Article Info
Section: Original Research Article
Language : EN
Recent articles
The Determinants Factors of Biogas Technology Adoption in Cattle Farming: Evidences from Pati, Indonesia Performance of Loaded Thermal Storage Unit with a Commercial Phase Change Materials based on Energy and Exergy Analysis Techno-Economic Analysis of Solar Absorption Cooling for Commercial Buildings in India More recent articles
Most cited articles
Performance investigation of a gasifier and gas engine system operated on municipal solid waste briquettes Improving the Efficiency of a Nuclear Power Plant Using a Thermoelectric Cogeneration System Production of Solid Fuel by Torrefaction Using Coconut Leaves As Renewable Biomass Implications of Charcoal Briquette Produced by Local Communities on Livelihoods and Environment in Nairobi- Kenya Tin (II) Chloride Catalyzed Esterification of High FFA Jatropha Oil: Experimental and Kinetics Study More cited articles
  1. Aeidapu Mahesh, Kanwarjit Singh Sandhu (2015) Hybrid wind/photovoltaic energy system developments: Critical review and findings. Renewable and Sustainable Energy Reviews 52 1135–1147
  2. Bhattacharyya SC (2012). Energy access programs and sustainable development: a critical review andSS analysis. Energy for Sustainable Development 16(3):260e71
  3. D. Rekioua, Z. Roumila, T. Rekioua (2008) Etude d’une centrale hybride photovoltaïque- éolien – diesel Revue des Energies Renouvelables Vol. 11 N°4
  4. Gansler Robert A, Klein SA, Beckman WA (1994) Assessment of the accuracy of generated meteorological data for use in solar energy simulation studies. Sol Energy 53(3):279–87
  5. IEA International Energy Agency (2015) World Energy Outlook Executive Summary English version ( https://www.iea.org/Textbase/npsum/WEO2015SUM.pdf)
  6. IEA International Energy Agency (2012) World Energy Outlook Executive Summary English version〈 http://www.iea.org/publications/freepublications/publication/name,33339〉; 2012
  7. Lazarov VD, Notton G, Zarkov Z, Bochev I (2005). Hybrid power systems with renewable energy sources types, structures, trends for research and development.In: Proc of International Conference ELMA. p. 515–20
  8. Luna-Rubio R, et al (2012) Optimal sizing of renewable hybrids energy systems: a review of methodologies. Solar Energy 86:1077–88
  9. Nayar CV (1997) Standalone wind/diesel/battery hybrid energy systems. Wind Energy 21(1):13–9
  10. Nurul Arina bte Abdull Razak, Muhammad Murtadha bin Othman, Ismail Musir (2010) Optimal Sizing and Operational Strategy of Hybrid Renewable Energy System Using HOMER, The 4th International Power Engineering and Optimization Conférence MALAYSIA: 23-24 juin 2010
  11. Prabodh Bajpai , Vaishalee Dash (2012) Hybrid renewable energy systems for power generation in stand-alone applications: A review. Renewable and Sustainable Energy Reviews 16 2926–2939
  12. Rohit Sen, Subhes C. Bhattacharyya (2014) Off-grid electricity generation with renewable energy technologies in India: An application of HOMER. Renewable Energy 62 388e398
  13. Sunanda Sinha, S.S. Chandel (2015) Review of recent trends in optimization techniques for solar photovoltaic–wind based hybrid energy systems. Renewable and Sustainable Energy Reviews 50 755–769
  14. U. Sureshkumar, S.Manoharan, A.P.S. Ramalakshmi (2012) Economic Cost Analysis of Hybrid Renewable Energy System using HOMER, IEEE- International Conference On Advances In Engineering. Science And Management (ICAESM -2012)
  15. Vincent Demeusy (2011). Dimensionnement d'un système hybride photovoltaïque,groupe électrogène avec le logiciel HOMER
  16. Mohd.A, Ortjohann.E, W.Sinsukthavorn, “Supervisory control and energy management of an inverter-based modular smart grid,” IEEE PES Power Systems Conference and Exposition, pp.1-6, 2009
  17. M.S.Hossan, M.M.Hossain, A.Haque, “Optimization and modeling of a hybrid energy system for off-grid electrification,” IEEE International Conference on Environment and Electrical Engineering, pp.1-4, 2011
  18. Prabodh Bajpai , Vaishalee Dash,Hybrid renewable energy systems for power generation in stand-alone applications: A review, Renewable and Sustainable Energy Reviews 16 (2012) 2926–2939
  19. Nayar CV. Standalone wind/diesel/battery hybrid energy systems. Wind Energy 1997; 21(1):13–9
  20. Luna-Rubio R, et al. Optimal sizing of renewable hybrids energy systems: a review of methodologies. Solar Energy 2012;86:1077–88 pp
  21. Gansler Robert A, Klein SA, Beckman WA. Assessment of the accuracy of generated meteorological data for use in solar energy simulation studies. Sol Energy 1994;53(3):279–87
  22. Nurul Arina bte Abdull Razak, Muhammad Murtadha bin Othman, Ismail Musir, Optimal Sizing and Operational Strategy of Hybrid Renewable Energy System Using HOMER, The 4th International Power Engineering and Optimization Conférence/ MALAYSIA: 23-24 juin 2010
  23. U. Sureshkumar, S.Manoharan, A.P.S. Ramalakshmi, Economic Cost Analysis of Hybrid Renewable Energy System using HOMER, IEEE- International Conference On Advances In Engineering, Science And Management (ICAESM -2012) March 30, 31, 2012
  24. Rohit Sen, Subhes C. Bhattacharyya, Off-grid electricity generation with renewable energy technologies in India: An application of HOMER, Renewable Energy 62 (2014) 388e398

Last update:

  1. HOMER optimization of standalone PV/Wind/Battery powered hydrogen refueling stations located at twenty selected French cities

    Fakher Oueslati. International Journal of Renewable Energy Development, 12 (6), 2023. doi: 10.14710/ijred.2023.58218

  2. Movement of a Solar Electric Vehicle Controlled by ANN-based DTC in Hot Climate Regions

    Asma Benayad, Brahim Gasbaoui, Said Bentouba, Mohammed Amine Soumeur. International Journal of Renewable Energy Development, 10 (1), 2021. doi: 10.14710/ijred.2021.18596

  3. Techno-economic and environmental analyses of a grid-connected renewable energy power system in Madura, Indonesia

    Nizar Amir, Misri Gozan, Moonyong Lee, Kukuh Winarso. International Journal of Ambient Energy, 44 (1), 2023. doi: 10.1080/01430750.2022.2127888

  4. Sizing, optimization, control and energy management of hybrid renewable energy system—A review

    Chouaib Ammari, Djamel Belatrache, Batoul Touhami, Salim Makhloufi. Energy and Built Environment, 3 (4), 2022. doi: 10.1016/j.enbenv.2021.04.002

  5. Optimal Sizing, Control, and Management Strategies for Hybrid Renewable Energy Systems: A Comprehensive Review

    Akhlaque Ahmad Khan, Ahmad Faiz Minai, Rupendra Kumar Pachauri, Hasmat Malik. Energies, 15 (17), 2022. doi: 10.3390/en15176249

  6. Technical and Economical Evaluation of Micro-Solar PV/Diesel Hybrid Generation System for Small Demand

    Tsutomu Dei, Nomuulin Batjargal. International Journal of Renewable Energy Development, 11 (4), 2022. doi: 10.14710/ijred.2022.46747

  7. Sizing, optimization, control and energy management of hybrid renewable energy system- a review

    Chouaib Ammari, Djamel Belatrache, Batoul Touhami, Salim Makhloufi. Energy and Built Environment, 2021. doi: 10.1016/j.enbenv.2021.04.002

Last update: 2024-04-15 06:20:58

  1. Movement of a Solar Electric Vehicle Controlled by ANN-based DTC in Hot Climate Regions

    Asma Benayad, Brahim Gasbaoui, Said Bentouba, Mohammed Amine Soumeur. International Journal of Renewable Energy Development, 10 (1), 2021. doi: 10.14710/ijred.2021.18596

  2. Solar power - A clean energy source that contributes to energy balance in Vietnam: A mini-review

    Dong V.H.. Journal of Mechanical Engineering Research and Developments, 42 (5), 2019. doi: 10.26480/jmerd.05.2019.177.181

  3. Evaluation criteria of independent hybrid energy systems

    Jung T.. International Journal of Low-Carbon Technologies, 14 (4), 2019. doi: 10.1093/ijlct/ctz036