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Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software

Year 2017, Volume: 12 Issue: 4, 270 - 276, 30.12.2017

Abstract

The limited amount of fossil fuel, increasing
demand of energy and global environmental issues for electricity generation is
the main consideration for exploitation of renewable energy resources (RE).
Improvements in photovoltaic technologies and wind turbine generators have
given different opportunities for utilizing these renewable resources for
electricity generation. The purpose of this paper is to calculate the energy
demand, optimization, economic viability of system and evaluation of  designs for both off-grid and on-grid
connected power systems for a range of applications and in order to know the
cost of solar PV system by using Homer (Hybrid Optimization Model for Electric
Renewable) software developed by National Renewable Energy Laboratory (NREL),
USA for the Economically, clean power and optimum utilization of renewable
energy sources for Institute of Environmental Engineering & Management MUET
Jamshoro Pakistan.

References

  • Ali L, Shahnia F, (2017) Determination of an economically-suitable and sustainable standalone power system for an off-grid town in Western Australia, Renew. Energy, 106, 243–254.
  • Bhatt A, Sharma M, Saini R, (2016) Feasibility and sensitivity analysis of an off-grid micro hydroephotovoltaicebiomass and biogasedieselebattery hybrid energy system for a remote area in Uttarakhand state, India, Renew. Sustain. Energy Rev. 61, 53-69
  • Hoque MM, Bhuiyan IKA, Ahmed R, Farooque AA, Aditya SK, (2012) Design, Analysis and Performance Study of a Hybrid PVDiesel Wind System for a Village Gopal Nagar in Comilla, Renew. Sustain. Energy Rev., 12 (5), 1–5.
  • Latif A, Ramzan N, (2014) A review of renewable energy resources in Pakistan, J. Glob. Innov. Agric. Soc. Sci. 2(3), 127–132.
  • Li C, Ge X, Zheng Y, Xu C, Ren Y, Song C, (2013) Techno-economic feasibility study of autonomous hybrid wind / PV / battery power system for a household in Urumqi , China,” Energy, 55, 263-272.
  • Maatallah T, Ghodhbane N, Ben Nasrallah S, (2016) Assessment viability for hybrid energy system (PV / wind / diesel ) with storage in the northernmost city in Africa, Bizerte, Tunisia, Renew. Sustain. Energy Rev., 59, 1639-1652.
  • Munuswamy, K. Nakamura, A. Katta, (2011) Comparing the cost of electricity sourced from a fuel cell-based renewable energy system and the national grid to electrify a rural health centrein India: a case study, Renew. Energy, 36 (11), 2978-2983.
  • Papaioannou DI, Papadimitriou CN, Dimeas AL, Zountouridou EI, Kiokes GC. “Optimization & Sensitivity Analysis of Microgrids using HOMER software- A Case Study.” Renew. Sustain. Energy Rev, 16 (8), 6183–6190.
  • Phrakonkham S, Chenadec JLe, Diallo D, Ieee SM, (2013) Optimization software tool review and the need of alternative means for handling the problems of excess energy and mini-grid configuration: A case study from Laos. Renew. Sustain. Energy Rev, 107, 24–30
  • Sinha S, Chandel SS,(2014) “Review of software tools for hybrid renewable energy systems, Renew. Sustain. Energy Rev., 32, 192–205.
  • Türkay BE, Telli AY, (2011) Economic analysis of standalone and grid connected hybrid energy systems, Renew. Energy, 36 (7), 1931–1943.
Year 2017, Volume: 12 Issue: 4, 270 - 276, 30.12.2017

Abstract

References

  • Ali L, Shahnia F, (2017) Determination of an economically-suitable and sustainable standalone power system for an off-grid town in Western Australia, Renew. Energy, 106, 243–254.
  • Bhatt A, Sharma M, Saini R, (2016) Feasibility and sensitivity analysis of an off-grid micro hydroephotovoltaicebiomass and biogasedieselebattery hybrid energy system for a remote area in Uttarakhand state, India, Renew. Sustain. Energy Rev. 61, 53-69
  • Hoque MM, Bhuiyan IKA, Ahmed R, Farooque AA, Aditya SK, (2012) Design, Analysis and Performance Study of a Hybrid PVDiesel Wind System for a Village Gopal Nagar in Comilla, Renew. Sustain. Energy Rev., 12 (5), 1–5.
  • Latif A, Ramzan N, (2014) A review of renewable energy resources in Pakistan, J. Glob. Innov. Agric. Soc. Sci. 2(3), 127–132.
  • Li C, Ge X, Zheng Y, Xu C, Ren Y, Song C, (2013) Techno-economic feasibility study of autonomous hybrid wind / PV / battery power system for a household in Urumqi , China,” Energy, 55, 263-272.
  • Maatallah T, Ghodhbane N, Ben Nasrallah S, (2016) Assessment viability for hybrid energy system (PV / wind / diesel ) with storage in the northernmost city in Africa, Bizerte, Tunisia, Renew. Sustain. Energy Rev., 59, 1639-1652.
  • Munuswamy, K. Nakamura, A. Katta, (2011) Comparing the cost of electricity sourced from a fuel cell-based renewable energy system and the national grid to electrify a rural health centrein India: a case study, Renew. Energy, 36 (11), 2978-2983.
  • Papaioannou DI, Papadimitriou CN, Dimeas AL, Zountouridou EI, Kiokes GC. “Optimization & Sensitivity Analysis of Microgrids using HOMER software- A Case Study.” Renew. Sustain. Energy Rev, 16 (8), 6183–6190.
  • Phrakonkham S, Chenadec JLe, Diallo D, Ieee SM, (2013) Optimization software tool review and the need of alternative means for handling the problems of excess energy and mini-grid configuration: A case study from Laos. Renew. Sustain. Energy Rev, 107, 24–30
  • Sinha S, Chandel SS,(2014) “Review of software tools for hybrid renewable energy systems, Renew. Sustain. Energy Rev., 32, 192–205.
  • Türkay BE, Telli AY, (2011) Economic analysis of standalone and grid connected hybrid energy systems, Renew. Energy, 36 (7), 1931–1943.
There are 11 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

İqra Panhwar

Abdul Razaque Sahito This is me

Sukru Dursun

Publication Date December 30, 2017
Acceptance Date December 22, 2017
Published in Issue Year 2017 Volume: 12 Issue: 4

Cite

APA Panhwar, İ., Sahito, A. R., & Dursun, S. (2017). Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software. Journal of International Environmental Application and Science, 12(4), 270-276.
AMA Panhwar İ, Sahito AR, Dursun S. Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software. J. Int. Environmental Application & Science. December 2017;12(4):270-276.
Chicago Panhwar, İqra, Abdul Razaque Sahito, and Sukru Dursun. “Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software”. Journal of International Environmental Application and Science 12, no. 4 (December 2017): 270-76.
EndNote Panhwar İ, Sahito AR, Dursun S (December 1, 2017) Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software. Journal of International Environmental Application and Science 12 4 270–276.
IEEE İ. Panhwar, A. R. Sahito, and S. Dursun, “Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software”, J. Int. Environmental Application & Science, vol. 12, no. 4, pp. 270–276, 2017.
ISNAD Panhwar, İqra et al. “Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software”. Journal of International Environmental Application and Science 12/4 (December 2017), 270-276.
JAMA Panhwar İ, Sahito AR, Dursun S. Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software. J. Int. Environmental Application & Science. 2017;12:270–276.
MLA Panhwar, İqra et al. “Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software”. Journal of International Environmental Application and Science, vol. 12, no. 4, 2017, pp. 270-6.
Vancouver Panhwar İ, Sahito AR, Dursun S. Designing Off-Grid and On-Grid Renewable Energy Systems Using HOMER Pro Software. J. Int. Environmental Application & Science. 2017;12(4):270-6.

“Journal of International Environmental Application and Science”