Energy and Power Engineering

Volume 1, Issue 2 (November 2009)

ISSN Print: 1949-243X   ISSN Online: 1947-3818

Google-based Impact Factor: 0.66  Citations  

Wind-Solar Hybrid Electrical Power Production to Support National Grid: Case Study - Jordan

HTML  Download Download as PDF (Size: 1735KB)  PP. 72-80  
DOI: 10.4236/epe.2009.12011    13,953 Downloads   26,226 Views  Citations

Affiliation(s)

.

ABSTRACT

The paper presents the next generation of power energy systems using solar- and wind-energy systems for the country of Jordan. Presently with the oil prices are on the rise, the cost of electrical power production is very high. The opportunity of a large wind and solar hybrid power production is being explored. Sights are chosen to produce electricity using the wind in the Mountains in Northern Jordan and the sun in the Eastern Desert. It is found that the cost of windmill farm to produce 100 - 150 MW is US$290 million while solar power station to produce 100 MW costs US$560 million. The electrical power costs US$0.02/kWh for the wind power and US$0.077 for the solar power. The feasibility for using wind and solar energies is now when the price oil reaches US$ 100.00 per barrel. The paper also discusses different power electronics circuits and control methods to link the renewable energy to the national grid. This paper also looks at some of the modern power electronics converters and electrical generators, which have improved significantly solar and wind energy technologies.

Share and Cite:

G. HALASA and J. ASUMADU, "Wind-Solar Hybrid Electrical Power Production to Support National Grid: Case Study - Jordan," Energy and Power Engineering, Vol. 1 No. 2, 2009, pp. 72-80. doi: 10.4236/epe.2009.12011.

Cited by

[1] PENERAPAN PEMBANGKIT HYBRID SEBAGAI PENGGERAK KINCIR AIR PADA TAMBAK UDANG
2021
[2] Optimization of the wind farm layout by repowering the old wind farm and integrating solar power plants: A case study
2020
[3] A Review of Solar-Wind Hybrid System for Power Generation in Nigeria Sani Ibrahim
2020
[4] Grid-Connected Renewable Energy Microgrids: A Systematic Review
2020
[5] 100% Renewable Energy Grid for Rural Electrification of Remote Areas: A Case Study in Jordan
2020
[6] Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
2019
[7] Smart hybrid wind-solar street lighting system fuzzy based approach: Case study Istanbul-Turkey
2018
[8] Analytical model for prediction of residual stress in dynamic orthogonal cutting process
2018
[9] PERFORMANCE ANALYSIS OF HYDROKINETIC HYBRID SYSTEM WITH WATER VELOCITY ESTIMATION TECHNIQUE FOR RURAL ELECTRIFICATION IN …
2018
[10] State of the Art in Research on Optimum Design, Reliability and Control of Renewable Energy Microgrids
2018
[11] Sizing of a Photovoltaic-Wind-Oil Shale Hybrid System: Case Analysis in Jordan
2018
[12] Analysis and Design of a Hybrid Renewable Energy System–Lebanon Case
2017
[13] Sizing of a PV-wind-oil shale hybrid system: Case analysis in Jordan
2017
[14] Construction & Fabrication of Hybrid Power Generator Using Mini Wind Mill And Solar Panel
International e-Journal For Education And Research, 2017
[15] Multilevel converter for direct grid integration of renewable energy system
2017
[16] İtü Ayazağa Yerleşkesi İçin Rüzgar/güneş Hibrit Güç Santralı Analizi
2017
[17] SIMULATION AND ANALYSIS OF SOLAR PV SYSTEM WITH HYBRID OPERATION OF WIND POWER PLANT WITH BATTERY OPERATED CHARGE CONTROLLER
International Journal For Technological Research In Engineering, 2017
[18] Model for optimum design of standalone hybrid renewable energy microgrids
Journal of Fundamental and Applied Sciences, 2017
[19] BELAGAVI-590018
2017
[20] ISTANBUL TECHNICAL UNIVERSITY★ ENERGY INSTITUTE
2017
[21] An integrated analysis for sustainable supply of remote winter tourist centers-a future concept case study
2016
[22] Wind Solar Hybrid Energy Conversion System-Literature Review
2016
[23] REVIEW ON SOLAR PHOTOVOLTAIC AND WIND POWER PLANT BASED RENEWABLE HYBRID POWER SYSTEM
2016
[24] Leadership Styles Inextricably Intertwined With the Alternative Energy of Solar, Wind, or Hybrid as Disruptive Technologies
Energy Sources, Part B: Economics, Planning, and Policy, 2014
[25] Development of hybrid power generation model using rain water, solar and wind
2014
[26] Development and Realization of an Intelligent Power Strip for Energy Consumption Management in Hybrid Wind/Photovoltaic Systems
Energy Procedia, 2013
[27] Experimental investigation and assessment of renewable energy integration into the grid
2013
[28] Hybrid energy harvesting using piezoelectric materials, automatic rotational solar panel, vertical axis wind turbine
2012
[29] SciVerse ScienceDirect Procedia Engineering
2012
[30] On the operation and maintenance practices of wind power asset
2012
[31] Meeting energy demand and global warming by integrating renewable energy into the grid
Universities Power Engineering Conference (AUPEC), 2012 22nd Australasian, 2012
[32] Prospects of renewable energy–a feasibility study in the Australian context
Renewable Energy, 2012
[33] Transformer-less three-port grid-connected power converter for distribution power generation system with dual renewable energy sources
IET Power Electronics, 2012
[34] On the operation and maintenance practices of wind power asset: A status review and observations
Journal of Quality in Maintenance Engineering, 2012
[35] Techno-economic analysis of an off-grid photovoltaic natural gas power system for a university
Sustainable Energy & Environment (ISESEE), 2011 3rd International Symposium & Exhibition in, 2011
[36] Nanotechnology, Solar, Wind, and Hybrid Alternative Energy: Global Leadership Perspectives
2010
[37] An analysis & design on micro generation of a domestic solar-wind hybrid energy system for rural & remote areas-perspective Bangladesh
2010

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.