International Journal of Renewable Energy Research-IJRER

Matching between wind site characteristics and wind turbine characteristics for three selected sites in Iraq was carried out. To date, site-turbine matching for potential wind power application in Iraq has not yet been well reported on. Thus, in this study, five years’ wind speed data for sites located in Baghdad (23.26N, 44.23E), Nasiriyah (31.02N, 46.23E), and Basrah (30.37N, 48.25E) were collected. A full wind energy analysis based on the measured data, Weibull distribution function, and wind turbine characteristics was made. The primary objective was to achieve a standard wind turbine-site matching based on the capacity factor. Also, a new approach for matching based on the power density ratio of wind site and wind turbines was developed to assure that the initially-selected turbines operate at the most-efficient capacity factor. Results from the wind-energy analysis revealed that the Basrah site ranked the highest with wind class (5-Excellent) according to the international system of wind classification. Results from the wind turbine-site matching showed that Wikov W2000-93 was the best-matched wind turbine model for the Basrah site from the viewpoint of capacity factor. The results also showed that Nordex N90 Beta was the best-matched wind turbine model from the perspective of energy capture.

Gasch R, Twele J. Wind power plants: fundamentals,

design, construction and operation: Springer Science

& Business Media; 2011.

Habali S, Amr M, Saleh I, Ta’ani R. Wind as an

alternative source of energy in Jordan. Energy

Conversion and Management. 2001;42:339-57.

Bataineh KM, Dalalah D. Assessment of wind energy

potential for selected areas in Jordan. Renewable

energy. 2013;59:75-81.

Al-Nassar W, Alhajraf S, Al-Enizi A, Al-Awadhi L.

Potential wind power generation in the State of

Kuwait. Renewable Energy. 2005;30:2149-61.

Mohammadi K, Mostafaeipour A. Economic

feasibility of developing wind turbines in Aligoodarz,

Iran. Energy Conversion and Management.

;76:645-53.

Asl SJ, Banafsheh MR, Dinpashoh Y, Esmaeilpour M,

Mohammadi K, Khorshiddoust AM. Assessing wind

energy potential in Kurdistan province, Iran.

International Journal of Energy and Environmental

Engineering. 2014;5:100.

Pachauri RK, Chauhan YK. Assessment of wind

energy technology potential in Indian context.

International Journal of Renewable Energy Research

(IJRER). 2012;2:773-80.

Eltamaly AM. Design and implementation of wind

energy system in Saudi Arabia. Renewable Energy.

;60:42-52.

Baseer MA, Meyer JP, Rehman S, Alam MM. Wind

power characteristics of seven data collection sites in

Jubail, Saudi Arabia using Weibull parameters.

Renewable Energy. 2017;102:35-49.

Jowder FA. Wind power analysis and site matching of

wind turbine generators in Kingdom of Bahrain.

Applied Energy. 2009;86:538-45.

Ucar A, Balo F. Evaluation of wind energy potential

and electricity generation at six locations in Turkey.

Applied Energy. 2009;86:1864-72.

Chang T-P, Liu F-J, Ko H-H, Cheng S-P, Sun L-C,

Kuo S-C. Comparative analysis on power curve

models of wind turbine generator in estimating

capacity factor. Energy. 2014;73:88-95.

Chermitti A, Bencherif M, Nakoul Z, Bibitriki N,

Benyoucef B. Assessment parameters and matching

between the sites and wind turbines. Physics Procedia.

;55:192-8.

Baloch MH, Wang J, Kaloi GS. A review of the state

of the art control techniques for wind energy

conversion system. International Journal of

Renewable Energy Research (IJRER). 2016;6:1276-

Sathyajith M. Wind energy: fundamentals, resource

analysis and economics: Springer Science & Business

Media; 2006.

El-Shimy M. Optimal site matching of wind turbine

generator: Case study of the Gulf of Suez region in

Egypt. Renewable Energy. 2010;35:1870-8.

Abul’Wafa AR. Matching wind turbine generators

with wind regime in Egypt. Electric power systems

research. 2011;81:894-8.

Eltamaly A. Pairing between Sites and Wind Turbines

for Saudi Arabia Sites. Arabian Journal for Science

and Engineering. 2014;39.

Saheb Koussa D, Koussa M, Hadji S. Assessment of

various WTG (wind turbine generators) production in

different Algerian's climatic zones. Energy.

;96:449-60.

Albadi M, El-Saadany E. New method for estimating

CF of pitch-regulated wind turbines. Electric Power

Systems Research. 2010;80:1182-8.

Albadi M, El-Saadany E. Optimum turbine-site

matching. Energy. 2010;35:3593-602.

Ucar A, Balo F. A seasonal analysis of wind turbine

characteristics and wind power potential in Manisa,

Turkey. International Journal of Green Energy.

;5:466-79.

Ayodele T, Jimoh A, Munda J, Agee J. Wind

distribution and capacity factor estimation for wind

turbines in the coastal region of South Africa. Energy

Conversion and Management. 2012;64:614-25.

Darwish A, Sayigh A. Wind energy potential in Iraq.

Journal of Wind Engineering and Industrial

Aerodynamics. 1988;27:179-89.

Kazem HA, Chaichan MT. Status and future prospects

of renewable energy in Iraq. Renewable and

Sustainable Energy Reviews. 2012;16:6007-12.

Saeed IM, Ramli AT, Saleh MA. Assessment of

sustainability in energy of Iraq, and achievable

opportunities in the long run. Renewable and

Sustainable Energy Reviews. 2016;58:1207-15.

Abed FM, Al-Douri Y, Al-Shahery GM. Review on

the energy and renewable energy status in Iraq: The

INTERNATIONAL JOURNAL of RENEWABLE ENERGY RESEARCH

A.M. Rasham and J.M. Mahdi, Vol.8, No.3, September, 2018

outlooks. Renewable and Sustainable Energy

Reviews. 2014;39:816-27.

http://www.mapsopensource.com/iraq-governoratesmap.html

(Last visit:22/08/2018)

Weather Underground.

https://www.wunderground.com. (Last

visit:22/08/2018)

Manwell JF, McGowan JG, Rogers AL. Wind energy

explained: theory, design and application: John Wiley

& Sons; 2010.

Jain P. Wind energy engineering: McGraw-Hill; 2011.

Nelson V. Wind energy: renewable energy and the

environment: CRC press; 2013.

Wood D. Small Wind Turbines: Analysis, Design, and

Application. Springer-Verlag London; 2011.

Fazelpour F, Soltani N, Rosen MA. Wind resource

assessment and wind power potential for the city of

Ardabil, Iran. International Journal of Energy and

Environmental Engineering. 2014;6:431.

Ajayi OO, Fagbenle RO, Katende J, Aasa SA,

Okeniyi JO. Wind profile characteristics and turbine

performance analysis in Kano, north-western Nigeria.

International Journal of Energy and Environmental

Engineering. 2013;4:27.

Bagiorgas HS, Mihalakakou G, Rehman S, AlHadhrami

LM. Wind power potential assessment for

seven buoys data collection stations in Aegean Sea

using Weibull distribution function. Journal of

Renewable and Sustainable Energy. 2012;4:013119.

Wind-turbine-models. https://en.wind-turbinemodels.com/models.

(Last visit:22/08/2018)