A High-Resolution Wind Farms Suitability Mapping Using GIS and Fuzzy AHP Approach: A National-Level Case Study in Sudan

Wind energy is one of the most attractive sustainable energy resources since it has low operation, maintenance, and production costs and a relatively low impact on the environment. Identifying the optimal sites for installing wind power plants (WPPs) is considered an important challenge of wind ener...

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Bibliographic Details
Published inSustainability Vol. 14; no. 1; p. 358
Main Authors Zalhaf, Amr S., Elboshy, Bahaa, Kotb, Kotb M., Han, Yang, Almaliki, Abdulrazak H., Aly, Reda M. H., Elkadeem, M. R.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2022
Subjects
Alternative energy sources
Analytic hierarchy process
Assessments
Case studies
Data acquisition
Decision making
Electric power generation
Electricity distribution
Elevation
Energy resources
Energy sources
Environmental aspects
Fuzzy sets
Geographic information systems
High resolution
Information processing
Laboratories
Lightning strikes
Mapping
Methods
Multiple criterion
Photovoltaics
Power plants
Production costs
Renewable resources
Spatial analysis
Sustainability
Turbines
Wind farms
Wind power
Wind speed
Greece
Sudan
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Summary:Wind energy is one of the most attractive sustainable energy resources since it has low operation, maintenance, and production costs and a relatively low impact on the environment. Identifying the optimal sites for installing wind power plants (WPPs) is considered an important challenge of wind energy development which requires careful and combined analyses of numerous criteria. This study introduces a high-resolution wind farms suitability mapping based on Fuzzy Analytical Hierarchy Process (FAHP) and Geographic Information System (GIS) approaches considering technical, environmental, social, and spatial aspects, representing eight different criteria. First, a multi-criteria decision-making analysis based on the FAHP method is employed to assign appropriate weights for the addressed criteria with respect to their relative importance. Since the traditional AHP method, which was found employed in the majority of the relative case-studies, is not efficient in dealing with uncertainty when experts use a basic scale (0 to 1) for their assessments, the FAHP provides more flexible scales through the utilized fuzzy membership functions and the natural linguistic variables. Consequently, this helps to facilitate the assessments made by experts and increases the precision of the obtained results (weights). Next, the high-resolution GIS is used to carry out a spatial analysis and integrate various factors/criteria throughout the proposed index to produce the final suitability map and identify the unsuitable areas. The presented study emphasizes investigating the lightning strike flash rate due to its significant influences on the wind turbine’s safety and operation, yet this crucial factor has been seldomly investigated in previous studies. The obtained findings revealed that the wind speed, the land slope, and the elevation had the highest weighted criteria with 33.1%, 24.8%, and 12.2%, respectively. Besides, the final-developed suitability map revealed that 23.22% and 8.31% of the Sudanese territory are of high and very high suitability, respectively, for wind farms installation which are considered sufficient to cover the electricity needs. The difficulty of acquiring real data and resources for the addressed location was the main challenge of the presented work. The work outlook addresses the suitability mapping of hybrid photovoltaic-wind turbine energy systems, which will require addressing new and significant criteria in the applied methodology.
ISSN:2071-1050
2071-1050
DOI:10.3390/su14010358