Multi criteria site selection model for wind-compressed air energy storage power plants in Iran

In this research, a site selection method for wind-compressed air energy storage (wind-CAES) power plants was developed and Iran was selected as a case study for modeling. The parameters delineated criteria for potential wind development localities for wind-CAES power plant sites. One important consequence of this research was the identification of the wind energy potential for wind-CAES sites. The theoretical wind energy potential of Iran of greater than 50W/m2 was identified from a wind atlas of Iran. The model produced factor maps by considering the boundary conditions of the input data and created geo-databases from the outputs maps. The main factor maps were electrical grids and substations, gas transmission lines, a wind energy atlas, thermal power plants (location and capacity), salt dome locations and extends (for compressed air reservation), slope data, a digital elevation model, cities and residential areas, water bodies and access roads. For every data layer, criteria where developed from existing laws, regulations and scientific studies and normalized for Iran. In the final step of analysis and modeling, the factor maps were integrated by coding using ArcGIS software and the wind-CAES power plants sites were selected. This research showed that 30 sites in 5 major zones have the capability to support installation of wind-CASE power plants in Iran.

[1]  Serwan Mj Baban,et al.  Developing and applying a GIS-assisted approach to locating wind farms in the UK , 2001 .

[2]  Richard David Moutoux Wind integrated Compressed Air Energy Storage in Colorado , 2007 .

[3]  Nasrudin Abd Rahim,et al.  Environmental impact of wind energy , 2011 .

[4]  Ryuichi Itoi,et al.  GIS model for geothermal resource exploration in Akita and Iwate prefectures, northern Japan , 2007, Comput. Geosci..

[5]  Hong Jiang,et al.  Application of fuzzy measures in multi-criteria evaluation in GIS , 2000, Int. J. Geogr. Inf. Sci..

[6]  F. Dinçer,et al.  The analysis on wind energy electricity generation status, potential and policies in the world , 2011 .

[7]  Toshiaki Tanaka,et al.  GIS integration model for geothermal exploration and well siting , 2008 .

[8]  Behnam Mohammadi-Ivatloo,et al.  Optimal operation scheduling of wind power integrated with compressed air energy storage (CAES) , 2013 .

[9]  Younes Noorollahi,et al.  Wind Energy Resources Assessment Using Geographical Information Systems (GIS), (Case Study: West Iran) , 2011 .

[10]  Paul Denholm,et al.  The value of compressed air energy storage with wind in transmission-constrained electric power systems , 2009 .

[11]  Sebastian Manchester,et al.  Compressed Air Storage and Wind Energy for Time-of-day Electricity Markets , 2013, ANT/SEIT.

[12]  M. Nakhamkin,et al.  Application of Air Saturation to Integrated Coal Gasification/CAES Power Plants , 1991 .

[13]  F. Agterberg,et al.  Integration of Geological Datasets for Gold Exploration in Nova Scotia , 2013 .