Abstract
High voltage overhead transmission line route selection has become a vital component of the power transmission line project life cycle as demand for electricity has increased and global awareness of the environmental implications of large-scale power projects has grown. The project necessitates meticulous planning, engineering designs, facility installations, commissioning, and maintenance, as any errors made at this stage may have a flowing detrimental impact on the following phase, which may be too costly to fix. Using geographic information system (GIS), multi-criteria decision analysis approach, and environmental impact factors strategies, this study determines the best route from existing geographical space between Lafia 330/132/33kV Substation in Nasarawa State and New Apo (Pigba) 330/132/33/kV Substation in the Federal Capital Territory, Central Nigeria, Abuja. Land use, land cover, and other environmental data were obtained by performing image classification on Landsat 8 satellite image using ArcGIS 10.1 to achieve this goal. Three key terrain elements were identified to define the land cover types: built-up areas, vegetation, and water bodies. These layers were created to reveal the locations of significant settlements, geological formations, and the HV-OHTL route that avoided crossing protected areas. Using pair-wise comparison of analytic hierarchy process (AHP) approach, each criterion evaluated was assigned relative weight that shows their level of influence on the proposed power transmission line, and these were provided as GIS layers for visualizations. To build the cost surfaces assessed during route selection for HV-OHTL, weights derived from AHP method for each decision makers were applied to all layers to create the cost surfaces analyzed during route selection for HV-OHTL.
Highlights
The high-voltage over-head transmission line (HV-OHTL) is a dependable option for bulk power transmission around the world
A balance is struck in the United Kingdom (UK) between constitutional demands, engineering needs, economic viability, land use land cover (LULC), and environmental stressors (Marshall and Baxter, 2002)
Geology, Erosion, Soil, Land Use Land Cover, Road Network, and Protected Zone layers are part of the data set used in this investigation
Summary
The high-voltage over-head transmission line (HV-OHTL) is a dependable option for bulk power transmission around the world. The HV-OHTL is a large linear structure erected in a landscape setting, making it the most important in determining environmental variables that influence the best power transmission line routing. All those parameters that influence route decisions at varied degrees and phases of project installation and operations are all those parameters that exist in a transmission line right-of-way. These variables can have a direct or indirect impact on the path, and they might be apparent or invisible. Electricity demand is rising internationally as a result of rapid population increase (International Energy Agency, 2019), and the benefits of a reliable and high-quality electricity supply to customers boost economic growth and social-economic development (Taylor, 2017)
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