Abstract
Ten-year hourly recorded wind meteorological data at six sites along the coastline of Pakistan at two heights (10 and 50 m) were extrapolated to two higher heights (80 and 100 m). Monthly and seasonal analysis of variation in air density (ρ), wind speed, Weibull parameters ( K and C), wind power density, and wind energy density with height was investigated. Analysis shows that wind shear coefficient is highest in winter and lowest in summer. ρ, wind speed, wind power density, and wind energy density all increase with increasing hub height, with the most prominent increment in winter and the lowest in summer. With increasing height, K has been found to decrease slightly while C increases. Techno-economic feasibility analysis of annual energy production using 15 turbines was carried out which shows that capacity factor alone cannot render a turbine feasible but also economic assessment is mandatory to evaluate the feasibility of turbines. G1 and G2 turbines have been found the best options while B5 and V2 as the worst. Comparison among sites shows that Karachi is the most potential site with cost of energy of $0.017/kW h while Jiwani is the worst site with cost of energy of $0.039/kW h both at 100 m height.
Highlights
Substantial increase in energy demand owing to huge increase in global population, limited conventional fossil fuel resources and a thirst to mitigate hazardous environmental impacts associated with the usage of fossil fuels make it necessary to utilize renewable energy sources which have minimum carbon emission (Khahro et al, 2014a, 2014b)
It has been observed that wind shear coefficient (WSC) varies throughout the year depending upon atmospheric conditions
The highest values of WSC have been observed in winter and the lowest in summer
Summary
Substantial increase in energy demand owing to huge increase in global population, limited conventional fossil fuel resources and a thirst to mitigate hazardous environmental impacts associated with the usage of fossil fuels make it necessary to utilize renewable energy sources which have minimum carbon emission (Khahro et al, 2014a, 2014b). About 9.06% of Pakistan’s land area is suitable for wind energy utilization (Hulio et al, 2019a); coastline of Pakistan is one of those suitable areas which is planned to be utilized for wind power projects installation by Government of Pakistan (GOP). This area remains untouched so far as far as wind potential exploration is concerned
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