Leveraging Wind Energy for Electricity and Hydrogen Production: A Sustainable Solution to Power Shortages and Eco‐Friendly Alternative Fuel
Mohamed Elnaggar, Wael A. Salah, Hala J. El‐Khozondar, Yasser F. Nassar, Mohammed J.K. Bashir
Abstract
This research aims to harness wind energy to generate power and green hydrogen as a fuel for hydrogen fuel cell vehicles. The wind‐generated power is divided into two parts: one alleviates Gaza's electrical need, and the other is used to produce hydrogen. The study assesses various wind turbine options, calculates electricity and hydrogen production potential, and quantifies CO 2 emission reductions compared to fossil fuel alternatives. The results shown that the lowest levelized cost of energy (LCOE) and levelized cost of hydrogen (LCOH) are found to be $0.0696/kWh and $4.8/kg, respectively. The lowest levelized cost of hydrogen (LCOH) delivered, including transportation expenses, has a value of 5.15 $ kg −1 of H 2 . Furthermore, the results reveal that employing a Siemens SWT‐2.3‐93 turbine, which provides an annual energy output of 3910.288 MWh, may cut CO 2 emissions by up to 1071.81 tons if replacing power plants that use fuel oil and 735.134 tons if replacing those that use natural gas. Finally, a comparison of hydrogen fuel cell cars to gasoline and diesel vehicles reveal that 1 kg of hydrogen fuel cells generate 4.85 and 4.45 times more energy than 1 kg of gasoline and diesel, respectively. The findings may be valuable for decision‐makers in the surrounding countries with energy challenges.