Energy analysis of hydrogen production from a hybrid wind turbine-electrolyzer system
Citation
Akyuz, E., Oktay, Z., Dincer, I. (2014). Energy Analysis of Hydrogen Production from a Hybrid Wind Turbine-Electrolyzer System. In: Dincer, I., Midilli, A., Kucuk, H. (eds) Progress in Exergy, Energy, and the Environment. Springer, Cham. https://doi.org/10.1007/978-3-319-04681-5_33Abstract
In this study, the energy performance of hybrid wind-hydrogen system is investigated. In addition to energy performance, a cost analysis of hydrogen production is also carried out for stand-alone system for different PEM electrolyzer capacities. Monthly efficiency variations for wind turbine operation for the total system are calculated and maximum efficiency values obtained as 22 % and 11.9 %, respectively. Energy efficiency of the PEM electrolyzer is determined for different temperature and electric current values. The results show that increasing the working temperature from 35 °C to 75 °C increases the energy efficiency of PEM electrolyzer from 62 % to 70 % at 30 A current. Hydrogen cost is calculated by economic analysis of wind-electrolysis-hydrogen production systems using the present-value method. The lowest cost at 6 m/s wind speed is calculated as 23.6 US$/kg. The size of electrolysis unit gains importance in regions with high annual average wind speed. In this regard, the optimum size is determined as 0.7 kW. The lowest cost at 6 m/s wind speed is calculated as 23.6 US$/kg. Furthermore, economics of wind-hydrogen system not only depends on the cost of wind turbine and electrolyzer but also on the configuration and resources. © Springer International Publishing Switzerland 2014.