Technical analysis of exploiting untapped wind power for sustainable hydrogen energy production

This research explores the untapped potential of harnessing Morocco's abundant wind resources for sustainable hydrogen production. Through a meticulous examination of a comprehensive dataset detailing wind patterns in Moroccan cities and thorough scrutiny of the technical aspects of wind-to-hydrogen systems, our study unveils compelling evidence that these cities possess significant untapped wind power potential for hydrogen generation. What sets this potential apart is its feasibility without incurring additional costs, positioning it as a practical pathway toward achieving energy sustainability and mitigating greenhouse gas emissions in the region. The study offers valuable insights into the viability of integrating wind power and hydrogen production to foster a more environmentally friendly energy landscape in Morocco. Our findings reveal that, on an annual basis, electricity generation for specific locations, namely Tangier, Tetouan, and Essaouira, amounts to 9.96 GW, 2.93 GW, and 19.78 GW, respectively. Correspondingly, the annual hydrogen production at these locations stands at 180.41 tonnes for Tangier, 53 tonnes for Tetouan, and 358 tonnes for Essaouira, underscoring the considerable potential for clean energy generation and hydrogen output. This research not only identifies the untapped wind power potential in Moroccan cities but also establishes a clear link between wind power and sustainable hydrogen production. The presented evidence supports the feasibility of implementing this integrated approach as a practical and cost-effective means of advancing Morocco's journey towards a more sustainable and environmentally conscious energy future.