Optimizing Power Generation: Integrating Diesel/Biodiesel and Hydrogen in Electric Power Station Generators for Enhanced Sustainability
Elkelawy, M., Fadel, K., Seleem, H. (2025). Optimizing Power Generation: Integrating Diesel/Biodiesel and Hydrogen in Electric Power Station Generators for Enhanced Sustainability. EKB Journal Management System, 2(1), 169-184. doi: 10.21608/pesj.2025.369000.1017
Medhat Elkelawy; Khaled Fadel; Hussein Eltaibee Seleem. "Optimizing Power Generation: Integrating Diesel/Biodiesel and Hydrogen in Electric Power Station Generators for Enhanced Sustainability". EKB Journal Management System, 2, 1, 2025, 169-184. doi: 10.21608/pesj.2025.369000.1017
Elkelawy, M., Fadel, K., Seleem, H. (2025). 'Optimizing Power Generation: Integrating Diesel/Biodiesel and Hydrogen in Electric Power Station Generators for Enhanced Sustainability', EKB Journal Management System, 2(1), pp. 169-184. doi: 10.21608/pesj.2025.369000.1017
Elkelawy, M., Fadel, K., Seleem, H. Optimizing Power Generation: Integrating Diesel/Biodiesel and Hydrogen in Electric Power Station Generators for Enhanced Sustainability. EKB Journal Management System, 2025; 2(1): 169-184. doi: 10.21608/pesj.2025.369000.1017

Optimizing Power Generation: Integrating Diesel/Biodiesel and Hydrogen in Electric Power Station Generators for Enhanced Sustainability

Pharos Engineering Science Journal
Volume 2, Issue 1, June 2025, Page 169-184  XML PDF (776.66 K)
Document Type: Technical letters
DOI: 10.21608/pesj.2025.369000.1017
View on SCiNiTO View on SCiNiTO
Authors
Medhat Elkelawy email orcid 1; Khaled Fadel2; Hussein Eltaibee Seleemorcid 3
1Mechanical engineering department, Faculty of Engineering, Pharos University in Alexandria, Alexandria, Egypt Department of Mechanical Power Engineering, Faculty of Engineering, Tanta University, Tanta, Egypt
2Mechanical engineering department, Faculty of Engineering, Pharos University in Alexandria, Alexandria, Egypt
3Electronics and Communications Engineering, Faculty of Engineering, Tanta University
Abstract
The combination of diesel/biodiesel and hydrogen in electric power station generators presents a promising approach to reducing emissions and enhancing sustainability in power generation. This study explores the performance and environmental impact of utilizing hydrogen alongside diesel and biodiesel in a dual-fuel system. Biodiesel, derived from renewable sources, significantly reduces the carbon footprint compared to conventional diesel, while hydrogen, with its zero-carbon combustion, further decreases greenhouse gas (GHG) emissions. Quantitative analysis reveals that blending up to 50% hydrogen with diesel or biodiesel leads to a 35% reduction in CO2 emissions, a 20% reduction in nitrogen oxides (NOx), and a 25% decrease in particulate matter (PM). The system also demonstrated a 10-15% increase in fuel efficiency, attributed to hydrogen’s high energy content and faster combustion characteristics. Real-world applications, such as pilot projects in Brazil and Denmark, have successfully tested this dual-fuel technology, showing significant emissions reductions and improved generator performance. Although challenges remain, particularly with hydrogen storage and infrastructure, the integration of diesel/biodiesel-hydrogen systems offers a transitional pathway to decarbonizing power plants. This approach supports the shift toward cleaner energy sources, contributing to global sustainability efforts and carbon reduction targets in the energy sector.
Keywords
Dual-fuel diesel engine; Green hydrogen; Carbon emissions; Particulate matter (PM); Nitrogen oxides (NOx)
Statistics
Article View: 77
PDF Download: 42