| 5607 - 5607 |
Hydrogen energy, electrolyzers and fuel cells - The future of modern energy sector
Smolinski A, Howaniec N |
| 5608 - 5628 |
Thermodynamic analysis of a novel solar and geothermal based combined energy system for hydrogen production
Karapekmez A, Dincer I |
| 5629 - 5635 |
High temperature electrolysis of hydrogen bromide gas for hydrogen production using solid oxide membrane electrolyzer
Khalid F, Bicer Y |
| 5636 - 5652 |
Geothermal and solar based mutligenerational system: A comparative analysis
Waseem S, Ratlamwala TAH, Salman Y, Bham AA |
| 5653 - 5667 |
Comparative energy, exergy and exergo-economic analysis of solar driven supercritical carbon dioxide power and hydrogen generation cycle
Abid M, Khan MS, Ratlamwala TAH |
| 5668 - 5686 |
Development and performance analysis of a new solar tower and high temperature steam electrolyzer hybrid integrated plant
Yilmaz F, Ozturk M, Selbas R |
| 5687 - 5696 |
Improvement of hydrogen production by metabolic engineering of Escherichia coli: Modification on both the PTS system and central carbon metabolism
Balderas-Hernandez VE, Maldonado KPL, Sanchez A, Smolinski A, Rodriguez AD |
| 5697 - 5709 |
Simulations of volumetric hydrogen storage capacities of nanoporous carbons: Effect of dispersion interactions as a function of pressure, temperature and pore width
Cabria I |
| 5710 - 5722 |
Dynamic modeling of the effect of water management on polymer electrolyte fuel cells performance
Culubret S, Rubio MA, Sanchez DG, Urquia A |
| 5723 - 5733 |
A sustainable alkaline membrane fuel cell (SAMFC) stack characterization, model validation and optimal operation
Raimundo RC, Vargas JVC, Ordonez JC, Balmant W, Polla PTB, Mariano AB, Marino CEB |
| 5734 - 5744 |
Exergoeconomic analysis and optimization of a new hybrid fuel cell vehicle
Ezzat M, Dincer I |
| 5745 - 5756 |
Comparative analysis of various techniques to improve the performance of novel wheat germ oil - an experimental study
Geo VE, Prabhu C, Thiyagarajan S, Maiyalagan T, Aloui F |
