3395 - 3395 |
Preface to special issue on hydrogen energy technologies for mitigating global warming Colpan CO, Ezan MA |
3396 - 3406 |
The potential role of hydrogen as a sustainable transportation fuel to combat global warming Acar C, Dincer I |
3407 - 3413 |
Effects of metals in wastewater on hydrogen gas production using electrohydrolysis Cokay E, Gurley Y |
3414 - 3434 |
A review on the catalysts used for hydrogen production from ammonia borane Alpaydin CY, Gulbay SK, Colpan CO |
3435 - 3443 |
Effect of fuel blend composition on hydrogen yield in co-gasification of coal and non-woody biomass Cabuk B, Duman G, Yanik J, Olgun H |
3444 - 3456 |
Hydrogen production via thermochemical H2O splitting using CaSO4 - CaO redox reactions Bhosale RR |
3457 - 3469 |
Design and analysis of a combined floating photovoltaic system for electricity and hydrogen production Temiz M, Javani N |
3470 - 3483 |
Thermodynamic analysis of an oxy-hydrogen combustor supported solar and wind energy-based sustainable polygeneration system for remote locations Luqman M, Bicer Y, Al-Ansari T |
3484 - 3498 |
Design and analysis of a multigeneration system with concentrating photovoltaic thermal (CPV/T) and hydrogen storage Khan SA, Bicer Y, Koc M |
3499 - 3508 |
Biohydrogen production from acid hydrolyzed wastewater treatment sludge by dark fermentation Ilgi K, Onur B |
3509 - 3515 |
Application of aspen plus to renewable hydrogen production from glycerol by steam reforming Unlu D, Hilmioglu ND |
3516 - 3523 |
Microarray analysis of high light intensity stress on hydrogen production metabolism of Rhodobacter capsulatus Gurgan M, Koku H, Eroglu I, Yucel M |
3524 - 3531 |
The effect of hydraulic retention time on thermophilic dark fermentative biohydrogen production in the continuously operated packed bed bioreactor Karapinar I, Yildiz PG, Pamuk RT, Gorgec FK |
3532 - 3548 |
Numerical modeling of a downdraft plasma coal gasifier with plasma reactions Ibrahimoglu B, Yilmazoglu MZ |
3549 - 3557 |
Enhanced hydrogen purification by graphene - Poly(Dimethyl siloxane) membrane Nigiz FU, Hilmioglu ND |
3558 - 3568 |
Optimum energy evaluation and life cycle cost assessment of a hydrogen liquefaction system assisted by geothermal energy Yilmaz C |
3569 - 3576 |
Bimetallic palladium-cobalt nanomaterials as highly efficient catalysts for dehydrocoupling of dimethylamine borane Sen B, Aygun A, Savk A, Calimli MH, Gulbay SK, Sen F |
3577 - 3583 |
Modeling and analysis of a model solid oxide fuel cell running on low calorific value coal gases Ilbas M, Kumuk B |
3584 - 3594 |
Energy and exergy performance assessments of a high temperature-proton exchange membrane fuel cell based integrated cogeneration system Nalbant Y, Colpan CO, Devrim Y |
3595 - 3608 |
The effects of driving patterns and PEM fuel cell degradation on the lifecycle assessment of hydrogen fuel cell vehicles Ahmadi P, Torabi SH, Afsaneh H, Sadegheih Y, Ganjehsarabi H, Ashjaee M |
3609 - 3617 |
Investigation of the effect of graphitized carbon nanotube catalyst support for high temperature PEM fuel cells Devrim Y, Arica ED |
3618 - 3631 |
Degradations in porous components of a proton exchange membrane fuel cell under freeze-thaw cycles: Morphology and microstructure effects Ozden A, Shahgaldi S, Zhao J, Li XG, Hamdullahpur F |
3632 - 3640 |
Assessment of NOx emissions of the Scimitar engine at Mach 5 based on a thermodynamic cycle analysis Tanbay T, Uca MB, Durmayaz A |
3641 - 3650 |
Application of distributed combustion technique to hydrogen-rich coal gases: A numerical investigation Karyeyen S, Ilbas M |
3651 - 3659 |
Analysis of the effect of H2O content on combustion behaviours of a biogas fuel Sahin M, Ilbas M |
3660 - 3669 |
The changing role of diesel oil-gasoil-LPG and hydrogen based fuels in human health risk: A numerical investigation in ferry ship operations Yalcin E, Suner M |
3670 - 3685 |
Life cycle environmental impact comparison of solid oxide fuel cells fueled by natural gas, hydrogen, ammonia and methanol for combined heat and power generation Bicer Y, Khalid F |