| 4713 - 4714 |
IAHE establishes hydrogen energy trust to assist implementation
Ohta T, Van Vorst WD, Winter CJ |
| 4715 - 4729 |
Optimization of a hydrogen supply chain under demand uncertainty
Kim J, Lee Y, Moon I |
| 4730 - 4738 |
Monitoring dark hydrogen fermentation performance of indigenous Clostridium butyricum by hydrogenase gene expression using RT-PCR and qPCR
Wang MY, Tsai YL, Olson BH, Chang JS |
| 4739 - 4746 |
A pH- and temperature-phased two-stage process for hydrogen and methane production from food waste
Chu CF, Li YY, Xu KQ, Ebie Y, Inamori Y, Kong HN |
| 4747 - 4754 |
Bio-hydrogen production of anaerobic bacteria in reverse micellar media
Zhi XH, Yang HJ, Yuan ZL, Shen JQ |
| 4755 - 4762 |
Biohydrogen production using sequential two-stage dark and photo fermentation processes
Chen CY, Yang MH, Yeh KL, Liu CH, Chang JS |
| 4763 - 4768 |
Cations distribution of CuxCo3-xO4 and its electrocatalytic activities for oxygen evolution reaction
Chi B, Lin H, Li JB |
| 4769 - 4779 |
Thermal and catalytic dry reforming and cracking of ethanol for hydrogen and carbon nanofilaments' production
Jankhah S, Abatzoglou N, Gitzhofer F |
| 4780 - 4788 |
Effects of ethylene on carbon formation in diesel autothermal reforming
Yoon S, Kang I, Bae J |
| 4789 - 4797 |
Hydrogen generation from a catalytic water gas shift reaction under microwave irradiation
Chen WH, Jheng JG, Yu AB |
| 4798 - 4808 |
Reactor temperature profile during autothermal methane reforming on Rh/Al2O3 catalyst by IR imaging
Simeone M, Salemme L, Allouis C |
| 4809 - 4818 |
Catalytic decomposition of CH4 over NiO-Al2O3-SiO2 catalysts: Influence of catalyst preparation conditions on the production of H-2
Ashok J, Raju G, Reddy PS, Subrahmanyam M, Venugopal A |
| 4819 - 4823 |
Influence of CoSi on the electrochemical hydrogen storage properties of MgNi alloy
Zhang YH, Jiao LF, Wang YJ, Wang QH, Zhang YY, Liu L, Yuan HT |
| 4824 - 4832 |
Transient flow in pipelines of high-pressure hydrogen-natural gas mixtures
Elaoud S, Hadj-Taieb E |
| 4833 - 4843 |
The operating mode dependence on electrochemical performance degradation of direct methanol fuel cells
Park JY, Lee JH, Sauk J, Son I |
| 4844 - 4848 |
Kinetic investigation of oxygen reduction reaction in sub-freezing acid media
Song W, Hou JB, Yu HM, Hao LX, Shao ZG, Yi BL |
| 4849 - 4855 |
Proton conductivity measurements of PEM performed in EasyTest Cell
Radev I, Georgiev G, Sinigersky V, Slaucheva E |
| 4856 - 4862 |
A mediatorless microbial fuel cell using polypyrrole coated carbon nanotubes composite as anode material
Zou YJ, Xiang CL, Yang LN, Sun LX, Xu F, Cao Z |
| 4863 - 4875 |
Development and validation of a quasi-dimensional combustion model for SI engines fuelled by HCNG with variable hydrogen fractions
Ma FH, Wang Y, Wang MY, Liu HQ, Wang JJ, Ding SF, Zhao SL |
| 4876 - 4883 |
Study of cycle-by-cycle variations of a spark ignition engine fueled with natural gas-hydrogen blends
Wang JH, Chen H, Liu B, Huang ZH |
| 4884 - 4892 |
LES model of large scale hydrogen-air planar detonations: Verification by the ZND theory
Zbikowski M, Makarov D, Molkov V |
| 4893 - 4905 |
Investigation of the flame structure and nitrogen oxides formation in lean porous premixed combustion of natural gas/hydrogen blends
Gauthier S, Nicolle A, Baillis D |
| 4906 - 4914 |
Laminar burning velocities and combustion characteristics of propane-hydrogen-air premixed flames
Tang CL, Huang ZH, Jin C, He JJ, Wang JH, Wang XB, Miao HY |
