441 - 446 |
Effect of temperature and iron concentration on the growth and hydrogen production of mixed bacteria Zhang YF, Shen JQ |
447 - 454 |
A compact integrated fuel-processing system for proton exchange membrane fuel cells Pan LW, Wang SD |
455 - 464 |
Biochemistry of hydrogen metabolism in Chlamydomonas reinhardtii wild type and a Rubisco-less mutant White AL, Melis A |
465 - 472 |
Temperature effects on biohydrogen production in a granular sludge bed induced by activated carbon carriers Lee KS, Lin PJ, Chang JS |
473 - 484 |
Production of hydrogen by thermal decomposition of methane in a fluidized-bed reactor - Effects of catalyst, temperature, and residence time Dunker AM, Kumar S, Mulawa PA |
485 - 489 |
The flammability limits of H-2-CO-CH4 mixtures in air at elevated temperatures Wierzba I, Wang Q |
491 - 495 |
Hydrogen production from biogas using hot slag Purwanto H, Akiyama T |
497 - 503 |
Hydrogen absorption and desorption characteristics in the La0.5Ni1.5Mg17 prepared by hydriding combustion synthesis Li Q, Chou KC, Xu KD, Jiang LJ, Lin Q, Lin GW, Lu XG, Zhang JY |
505 - 515 |
Hydrogen-enriched natural gas blend oxidation under high-pressure conditions: Experimental and detailed chemical kinetic modeling Dagaut P, Dayma G |
517 - 523 |
Structure and electrochemical properties of La0.7Mg0.3Ni2.45-xCo0.75Mn0.1Al0.2Wx (x=0-0.15) hydrogen storage alloys Pan HG, Wu XF, Gao MX, Chen N, Yue YJ, Lei YQ |
525 - 530 |
Studies on rechargeable NiMH batteries Ying TK, Gao XP, Hu WK, Wu F, Noreus D |
531 - 538 |
Effect of changes in the level of light harvesting complexes of Rhodobacter sphaeroides on the photoheterotrophic production of hydrogen Kim EJ, Kim JS, Kim MS, Lee JK |
539 - 549 |
Stoichiometric analysis of biological hydrogen production by fermentative bacteria Chen X, Sun YQ, Xiu ZL, Li XH, Zhang DJ |
551 - 553 |
Mechanism of cold fusion via tritium channel Afonichev DD |