| 1439 - 1442 |
"Until something better comes along!"
Scott DS |
| 1443 - 1450 |
Life cycle assessment of hydrogen fuel production processes
Koroneos C, Dompros A, Roumbas G, Moussiopoulos N |
| 1451 - 1458 |
Hydrogen production by direct solar thermal decomposition of water, possibilities for improvement of process efficiency
Baykara SZ |
| 1459 - 1469 |
Experimental solar water thermolysis
Baykara SZ |
| 1471 - 1477 |
Conversion of hydrogen sulfide to hydrogen by superadiabatic partial oxidation: thermodynamic consideration
Slimane RB, Lau FS, Khinkis M, Bingue JP, Saveliev AV, Kennedy LA |
| 1479 - 1485 |
Hydrogen production by Clostridium thermolacticum during continuous fermentation of lactose
Collet C, Adler N, Schwitzguebel JP, Peringer P |
| 1487 - 1491 |
A quantitative method for characterization of carbon nanotubes for hydrogen storage
Sarkar A, Banerjee R |
| 1493 - 1501 |
Profiles of hydrogen molar fraction and temperature in ZrV1.9Fe0.1 alloy bed for hydrogen absorption
Fukada S, Morimitsu S, Shimoozaki N |
| 1503 - 1511 |
Heat transfer characteristics of expanded graphite matrices in metal hydride beds
Klein HP, Groll M |
| 1513 - 1519 |
Quantum states of deuterons in Pd
Tsuchiya K |
| 1521 - 1526 |
Elucidation of the complete set of H-2 electronic states' vibrational data
Yarman T |
| 1527 - 1539 |
Internal combustion engines fueled by natural gas - hydrogen mixtures
Akansu SO, Dulger Z, Kahraman N, Veziroglu TN |
| 1541 - 1552 |
The addition of hydrogen to a gasoline-fuelled SI engine
D'Andrea T, Henshaw P, Ting DSK |
| 1553 - 1554 |
On the maximum D+-D+ fusion rate by the implosion of cavitation bubble
Ohta T |
| 1555 - 1558 |
Production of hydrogen, obtaining electric and thermal energy by water dissociation method
Lipovestsky V |
