| 603 - 612 |
Preliminary process analysis for the closed cycle operation of the iodine-sulfur thermochemical hydrogen production process
Sakurai M, Nakajima H, Onuki K, Ikenoya K, Shimizu S |
| 613 - 624 |
Comparative analysis of different natural gas pyrolysis methods
Shpilrain EE, Shterenberg VY, Zaichenko VM |
| 625 - 629 |
Hydrogen solubility properties of Ti0.42Zr0.08Fe0.50 alloy
Rajalakshmi N, Dhathathreyan KS |
| 631 - 644 |
Experimental and theoretical study of a metal-hydrogen reactor
Jemni A, Ben Nasrallah S, Lamloumi J |
| 645 - 648 |
Sample pilot plant of industrial metal-hydride compressor
Shmal'ko YF, Ivanovsky AI, Lototsky MV, Kolosov VI, Volosnikov DV |
| 649 - 650 |
Cryo-hydride high-pressure hydrogen compressor
Shmal'ko YF, Ivanovsky AI, Lototsky MV, Karnatsevich LV, Milenko YY |
| 651 - 659 |
Hydrogen-steel interaction: hydrogen embrittlement in pipes for power former plant effluents
Borruto A, Borruto TMR, Spada A |
| 661 - 664 |
High coercive Sm-Fe-Co-N powder prepared by applying the HDDR process
Arlot R, de Rango P, Fruchart D, Soubeyroux JL, de la Bathie RP |
| 665 - 675 |
Development of hydrogen storage for fuel cell generators. I: Hydrogen generation using hydrolysis hydrides
Kong VCY, Foulkes FR, Kirk DW, Hinatsu JT |
| 677 - 685 |
The safety provision during venting of gaseous hydrogen to atmosphere at the liquid propellant rocket engine test stand complex using LH2+LOX
Khristenko Y, Tomilin V |
| 687 - 688 |
Has compressed cryogenic storage of hydrogen gas or solid aboard vehicles been fully considered?
Milleron N |
