| 1 |
Temperature-Programmed Elimination of Tritium in Coal Labeled by Tritiated Gaseous Hydrogen
Qian EW, Horio T, Sutrisna IP
Energy & Fuels, 23, 1583, 2009 |
| 2 |
Addition effect of ruthenium on nickel steam reforming catalysts
Ishihara A, Qian EW, Finahari IN, Sutrisna IP, Kabe T
Fuel, 84(12-13), 1462, 2005 |
| 3 |
Effect of demineralization on hydrogen transfer of coal with tritiated gaseous hydrogen
Ishihara A, Sutrisna IP, Finahari I, Qian EW, Kabe T
Fuel Processing Technology, 85(8-10), 887, 2004 |
| 4 |
Elucidation of hydrogen transfer behavior of coal with tritiated gaseous hydrogen in the absence and the presence of a catalyst using a fixed-bed reactor
Sutrisna IP, Ishihara A, Qian WH, Kabe T
Fuel, 82(9), 1103, 2003 |
| 5 |
Elucidation of hydrogen mobility in coal using a fixed bed flow reactor hydrogen transfer reaction between tritiated hydrogen, coal, and tetralin
Ishihara A, Sutrisna IP, Ifuku M, Qian EW, Kabe T
Energy & Fuels, 16(6), 1483, 2002 |
| 6 |
Elucidation of hydrogen transfer between coal and tritiated organic solvent
Ishihara A, Sutrisna IP, Miura T, Saito M, Qian EW, Kabe T
Energy & Fuels, 16(6), 1490, 2002 |
| 7 |
Elucidation of hydrogen behavior in coal using a tritium tracer method: Hydrogen transfer reaction of coal with tritiated gaseous hydrogen in a flow reactor
Sutrisna IP, Ishihara A, Qian WH, Kabe T
Energy & Fuels, 15(5), 1129, 2001 |
