51 |
Thermodynamic evaluation of glycerol autothermal reforming in membrane reactors Wang S, Song XJ, Wang Q, Liu GD, Lu HL International Journal of Hydrogen Energy, 41(40), 17864, 2016 |
52 |
Hydrogen production by autothermal reforming of methane over lanthanum chromites modified with Ru and Sr Mota N, Ismagilov IZ, Matus EV, Kuznetsov VV, Kerzhentsev MA, Ismagilov ZR, Navarro RM, Fierro JLG International Journal of Hydrogen Energy, 41(42), 19373, 2016 |
53 |
Electrical start-up for diesel fuel processing in a fuel-cell-based auxiliary power unit Samsun RC, Krupp C, Tschauder A, Peters R, Stolten D Journal of Power Sources, 302, 315, 2016 |
54 |
Autothermal reforming of dimethyl ether with CGO-based precious metal catalysts Choi S, Bae J Journal of Power Sources, 307, 351, 2016 |
55 |
Routes for deactivation of different autothermal reforming catalysts Pasel J, Wohlrab S, Kreft S, Rotov M, Lohken K, Peters R, Stolten D Journal of Power Sources, 325, 51, 2016 |
56 |
Evaluation of Co, La, and Mn promoted Rh catalysts for autothermal reforming of commercial diesel: Aging and characterization Granlund MZ, Jansson K, Nilsson M, Dawody J, Pettersson LJ Applied Catalysis B: Environmental, 172, 145, 2015 |
57 |
Performance evaluation and comparison of fuel processors integrated with PEM fuel cell based on steam or autothermal reforming and on CO preferential oxidation or selective methanation Ercolino G, Ashraf MA, Specchia V, Specchia S Applied Energy, 143, 138, 2015 |
58 |
A novel reactor type for autothermal reforming of diesel fuel and kerosene Pasel J, Samsun RC, Tschauder A, Peters R, Stolten D Applied Energy, 150, 176, 2015 |
59 |
Diesel autothermal reforming with hydrogen peroxide for low-oxygen environments Han G, Lee S, Bae J Applied Energy, 156, 99, 2015 |
60 |
Steam- and autothermal-reforming of n-butanol over Rh/ZrO2 catalyst Harju H, Lehtonen J, Lefferts L Catalysis Today, 244, 47, 2015 |