| 17533 - 17539 |
Photocatalytic hydrogen evolution on the hetero-system polypyrrol/TiO2 under visible light
Belabed C, Haine N, Benabdelghani Z, Bellal B, Trari M |
| 17540 - 17553 |
Design and comparisons of three biomass based hydrogen generation systems with chemical looping process
Yan LB, He BS, Pei XH, Wang CJ, Duan ZP, Song JG, Li XZ |
| 17554 - 17562 |
High-purity hydrogen gas production by catalytic thermal decomposition using mechanochemical treatment
Kumproa K, Nuntiya A, Zhang QW, Kano JY, Saito F |
| 17563 - 17572 |
Automatic process control for stable bio-hythane production in two-phase thermophilic anaerobic digestion of food waste
Micolucci F, Gottardo M, Bolzonella D, Pavan P |
| 17573 - 17582 |
Tuning catalytic performances of cobalt catalysts for clean hydrogen generation via variation of the type of carbon support and catalyst post-treatment temperature
Zhang H, Alhamed YA, Al-Zahrani A, Daous M, Inokawa H, Kojima Y, Petrov LA |
| 17583 - 17588 |
Carbon-supported PdSn SnO2 catalyst for ethanol electro-oxidation in alkaline media
Mao HM, Wang LL, Zhu PP, Xu QJ, Li QX |
| 17589 - 17599 |
CeO2-promoted Ni/activated carbon catalysts for the water-gas shift (IAMS) reaction
Pastor-Perez L, Buitrago-Sierra R, Sepulveda-Escribano A |
| 17600 - 17607 |
Synthesis of copper promoted high temperature water-gas shift catalysts by oxidation-precipitation
Dufour J, Martos C, Ruiz A, Marono M, Sanchez JM |
| 17608 - 17616 |
Visible-light driven photocatalyst (Er3+:YAlO3/Pt-NaTaO3) for hydrogen production from water splitting
Li Y, Li SG, Li Y, Guo YW, Wang J |
| 17617 - 17621 |
Platinum nanoparticles ion-implanted-modified indium tin oxide electrode for electrocatalytic oxidation of formaldehyde
Yu YA, Wang T, Fu YY, Su W, Hu JB |
| 17622 - 17633 |
Pt-Ni bimetallic composite nanocatalysts prepared by using multi-walled carbon nanotubes as reductants for ethanol oxidation reaction
Ding KQ, Zhao YB, Liu LK, Cao YL, Wang QF, Gu HB, Yan XR, Guo ZH |
| 17634 - 17637 |
Facile one-pot hydrothermal synthesis of Pt nanoparticles and their electrocatalytic performance
Du JJ, Chen C, Gan YL, Zhang RH, Yang CY, Zhou XW |
| 17638 - 17644 |
In situ measurement of relative humidity in a PEM fuel cell using fibre Bragg grating sensors
David N, Von Schilling K, Wild PM, Djilali N |
| 17645 - 17655 |
Catalytic activity and characterizations of Ni/K2TixOy-Al2O3 catalyst for steam methane reforming
Lee SY, Lim H, Woo HC |
| 17656 - 17670 |
Study of the dry methane reforming process using a rotating gliding arc reactor
Wu AJ, Yan JH, Zhang H, Zhang M, Du CM, Li XD |
| 17671 - 17689 |
Thermodynamic evaluation of hydrogen production from methane
Kaini B, Mondal K |
| 17690 - 17701 |
A performance study of methanol steam reforming in an A-type microchannel reactor
Mei DQ, Liang LW, Qian M, Feng YB |
| 17702 - 17709 |
Influence of hydrogen enriched gas injection upon polluting emissions from pulverized coal combustion
Pisa I, Lazaroiu G, Prisecaru T |
| 17710 - 17717 |
Energetics of hydrogen desorption from highly reactive clusters based on the sodium and magnesium alanates and boranates
Paduani C |
| 17718 - 17725 |
MgH2 thin films deposited by one-step reactive plasma sputtering
Le-Quoc H, Lacoste A, Miraglia S, Bechu S, Bes A, Laversenne L |
| 17726 - 17739 |
Optimization of hydrogen charging process parameters for an advanced complex hydride reactor concept
Bhouri M, Burger I, Linder M |
| 17740 - 17746 |
Hydrogen absorption characteristics of mechanically alloyed Ti-Zr-Ni and Ti-V-Ni powders
Dagher A, Salem HG, Moustafa TM, Mettawee EB, Abdel-Rahman E |
| 17747 - 17753 |
Destabilization effects of Mg(AlH4)(2) on MgH2: Improved desorption performances and its reaction mechanism
Wang Y, Wang YJ, Wang XF, Zhang H, Jiao LF, Yuan HT |
| 17754 - 17764 |
Effect of gas back pressure on hydrogen storage properties and crystal structures of Li2Mg(NH)(2)
Liang C, Gao MX, Pan HG, Liu YF, Yan M |
| 17765 - 17778 |
A review of unitized regenerative fuel cell stack: Material, design and research achievements
Gabbasa M, Sopian K, Fudholi A, Asim N |
| 17779 - 17790 |
Circular genetic operators based RNA genetic algorithm for modeling proton exchange membrane fuel cells
Zhu QQ, Wang N, Zhang L |
| 17791 - 17801 |
Experimental validation of two-phase pressure drop multiplier as a diagnostic tool for characterizing PEM fuel cell performance
Banerjee R, Howe D, Mejia V, Kandlikar SG |
| 17802 - 17818 |
Two dimensional modelling of water uptake in proton exchange membrane fuel cell
Chaudhary S, Sachan VK, Bhattacharya PK |
| 17819 - 17827 |
High oxide ion conducting solid electrolytes of bismuth and niobium co-substituted La2Mo2O9
Liu X, Fan HQ, Shi J, Dong GZ, Li Q |
| 17828 - 17835 |
Evaluation of porous platinum, nickel, and lanthanum strontium cobaltite as electrode materials for low-temperature solid oxide fuel cells
Jung H, Bae K, Ring DY, Lee YH, Cha SW, Shim JH |
| 17836 - 17844 |
Factors of cathode current-collecting layer affecting cell performance inside solid oxide fuel cell stacks
Wang GL, Guan WB, Miao FX, Wang WG |
| 17845 - 17851 |
Effect of coal based pyrolysis gases on the performance of solid oxide direct carbon fuel cells
Xu K, Chen C, Liu H, Tian Y, Li X, Yao H |
| 17852 - 17856 |
Nd0.5Sr0.5Fe0.8Cu0.2O3-delta-xSm(0.2)Ce(0.8)O(1.9) cobalt-free composite cathodes for intermediate temperature solid oxide fuel cells
Yin JW, Yin YM, Lu J, Zhang CM, Minh NQ, Zhang WM, Ma ZF |
| 17857 - 17864 |
Fabrication and properties of poly(vinyl alcohol)-based polymer electrolyte membranes for direct methanol fuel cell applications
Zhong SL, Cui XJ, Gao YS, Liu WC, Dou S |
| 17865 - 17872 |
Integration of microbial fuel cell with independent membrane cathode bioreactor for power generation, membrane fouling mitigation and wastewater treatment
Liu JD, Liu LF, Gao B, Yang FL, Crittenden J, Ren NQ |
| 17873 - 17883 |
On the comparison and the complementarity of batteries and fuel cells for electric driving
Le Duigou A, Smatti A |
| 17884 - 17895 |
Syngas (H-2/CO) in a spark-ignition direct-injection engine. Part 1: Combustion, performance and emissions comparison with CNG
Hagos FY, Aziz ARA, Sulaiman SA |
| 17896 - 17905 |
Visualization and concentration measurement of a direct-injection hydrogen jet in a constant-volume vessel using spark-induced breakdown spectroscopy
Rahman MTA, Kawahara N, Tsuboi K, Tomita E |
| 17906 - 17912 |
Experimental investigation on the kinetics of catalytic recombination of hydrogen with oxygen in air
Sandeep KC, Bhattacharyya R, Warghat C, Bhanja K, Mohan S |
| 17913 - 17920 |
Absorption behaviors study on doped Li4SiO4 under a humidified atmosphere with low CO2 concentration
Zhang S, Zhang Q, Wang HY, Ni YH, Zhu ZB |
| 17921 - 17928 |
Hydrogen-induced cracking and service safety evaluation for precipitation strengthened austenitic stainless steel as hydrogen storage tank
Yan YJ, Yan Y, He Y, Li JX, Su YJ, Qiao LJ |
| 17929 - 17940 |
Design of fuel cell systems laboratory for hydrogen, carbon monoxide and hydrocarbon safety
Dixit M, Fulpagare Y, Shukla J, Basarkar P, Parikh D, Jain R, Bhargav A |
| 17941 - 17951 |
Simulation of creep and damage in the bonded compliant seal of planar solid oxide fuel cell
Zhang YC, Jiang WC, Tu ST, Wen JF |
| 17952 - 17952 |
Untitled
Kolb G, Berry DA |
| 17953 - 17968 |
Fuel processing activities at European level: A panoramic overview
Specchia S |
| 17969 - 17984 |
Comparison of several glycerol reforming methods for hydrogen and syngas production using Gibbs energy minimization
Freitas ACD, Guirardello R |
| 17985 - 17997 |
Thermodynamic analysis of hydrogen production via sorption-enhanced steam methane reforming in a new class of variable volume batch-membrane reactor
Anderson DM, Kottke PA, Fedorov AG |
| 17998 - 18004 |
Hydrogen production by catalytic partial oxidation of methane over staged Pd/Rh coated monoliths: Spatially resolved concentration and temperature profiles
Diehm C, Deutschmaim O |
| 18005 - 18015 |
From mechanistic to kinetic analyses of ethanol steam reforming over Ir/CeO2 catalyst
Wang FG, Cai WJ, Descorme C, Provendier H, Shen WJ, Mirodatos C, Schuurman Y |
| 18016 - 18026 |
Carbon nanotube formation during propane decomposition on boron-modified Co/Al2O3 catalysts: A kinetic study
Romeo E, Saeys M, Monzon A, Borgna A |
| 18027 - 18036 |
Long-term stability at fuel processing of diesel and kerosene
Pasel J, Samsun RC, Peters R, Thiele B, Stolten D |
| 18037 - 18045 |
Comparison between a micro reactor with multiple air inlets and a monolith reactor for oxidative steam reforming of diesel
Granlund MZ, Gorke O, Pfeifer P, Pettersson LJ |
| 18046 - 18057 |
Design of an annular microchannel reactor (AMR) for hydrogen and/or syngas production via methane steam reforming
Butcher H, Quenzel CJE, Breziner L, Mettes J, Wilhite BA, Bossard P |
| 18058 - 18068 |
Ultra-compact microstructured methane steam reformer with integrated Palladium membrane for on-site production of pure hydrogen: Experimental demonstration
Boeltken T, Wunsch A, Gietzelt T, Pfeifer P, Dittmeyer R |
| 18069 - 18076 |
Continuous hydrogen stripping during aqueous phase reforming of sorbitol in a washcoated microchannel reactor with a Pt-Ru bimetallic catalyst
D'Angelo MFN, Ordomsky V, van der Schaaf J, Schouten JC, Nijhuis TA |
| 18077 - 18083 |
An investigation of a stratified catalyst bed for small-scale hydrogen production from methanol autothermal reforming
Richards NO, Erickson PA |
| 18084 - 18091 |
Failure analysis of novel microhollow cathode discharge microplasma reactors
Lindner PJ, Bender E, Besser RS |
| 18092 - 18102 |
Hydrogen production from methane and solar energy - Process evaluations and comparison studies
He F, Li FX |
| 18103 - 18108 |
In situ hydrogen utilization in an internal reforming methanol fuel cell
Avgouropoulos G, Paxinou A, Neophytides S |
| 18109 - 18119 |
Final step for CO syngas clean-up: Comparison between CO-PROX and CO-SMET processes
Ashraf MA, Ercolino G, Specchia S, Specchia V |
| 18120 - 18127 |
Effect of oxygen addition on the water-gas shift reaction over Pt/CeO2 catalysts in microchannels - Results from catalyst testing and reactor performance in the kW scale
Neuberg S, Keller S, O'Connell M, Schurer J, Thiele R, Zapf R, Ziogas A, Kolb G |
| 18128 - 18134 |
Application of one-body hybrid solid pellets to sorption-enhanced water gas shift reaction for high-purity hydrogen production
Lee CH, Lee KB |
| 18135 - 18145 |
Design and demonstration of an ethanol fuel processor for HT-PEM fuel cell applications
Gardemann U, Steffen M, Heinzel A |
| 18146 - 18153 |
Coupled operation of a diesel steam reformer and an LT- and HT-PEFC
Engelhardt P, Maximini M, Beckmann F, Brenner M, Moritz O |
| 18154 - 18163 |
Fast start-up of a diesel fuel processor for PEM fuel cells
Maximini M, Engelhardt P, Brenner M, Beckmann F, Moritz O |
