| 7561 - 7561 |
Testimonial to T. Nejat Veziroglu on his retirement from the University of Miami, 15 May 2009: In appreciation
Shalala DE |
| 7562 - 7578 |
Nanotechnology for photolytic hydrogen production: Colloidal anodic oxidation
Best JP, Dunstan DE |
| 7579 - 7584 |
Strategy for enhancing photo-hydrogen production yield by repeated fed-batch cultures
Ren NQ, Liu BF, Zheng GX, Xing DF, Zhao X, Guo WQ, Ding J |
| 7585 - 7591 |
CaBr2 hydrolysis for HBr production using a direct sparging contactor
Yang JH, Panchal CB, Doctor RD |
| 7592 - 7602 |
Photo-bioproduction of hydrogen by Chlamydomonas reinhardtii using a semi-continuous process regime
Oncel S, Vardar-Sukan F |
| 7603 - 7611 |
Comparative assessment of decoupling of biomass and hydraulic retention times in hydrogen production bioreactors
Hafez H, Baghchehsaraee B, Nakhla G, Karamanev D, Margaritis A, El Naggar H |
| 7612 - 7617 |
Production of biohydrogen from hydrolyzed bagasse with thermally preheated sludge
Chairattanamanokorn P, Penthamkeerati P, Reungsang A, Lo YC, Lu WB, Chang JS |
| 7618 - 7625 |
Dissociation of H2S in non-equilibrium gliding arc "tornado" discharge
Nunnally T, Gutsol K, Rabinovich A, Fridman A, Starikovsky A, Gutsol A, Potter RW |
| 7626 - 7637 |
Detailed kinetic modelling of non-catalytic ethanol reforming for SOFC applications
Vourliotakis G, Skevis G, Founti MA |
| 7638 - 7647 |
Production of dimethyl ether and hydrogen by methanol reforming for an HCCI engine system with waste heat recovery - Continuous control of fuel ignitability and utilization of exhaust gas heat
Shudo T, Shima Y, Fujii T |
| 7648 - 7655 |
Steam reforming and oxidative steam reforming of methanol over CuO-CeO2 catalysts
Udani PPC, Gunawardana PVDS, Lee HC, Kim DH |
| 7656 - 7665 |
Comparison of steam and autothermal reforming of methanol using a packed-bed low-cost copper catalyst
Tang HY, Erickson P, Yoon HC, Liao CH |
| 7666 - 7675 |
A CFD model of autothermal reforming
Shi LM, Bayless DJ, Prudich ME |
| 7676 - 7685 |
Solar thermal cracking of methane in a particle-flow reactor for the co-production of hydrogen and carbon
Maag G, Zanganeh G, Steinfeld A |
| 7686 - 7691 |
Engineering the Mg-Mg2Ni eutectic transformation to produce improved hydrogen storage alloys
Nogita K, Ockert S, Pierce J, Greaves MC, Gourlay CM, Dahle AK |
| 7692 - 7699 |
The influence of different additives on the solid-state reaction of magnesium hydride (MgH2) with Si
Polanski M, Bystrzycki J |
| 7700 - 7706 |
Chemical vapor synthesis of Mg-Ti nanopowder mixture as a hydrogen storage material
Choi YJ, Choi JW, Sohn HY, Ryu T, Hwang KS, Fang ZZ |
| 7707 - 7713 |
Catalytic mechanism of Nb2O5 and NbF5 on the dehydriding property of Mg95Ni5 prepared by hydriding combustion synthesis and mechanical milling
Gu H, Zhu YF, Li LQ |
| 7714 - 7723 |
Effect of Al on the hydrogenation characteristics of nanocrystalline Mg powder
Tanniru M, Ebrahimi F |
| 7724 - 7730 |
Synergetic effect of Ni and Nb2O5 on dehydrogenation properties of nanostructured MgH2 synthesized by high-energy mechanical alloying
Simchi H, Kaflou A, Simchi A |
| 7731 - 7740 |
Automotive storage of hydrogen in alane
Ahluwalia RK, Hua TQ, Peng JK |
| 7741 - 7748 |
Nano-scale bi-layer Pd/Ta, Pd/Nb, Pd/Ti and Pd/Fe catalysts for hydrogen sorption in magnesium thin films
Tan XH, Harrower CT, Amirkhiz BS, Mitlin D |
| 7749 - 7755 |
Structural and hydrogen storage properties of melt-spun Mg-Ni-Y alloys
Kalinichenka S, Rontzsch L, Kieback B |
| 7756 - 7760 |
Effect of quenching treatment on the phase structure and electrochemical properties of V2.1TiNi0.4Zr0.06Mn0.05 alloy
Jia YM, Chen LX, Xiao XZ, Yu KR, Ying T, Lei YQ |
| 7761 - 7767 |
Planar air breathing PEMFC with self-humidifying MEA and open cathode geometry design for portable applications
Bussayajarn N, Ming H, Hoong KK, Stephen WYM, Hwa CS |
| 7768 - 7779 |
An experimental study on water transport through the membrane of a PEFC operating in the dead-end mode
Lee Y, Kim B, Kim Y |
| 7780 - 7788 |
Performance of an anode-supported solid oxide fuel cell with direct-internal reforming of ethanol
Arpornwichanop A, Chalermpanchai N, Patcharavorachot Y, Assabumrungrat S, Tade M |
| 7789 - 7794 |
Fabrication of cathode supported solid oxide fuel cell by multi-layer tape casting and co-firing method
Zhang SQ, Bi L, Zhang L, Yang CL, Wang HQ, Liu W |
| 7795 - 7806 |
Computational fluid dynamics modeling of a solid oxide electrolyzer cell for hydrogen production
Ni M |
| 7807 - 7810 |
Structural stability of silver under single-chamber solid oxide fuel cell conditions
Akhtar N, Decent SP, Kendall K |
| 7811 - 7822 |
Performance and emission comparison of a supercharged dual-fuel engine fueled by producer gases with varying hydrogen content
Roy MM, Tomita E, Kawahara N, Harada Y, Sakane A |
| 7823 - 7834 |
Effect of hydrogen addition on combustion and emissions performance of a spark ignition gasoline engine at lean conditions
Ji CW, Wang SF |
| 7835 - 7841 |
The lean burn direct injection jet ignition gas engine
Boretti AA, Watson HC |
| 7842 - 7850 |
Promoting hydrocarbon-SCR of NOx in diesel engine exhaust by hydrogen and fuel reforming
Sitshebo S, Tsolakis A, Theinnoi K |
| 7851 - 7861 |
Acoustic excitation effect on NOx reduction and flame stability in a lifted non-premixed turbulent hydrogen jet with coaxial air
Oh J, Heo P, Yoon Y |
| 7862 - 7872 |
An inter-comparison exercise on CFD model capabilities to simulate hydrogen deflagrations in a tunnel
Baraldi D, Kotchourko A, Lelyakin A, Yanez J, Middha P, Hansen OR, Gavrikov A, Efimenko A, Verbecke F, Makarov D, Molkov V |
| 7873 - 7882 |
Non-Boussinesq turbulent buoyant jet resulting from hydrogen leakage in air
El-Amin MF |
