"Development of a compact modular palladium membrane reformer system for autothermal small-scale hydrogen generation"
The preparation and characterization of highly active catalyst layers for oxidation and methane steam reforming
Modeling of heat and mass transfer in coupled oxidation/reforming microreactors
Fabrication and characterization of composite Pd-membranes by suspension plasma spraying
Design and fabrication of different micromembrane reformer modules
M. Mahmoudizadeh, A. Irankhah, R. Irankhah, Development of a Replaceable Micro-channel Reformer Coated with Novel CuZnFe Catalyst for Methanol Steam Reforming, Chemical Engineering & Technology, Volume 39, Issue 2, 2016, Pages 322–330.
M. Mahmoudizadeh, A. Irankhah, R. Irankhah, A Performance Study on Electrocoating Process with CuZnAl Nano-Catalyst for Methanol Steam Reformer: Effect of Time and Voltage, RSC Advances, Volume 6, Issue 31, 2016, Pages 25934-25942.
A. C. Roshan, A. Irankhah, M. Mahmoudizadeh, H. Arandiyan, Single-Stage Water Gas Shift Reaction over Structural Modified Cu-Ce Catalysts at Medium Temperatures: Synthesis and Catalyst Performance, Chemical Engineering Research and Design, Volume 132, 2018, Pages 843-852.
• Positions and Work Experience
Research assistant of Institute for Micro Process Engineering (IMVT), Karlsruhe Institute of Technology (KIT)
09/2012 – 02/2015
Student assistant at Hydrogen and Fuel Cell Research Laboratory with the objective of Master of Science in Chemical Engineering, University of Kashan, Iran
05/2011 – 08/2011
Internship: Utility Unit, Shazand Petrochemical Company (ARPC), Iran
Heterogeneous catalysis; synthesis and characterization
Design, fabrication, and experimental investigation of microreactors
Catalyst coating in microchannels
Kinetics of chemical reactions
Hydrogen-selective composite membranes
Micro reactor-heat exchangers for hydrogen production