His main research concerns Chemical engineering, Hydrogen, Hydrogen production, Catalysis and Membrane reactor. His studies deal with areas such as Exothermic reaction, Organic chemistry, Methanol, Chromatography and Syngas as well as Chemical engineering. His Hydrogen research includes themes of Ammonia production, Ammonia, Volumetric flow rate, Analytical chemistry and Dielectric barrier discharge.
His study in Hydrogen production is interdisciplinary in nature, drawing from both Chemical looping combustion, Oxygen and Methane. He interconnects Waste management, Process engineering and Packed bed in the investigation of issues within Catalysis. His Membrane reactor study also includes
His primary areas of investigation include Chemical engineering, Hydrogen, Catalysis, Methanol and Hydrogen production. His work deals with themes such as Exothermic reaction, Organic chemistry, Membrane reactor, Dehydrogenation and Syngas, which intersect with Chemical engineering. His studies in Hydrogen integrate themes in fields like Waste management, Gasoline, Fischer–Tropsch process, Analytical chemistry and Naphtha.
He has included themes like Inorganic chemistry, Yield and Benzene in his Catalysis study. The concepts of his Methanol study are interwoven with issues in Heat exchanger, Carbon monoxide and Methanol reformer. The various areas that Mohammad Reza Rahimpour examines in his Hydrogen production study include Oxygen, Methane and Nuclear chemistry.
Chemical engineering, Catalysis, Hydrogen, Process engineering and Fossil fuel are his primary areas of study. His Chemical engineering research includes elements of Mass transfer, Tube, Ionic liquid, Condensation and Carbon dioxide. His study ties his expertise on Methanol together with the subject of Catalysis.
His research investigates the connection between Methanol and topics such as Analytical chemistry that intersect with issues in Dielectric barrier discharge. His research integrates issues of Inorganic chemistry, Cobalt and Dehydrogenation in his study of Hydrogen. His Fossil fuel study also includes
Mohammad Reza Rahimpour mainly focuses on Hydrogen, Catalysis, Hydrogen production, Chemical engineering and Syngas. His Hydrogen research incorporates elements of Cobalt and Exergy. His Catalysis study often links to related topics such as Inorganic chemistry.
Mohammad Reza Rahimpour combines subjects such as Fossil fuel, Waste management, Pyrolysis and Exergy efficiency with his study of Hydrogen production. His research in Chemical engineering intersects with topics in Volumetric flow rate, Plate heat exchanger, Adiabatic process, Pressure drop and Produced water. His Syngas study integrates concerns from other disciplines, such as Methanol and Methane.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Upgrading of lignin-derived bio-oils by catalytic hydrodeoxygenation
Majid Saidi;Fereshteh Samimi;Dornaz Karimipourfard;Tarit Nimmanwudipong;Tarit Nimmanwudipong.
Energy and Environmental Science (2014)
Hydrogenation of CO2 to value-added products—A review and potential future developments
Samrand Saeidi;Nor Aishah Saidina Amin;Mohammad Reza Rahimpour.
Journal of CO 2 Utilization (2014)
Dimethyl ether: A review of technologies and production challenges
Zoha Azizi;Zoha Azizi;Mohsen Rezaeimanesh;Tahere Tohidian;Mohammad Reza Rahimpour.
Chemical Engineering and Processing (2014)
Progress in catalytic naphtha reforming process: A review
Mohammad Reza Rahimpour;Mohammad Reza Rahimpour;Mitra Jafari;Davood Iranshahi.
Applied Energy (2013)
Assessment and comparison of different catalytic coupling exothermic and endothermic reactions: A review
M.R. Rahimpour;M.R. Dehnavi;F. Allahgholipour;D. Iranshahi.
Applied Energy (2012)
A comparison of homogeneous and heterogeneous dynamic models for industrial methanol reactors in the presence of catalyst deactivation
N. Rezaie;A. Jahanmiri;Behdad Moghtaderi;M. R. Rahimpour.
Chemical Engineering and Processing (2005)
Palladium membranes applications in reaction systems for hydrogen separation and purification: A review
M.R. Rahimpour;M.R. Rahimpour;F. Samimi;A. Babapoor;T. Tohidian.
Chemical Engineering and Processing (2017)
Hydrogen production via chemical looping steam methane reforming process: Effect of cerium and calcium promoters on the performance of Fe2O3/Al2O3 oxygen carrier
A. Hafizi;M.R. Rahimpour;M.R. Rahimpour;Sh. Hassanajili.
Applied Energy (2016)
Enhancing biosurfactant production from an indigenous strain of Bacillus mycoides by optimizing the growth conditions using a response surface methodology
A.R. Najafi;A.R. Najafi;M.R. Rahimpour;A.H. Jahanmiri;R. Roostaazad.
Chemical Engineering Journal (2010)
Optimization of methanol synthesis and cyclohexane dehydrogenation in a thermally coupled reactor using differential evolution (DE) method
M.H. Khademi;P. Setoodeh;M.R. Rahimpour;A. Jahanmiri.
International Journal of Hydrogen Energy (2009)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: