Dr Mohammadmehdi Namazi | IROST

Sub title:

Assistant professor

Research groups:

Energy Productivity and Utilization

E-Mail:

namazi@irost.org

Tel:

021-57416333

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Education

Education:

2013-2019: PhD in Mechanical Engineering- Energy Conversion, Fluid Dynamics, Iran University of Science and Technology (IUST), Tehran, Iran. GPA: 18.43/20. Thesis Grade: Excellent.
2011-2013: Master of Science in Mechanical Engineering- Energy Conversion, Fluid Dynamics, Iran University of Science and Technology (IUST), Tehran, Iran. GPA: 18.19/20, Graduated in September 2013.
2007- 2011: Bachelor of Science in Mechanical Engineering, Iran University of Science and Technology (IUST), Tehran, Iran. GPA: 17.71/20, Graduated in September 2011.

Research Interests

Research Interests:

Gas Turbine Power Increasement Methods
Gas Turbine Performance Tests
Uncertainty Reduction in Fluid Flow Measurement
Catalytic Combustion
Multi-Scale Modeling
Porous Media
Gas Phase & Surface Reactions Kinetics
Numerical Methods in Combustion, Mass, Heat and Fluid flow (CFD)
Experimental investigations on Combustion, Mass, Heat and Fluid flow
Pollutant reduction methods
Standard Development

Publications

Publications

Conference Papers

Conference Papers:

Geometric Parameters Effect on Reaction Zone of Premixed CH4 Catalytic Combustion in a Fibrous Porous Medium

An algorithm for geometry generation of fibrous porous media with specified properties

Heat transfer simulation in a micro-scale porous medium with consideration of geometric details

Investigation of using infrared radiation heat transfer as an alternative or main heat source in sustainable and high quality bread baking process

An introduction to the structure and experimental study of commercial radiative catalytic panels

Experimental study of radiative catalytic panel in different climate conditions

2D numerical analysis of radiative catalytic panel by using finite element method

3D simulation of radiative catalytic panel assuming equal Sherwood and Nusselt Numbers on panel surface

Experimental and numerical analysis of heating the fluid passing through the tube using radiative catalytic heaters

Identify components and experimental study of the radiative catalytic panels

Journal Papers

Journal Papers:

Advanced Control Algorithm for FADEC Systems in the Next Generation of Turbofan Engines to Minimize Emission Levels

Experimental and numerical study of catalytic combustion and porescale numerical study of mass diffusion in high porosity fibrous porous media

Study of Geometrical Characteristics Effects on Radiation Properties in High Porosity Fibrous Porous Media Using the Pore-Scale Simulation and Two-Flux Model

Pore-Scale Numerical Study of Flow and Conduction Heat Transfer in Fibrous Porous Media

Numerical study and experimental measurement of permeability coefficient in fibrous porous media, considering geometric details for investigating the effect of geometric parameters

Preparation and performance testing of the radiative catalytic pad for flameless combustion of natural gas in different climate conditions

Iranian Research Organization for Science and Technology (IROST)