دکتر سید مجتبی میرحسینی

منتخبی از مقالات چاپ شده در مجلات معتبر بین المللی:
 

 ۱- A. Sedaghat, M. Mirhosseini, Aerodynamic Design of A ۳۰۰ kW Horizontal Axis Wind Turbine for the Province of Semnan, Energy Conversion and Management, ۶۳ (۲۰۱۲) ۸۷-۹۴. (IF=۸.۲۱)

۲- M. Mirhosseini, A. Sedaghat, M. Moghimi Zand, Aerodynamic Design and Economical Evaluation of Site Specific Horizontal Axis Wind Turbine (HAWT), Energy Equipment and Systems, ۲ (۲۰۱۴) ۴۳-۵۶.

۳- M. Tahani, G. Kavari, M. Masdari, M. Mirhosseini, Aerodynamic Design of Horizontal Axis Wind Turbine with Innovative Local Linearization of Chord and Twist Distributions, Energy, ۱۳۱ (۲۰۱۷) ۷۸-۹۱. (IF=۶.۱)

۴- M. Tahani, A. Rabbani, A. Kasaeian, M. Mehrpooya, M. Mirhosseini, Design and Numerical Investigation of Savonius Wind Turbine with Discharge Flow Directing Capability, Energy, ۱۳۰ (۲۰۱۷) ۳۲۷-۳۳۸. (IF=۶.۱)

۵- M. Jafari, A. Razavi, M. Mirhosseini, Effect of Steady and Quasi-Unsteady Wind on Aerodynamic Performance of H-rotor Vertical Axis Wind Turbines, Journal of Energy Engineering, ASCE, ۱۴۴ (۲۰۱۸) ۰۴۰۱۸۰۶۵. (IF=۱.۱۳)

۶- M. Jafari, A. Razavi, M. Mirhosseini, Effect of Airfoil Profile on Aerodynamic Performance and Economic Assessment of H-rotor Vertical Axis Wind Turbines, Energy, ۱۶۵, Part A (۲۰۱۸) ۷۹۲-۸۱۰. (IF=۶.۱)

۷- G. Kavari, M. Tahani, M. Mirhosseini, Different Functionalized Chord and Twist Distributions in Aerodynamic Design of HAWTs, Environmental Progress & Sustainable Energy, https://doi.org/۱۰.۱۰۰۲/ep.۱۳۱۰۸. (IF=۲.۰)

۸- G. Kavari, M. Tahani, M. Mirhosseini, Wind Shear Effect on Aerodynamic Performance and Energy Production of Horizontal Axis Wind Turbines with Developing Blade Element Momentum Theory, Journal of Cleaner Production, ۲۱۹ (۲۰۱۹) ۳۶۸-۳۷۶. (IF=۷.۲۵)

۹- M. Tahani, M. Razavi, M. Mirhosseini, F. Razi Astaraei, S. Mirmahdian, Unsteady Aerodynamic Performance of Dual-Row H-Darrieus Vertical Axis Wind Turbine, Energy Equipment and Systems, ۸ (۲۰۲۰) ۵۵-۸۰.

۱۰- M. Mirhosseini, A. Rezania, A. B. Blichfeld, B. B. Iversen, L. Rosendahl, Experimental Investigation of Zinc Antimonide Thin Film Thermoelectric Element over Wide Range of Operating Conditions, Physica Status Solidi (A) Applications and Materials, ۲۰۱۷, ۱۷۰۰۳۰۱. (IF=۱.۷۶)

۱۱- M. Mirhosseini, A. Rezania, L. Rosendahl, B. B. Iversen, Effect of Thermal Cycling on Zinc Antimonide Thin Films Thermoelectric Characteristics, Energy Procedia, ۱۴۲ (۲۰۱۷) ۵۱۹–۵۲۴

۱۲- M. Mirhosseini, A. Rezania, L. Rosendahl, Numerical Study on Heat Transfer to an Arc Absorber Designed for a Waste Heat Recovery System around a Cement Kiln, Energies ۲۰۱۸, ۱۱, ۶۷۱. (IF=۲.۷)

۱۳- M. Mirhosseini, A. Rezania, B. Iversen, L. Rosendahl, Energy Harvesting from a Thermoelectric Zinc Antimonide Thin Film under Steady and Unsteady Operating Conditions, Materials, ۲۰۱۸, ۱۱, ۲۳۶۵. (IF=۳.۱)

۱۴- M. Mirhosseini, A. Rezania, L. Rosendahl, Harvesting Waste Heat from Cement Kiln Shell by Thermoelectric System, Energy, ۱۶۸ (۲۰۱۹) ۳۵۸-۳۶۹. (IF=۶.۱)

۱۵- M. Mirhosseini, A. Rezania, L. Rosendahl, Effect of Heat Loss on Performance of Thin Film Thermoelectric; a Mathematical Model, Materials Research Express, IOP Science,  ۲۰۱۹, ۶ ۰۹۶۴۵۰, (IF=۲.۰)

۱۶- M. Mirhosseini, A. Rezania, L. Rosendahl, Power Optimization and Economic Evaluation of Thermoelectric Waste Heat Recovery System around a Rotary Cement Kiln, Journal of Cleaner Production, ۲۳۲ (۲۰۱۹) ۱۳۲۱-۱۳۳۴. (IF=۷.۲۵)

۱۷- M. Mirhosseini, A. Rezania, L. Rosendahl, Design Optimization of Waste Heat Recovery System around Cement Rotary Kiln, Journal of Energy Engineering, ASCE, ۲۰۲۰, ۱۴۶(۴): ۰۴۰۲۰۰۲۶ (IF=۱.۱۳).

۱۸- S. Mortazavinatanzi, M. Mirhosseini, L. Song, B.B. Iversen, L. Rosendahl, A. Rezania, Zinc Antimonide Thin Film Based Flexible Thermoelectric Module, Materials Letters ۲۸۰ (۲۰۲۰) ۱۲۸۵۸۲ (IF=۳.۲).

۱۹- M. Mirhosseini, F. Sharifi, A. Sedaghat, Assessing the Wind Energy Potential Locations in Province of Semnan in Iran, Renewable and Sustainable Energy Reviews, ۱۵ (۲۰۱۱) ۴۴۹-۴۵۹. (IF=۱۲.۱۱)

۲۰- D. Saeidi, M. Mirhosseini, A. Sedaghat, A. Mostafaeipour, Feasibility Study of Wind Energy Potential in Two Provinces of Iran: North and South Khorasan, Renewable and Sustainable Energy Reviews, ۱۵ (۲۰۱۱) ۳۵۵۸-۳۵۶۹. (IF=۱۲.۱۱)

۲۱- P. Alamdari, O, Nematollahi, M. Mirhosseini, Assessment of Wind Energy in Iran: A Review, Renewable and Sustainable Energy Reviews, ۱۶ (۲۰۱۲) ۸۳۶-۸۶۰. (IF=۱۲.۱۱)

۲۲- A. Mostafaeipour, A. Sedaghat, M. Ghalishooyan, Y. Dinpashoh, M. Mirhosseini, M. Sefid, M. Pour-Rezaei, Evaluation of Wind Energy Potential as a Power Generation Source for Electricity Production in Binalood, Iran, Renewable Energy, ۵۲ (۲۰۱۳) ۲۲۲-۲۲۹. (IF=۶.۳)

۲۳- M. Mirhosseini, A. Rezania, L. Rosendahl, View Factor of Solar Chimneys by Monte Carlo Method, Energy Procedia, ۱۴۲ (۲۰۱۷) ۵۱۳–۵۱۸.

۲۴- M. Jafari, A. Babajani, P. Hafezisefat, M. Mirhosseini, A. Rezania, L. Rosendahl, Numerical Simulation of a Novel Ocean Wave Energy Converter, Energy Procedia, ۱۴۷ (۲۰۱۸) ۴۷۴-۴۸۱.

۲۵- A. Babajani, M. Jafari, P. Hafezisefat, M. Mirhosseini, A. Rezania, L. Rosendahl, Parametric Study of a Wave Energy Converter (Searaser) for Caspian Sea, Energy Procedia, ۱۴۷ (۲۰۱۸) ۳۳۴-۳۴۲.

۲۶- M. Mirhosseini, A. Saboonchi, View Factor Calculation Using the Monte Carlo Method for A ۳D Strip Element to Circular Cylinder, International Communications in Heat and Mass Transfer, ۳۸ (۲۰۱۱) ۸۲۱–۸۲۶. (IF: ۴.۰)

۲۷- M. Mirhosseini, A. Saboonchi, Monte Carlo Method for Calculating Local Configuration Factor for the Practical Case in Material Processing, International Communications in Heat and Mass Transfer, ۳۸ (۲۰۱۱) ۱۱۴۲–۱۱۴۷. (IF: ۴.۰)

۲۸- N. Mansouri, M. Mirhosseini, A. Saboonchi, Thermal Modeling of Strip across Transfer Table in Hot Rolling Process, Applied Thermal Engineering, ۳۸ (۲۰۱۲) ۹۱-۱۰۴. (IF:۴.۷۳)

۲۹- A.R. Hajji, M. Mirhosseini, A. Saboonchi, A. Moosavi, Different Methods for Calculating a View Factor in Radiative Applications: Strip to in Plane Parallel Semi Cylinder, Journal of Engineering Thermophysics, ۲۴ (۲۰۱۵) ۱-۱۳. (IF=۱.۱۶)

۳۰- A.A. Alemrajabi, F. Rezaee, M. Mirhosseini, Ali Esehaghbeygi, Comparative Evaluation of the Effects of Electrohydrodynamic, Oven, and Ambient Air on Carrot Cylindrical Slices during Drying Process, Drying Technology: An International Journal, ۳۰ (۲۰۱۲) ۸۸–۹۶. (IF=۳.۰)

۳۱- M.S. Valipour, S. Rashidi, M. Bovand, M. Mirhosseini, Two Phase Convection by Al۲O۳–Water Nanofluid Flow Around A Square Cylinder, Thermal Science, ۱۸ (۲۰۱۴) ۱۳۰۵-۱۳۱۴. (IF=۱.۵۷)

۳۲- S. K. Sonderby, M. Mirhosseini, A. Rezania, L. Rosendahl, Thermal-Hydraulic Performance of a Corrugated Cooling Fin with Louvered Surfaces, Energy Procedia, ۱۴۲ (۲۰۱۷) ۴۰۷۷–۴۰۸۴.

۳۳- B. Moghadassian, M. Jafari, P. Hafezisefat, M. Mirhosseini, A. Rezania, Numerical Investigation of Radiative Heat Transfer in a Particulate Medium Using FTn Finite Volume Method, Energy Procedia, ۱۵۸ (۲۰۱۹), ۵۶۹۲-۵۶۹۸.

۳۴- Moghadassian, M. Jafari, P. Hafezisefat, M. Mirhosseini, A. Rezania, Numerical investigation of radiative heat transfer inside a ۲-D irregular geometry containing nano- and micro-size particles, Energy Procedia, ۱۵۸ (۲۰۱۹), ۵۶۸۵-۵۶۹۱.

منتخبی از مقالات ارائه شده در کنفرانس‌های معتبر بین المللی:

۱- M. Mirhosseini, A.A. Alemrajabi, Effect of EHD on Forced Convection in a Tube by Using Helical Electrode, Presented as oral in ۱۰th International Conference on Sustainable Energy Technologies, İstanbul, TÜRKİYE, ۴-۷ Sep. ۲۰۱۱.

۲- M. Mirhosseini, A.A. Alemrajabi, Effect of Electrode Geometric Properties on EHD Enhanced Heat Transfer in a Tube, Presented as oral in ۱۰th International Conference on Sustainable Energy Technologies, İstanbul, TÜRKİYE, ۴-۷ Sep. ۲۰۱۱.

۳- M. Mirhosseini, M. Alaian, A. Sedaghat, A. A. Alemrajabi, Aerodynamic Design of a ۳۰۰ kW Horizontal Axis Wind Turbine, Presented as oral in ۱۰th International Conference on Sustainable Energy Technologies, İstanbul, TÜRKİYE, ۴-۷ Sep. ۲۰۱۱.

۴- M. Mirhosseini, A. Sedaghat, A. A. Alemrajabi, Aerodynamic Modeling of Wind Turbine Blades and Linear Approximations, Presented as oral in ۱۰th International Conference on Sustainable Energy Technologies, İstanbul, TÜRKİYE, ۴-۷ Sep. ۲۰۱۱.

۵- M. Mirhosseini, A. Rezania, L. Rosendahl, A. Enkeshafi, Experimental Investigation of Zinc Antimonide Thin Films under Different Thermal Boundary Conditions, Presented as oral in ۳۵th International Conference on Thermoelectrics (ICT- ۲۰۱۶) & The ۱st Asian Conference on Thermoelectrics (ACT-۲۰۱۶), Wuhan, China.

۶- M. Mirhosseini, A. Rezania, L. Rosendahl, A. Enkeshafi, Power Generation by Zinc Antimonide Thin Film under Various Load Resistances at its Critical Operating Temperature, Presented as poster in ۳۵th International Conference on Thermoelectrics (ICT- ۲۰۱۶) & The ۱st Asian Conference on Thermoelectrics (ACT-۲۰۱۶), Wuhan, China.

۷- M. Mirhosseini, A. Rezania, L. Rosendahl, B. B. Iversen, Effect of Thermal Cycling on Zinc Antimonide Thin Films Thermoelectric Characteristics, Presented as oral in ۹th International Conference on Applied Energy, ICAE۲۰۱۷, Cardiff, UK

۸- M. Mirhosseini, A. Rezania, L. Rosendahl, View Factor of Solar Chimneys by Monte Carlo Method, Presented as oral in ۹th International Conference on Applied Energy, ICAE۲۰۱۷, Cardiff, UK

۹- S. K. Sonderby, M. Mirhosseini, A. Rezania, L. Rosendahl, Thermal-Hydraulic Performance of a Corrugated Cooling Fin with Louvered Surfaces, Presented as poster in ۹th International Conference on Applied Energy, ICAE۲۰۱۷, Cardiff, UK

۱۰- M. Tahani, N. Babayan, A. Pouyaei, M. Mirhosseini., A. Sedaghat, Increasing the Produced Power of Building Mounted Wind Turbines by Optimization of Roof Geometry and Utilization of Solar Panels, International Conference on Sustainable Mobility Applications, Renewables and Technology, SMART ۲۰۱۵; Kuwait; Kuwait.

۱۱- M. Tahani, E. Ziaee, A. Hajinezhad, P. Servati, M. Mirhosseini, A. Sedaghat, Vibrational Simulation of Offshore Floating Wind Turbine and Its Directional Movement Control by Fuzzy Logic, International Conference on Sustainable Mobility Applications, Renewables and Technology, SMART ۲۰۱۵; Kuwait; Kuwait.

۱۲- M. Jafari, A. Babajani, P. Hafezisefat, M. Mirhosseini, A. Rezania, L. Rosendahl, Numerical Simulation of a Novel Ocean Wave Energy Converter, The Conference of Environmental and Climate Technologies, CONECT ۲۰۱۸ (۱۶-۱۸ May ۲۰۱۸), Riga, Latvia.

۱۳- A. Babajani, M. Jafari, P. Hafezisefat, M. Mirhosseini, A. Rezania, L. Rosendahl, Parametric Study of a Wave Energy Converter (Searaser) for Caspian Sea, The Conference of Environmental and Climate Technologies, CONECT ۲۰۱۸ ( ۱۶-۱۸ May ۲۰۱۸), Riga, Latvia.

۱۴- B. Moghadassian, M. Jafari, P. Hafezisefat, M. Mirhosseini, A. Rezania, Numerical Investigation of Radiative Heat Transfer in a Particulate Medium Using FTN Finite Volume Method, ۱۰th International Conference on Applied Energy (ICAE ۲۰۱۸); Hong Kong; China; ۲۲-۲۵ August ۲۰۱۸

۱۵- Moghadassian, M. Jafari, P. Hafezisefat, M. Mirhosseini, A. Rezania, Numerical investigation of radiative heat transfer inside a ۲-D irregular geometry containing nano- and micro-size particles, ۱۰th International Conference on Applied Energy (ICAE ۲۰۱۸); Hong Kong; China; ۲۲-۲۵ August ۲۰۱۸

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