مقالات در نشریات
- ۴۱. سید عبد المهدی هاشمی , احمدرضا طیاره , مهدی ملامهدی،مطالعه تجربی اثر بهکارگیری مشعلهای متخلخل در بهبود عملکرد یک آبگرمکن مخزنی،نشریه مهندسی مکانیک امیرکبیر،۰ ۰ ۰۱،ISC ,SID.
- 42. Hashemi, S. M., & Hashemi, S. A,Numerical study of the flame stability of premixed methane–air combustion in a combined porous-free flame burner. Proceedings of the Institution of Mechanical Engineers,Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy,2018.
- 43. Hashemi, S. A., Nikfar, M., & Ghorashi, S. A.,Numerical study of the effect of thermal boundary conditions and porous medium properties on the combustion in a combined porous-free flame burner,Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy,2018.
- 44. Sadripour, S., Estajloo, M., Hashemi, S. A., & Adibi, M.,Experimental and Numerical Investigation of Two Different Traditional Hand-Baking Flatbread Bakery Units in Kashan, Iran.,INTERNATIONAL JOURNAL OF ENGINEERING,2018.
- 45. Sadripour, S., Estajloo, M., Hashemi, S. A.,The Roles of Intensive and Extensive Efficiencies in Study of Combustion Chambers; Baking Ovens,International Journal of Multidisciplinary Research Hub,2018.
- 46. Ghorashi, S. A., Hashemi, S. A., Hashemi, S. M., & Mollamahdi, M.,Experimental study on pollutant emissions in the novel combined porous-free flame burner,. Energy,pp. 517-525,2018.
- 47. Hashemi, S. M., & Hashemi, S. A,Flame stability analysis of the premixed methane-air combustion in a two-layer porous media burner by numerical simulation,FUEL,2017 8 01,ISI.
- 48. Hashemi, S. M., & Hashemi, S. A,Numerical investigation of the flame stabilization in a divergent porous media burner,Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy,2017 5 01,ISI.
- 49. Hashemi, S. A., & Nikfar, M,THE EFFECT OF INLET CONDITION ON THE COMBUSTION IN A POROUS–FREE FLAME BURNER,Journal of Porous Media,2017.
- 50. Hashemi, S. A., M. Nikfar, and R. Motaghedifard,EXPERIMENTAL STUDY OF OPERATING RANGE AND RADIATION EFFICIENCY OF A METAL POROUS BURNER,Thermal Science,pp. 11-20,2015 8 01,ISI.
- 51. Hashemi, S. A., A. Fattahi and G. A. Sheikhzadeh,The Effect of Air Preheating on a Sudden-Expansion Turbulent Diffusion Air-fuel Flame,Arabian Journal for Science and Engineering,2013 10 01,ISI.
- 52. Hashemi, S. A., N. Hajialigol, A. Fattahi, K. Mazaheri, and R. Heydari,Investigation of a flame holder geometry effect on flame structure in non-premixed combustion,Journal of Mechanical Science and Technology,2013.
- 53. Hashemi, S. A., A. Fattahi, G. A. Sheikhzadeh and M. A. Mehrabian,The effect of oxidant flow rate on a coaxial oxy-fuel flame,HEAT MASS TRANSFER,2012 9 01,ISI.
- 54. Hashemi, S. A., A. Fattahi, G. A. Sheikhzadeh, N. Hajialigol, and M. Nikfar,Numerical investigation of NOx reduction in a sudden-expansion combustor with inclined turbulent air jet,Journal of mechanical science and technology,pp. 3723-3731,2012.
- 55. Hashemi, S. A., A. Fattahi, G. A. Sheikhzadeh and M. A. Mehrabian,Investigation of the Effect of Air Turbulence Intensity on Nox Emission in Non-Premixed Hydrogen and Hydrogen-Hydrocarbon Composite Fuel Combustion,International Journal of Hydrogen Energy,pp. 10159-10168,2011.
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