Dr. Muslum  Arici

Dr. Muslum Arici

Associate Professor
Kocaeli University, Turkey


Highest Degree
Ph.D. in Mechanical Engineering from Kocaeli University, Turkey

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Biography

Dr. Muslum Arici is currently working as Visiting Professor at Universidad de Zaragoza Area de Mecanica de Fluidos, Spain, and Assistant Professor at Kocaeli University, Mechanical Engineering Department, Turkey. He has published 12 research articles in journals as well as 21 papers in conferences contributed as author/co-author. He successfully completed 3 scientific projects.

Area of Interest:

Engineering
100%
Nanofluid Technology
62%
Mechanical Engineering
90%
Solar Energy
75%
Electric Engineering
55%

Selected Publications

  1. Wang, Q., W. Wei, L. Dong, Q. Hanbing, W. Fuqiang and A. Müslüm, 2019. Experimental investigation of thermal radiative properties of Al2O3-paraffin nanofluid. Solar Energy, 177: 420-426.
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  2. Tükel, M., M. Kaan, A. Müslüm and K. Hasan, 2019. Analysis of fluid flow and heat transfer characteristics in multiple glazing roofs with a special emphasis on the thermal performance. Appl. Therm. Eng., 148: 694-703.
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  3. Qi, H., Z. Yujia, W. Qiushi, W. Fuqiang, K.H. Ahmed, A. Müslüm and L. Dong, 2019. Experimental investigation of optical properties of oily sewage with different pH environment. Optik, 183: 338-345.
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  4. Penga, Z., N. Sandro and A. Müslüm, 2019. Solar plant with short diffuser concept: Further improvement of numerical model by included influence of guide vane topology on shape and stability of gravitational vortex. J. Cleaner Prod., 212: 353-361.
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  5. Nižetić, S., P. Agis, R. Gojmir, Z. Vlasta and A. Müslüm, 2019. Using pellet fuels for residential heating: A field study on its efficiency and the users’ satisfaction Energy. Build., 184: 193-204.
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  6. Liu, C., Z. Guojun, A. Müslüm, B. Ji and L. Dong, 2019. Thermal performance of non-ventilated multilayer glazing facades filled with phase change material. Solar Energy, 177: 464-470.
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  7. Hu, X., X. Tian, Z. Lijian, W. Qiushi and A. Müslüm, L. Dong, 2019. Comparison of transmittance and reflection methods for solving optical constants of optical glass. Optik, 183: 924-932.
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  8. Hu, X., W. Qiushi, L. Yan, W. Zhiguo, A. Müslüm and L. Dong, 2019. A novel optical method for component content measurement of multivariate mixture. Optik, 180: 799-806.
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  9. Hu, X., L. Yan, Z. Lijian, W. Qiushi, A. Müslüm and L. Dong, 2019. Analysis of influencing factors of the component analysis method for multivariate mixture. Optik, 183: 854-862.
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  10. Cinar, S., K. Michal and A. Muslum, 2019. Performance evaluation of a building integrated photovoltaic/thermal system combined with air-to-water heat pump. Appl. Mech. Mater., 887: 181-188.
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  11. Nizetic, S., M. Arıcı, F. Bilgin and F. Grubisic-Cabo, 2018. Investigation of pork fat as potential novel phase change material for passive cooling applications in photovoltaics. J. Cleaner Prod., 170: 1006-1016.
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  12. Li, D., W. Yangyang, Z. Guojun, A. Müslüm, L. Changyu and W. Fuqiang, 2018. Influence of glazed roof containing phase change material on indoor thermal environment and energy consumption. Appl. Energy, 222: 343-350.
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  13. Li, D., W. Yangyang, L. Changyu, Z. Guojun and A. Müslüm, 2018. Numerical investigation of thermal and optical performance of window units filled with nanoparticle enhanced PCM. Int. J. Heat Mass Transfer, 125: 1321-1332.
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  14. Li, D., W. Yangyang, L. Changyu, Z. Guojun and A. Müslüm, 2018. Energy investigation of glazed windows containing Nano-PCM in different seasons. Energy Convers. Manage., 172: 119-128.
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  15. Campo, A. and A. Müslüm, 2018. Numerical analysis of unsteady heat conduction in regular solid bodies comprising natural convection to nearby fluids. Heat Transfer Asian Res., 47: 887-906.
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  16. Arıcı, M., T. Ensar, K. Hasan and C. Antonio, 2018. Investigation on the melting process of phase change material in a square cavity with a single fin attached at the center of the heated wall. Eur. Phys. J. Appl. Phys., 10.1051/epjap/2018180092.
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  17. Arıcı, M., T. Ensar and C. Antonio, 2018. Numerical investigation of melting of paraffin wax dispersed with CuO nanoparticles inside a square enclosure. Heat Transfer Res., 49: 847-863.
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  18. Arıcı, M., B. Feyza, N. Sandro and M.P. Agis, 2018. Phase change material based cooling of photovoltaic panel: A simplified numerical model for the optimization of the phase change material layer and general economic evaluation. J. Cleaner Prod., 189: 738-745.
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  19. Öğüt, E.B., A. Metin and A. Müslüm, 2017. Natural convection of nanofluids in an inclined square cavity with side wavy walls. J. Therm. Sci. Technol., 37: 139-149.
    Direct Link  |  
  20. Nizetic, S., Z. Penga and M. Arici, 2017. Contribution to the research of an alternative energy concept for carbon free electricity production: Concept of solar power plant with short diffuser. Energy Conversion Manage., 148: 533-553.
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  21. Llorente, V., G. Rubio, A. Pascau, E. Ferrer and M. Arici, 2017. Comparison of the ENATE approach and discontinuous Galerkin spectral element method in 1D nonlinear transport equations. Comput. Assis. Meth. Eng. Sci., 23: 133-146.
    Direct Link  |  
  22. Bilgin, F. and A. Müslüm, 2017. Effect of phase change materials on time lag and decrement factor considering different climatic conditions. Acta Phys. Pol. A, 132: 1102-1105.
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  23. Arici, M., E. Tutuncu, M. Kan and H. Karabay, 2017. Melting of nanoparticle-enhanced paraffin wax in a rectangular enclosure with partially active walls. Int. J. Heat Mass Transfer, 104: 7-17.
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  24. Arici, M., C. Kaptan and H. Karabay, 2017. Mixed convection heat transfer of nanofluids in a trapezoidal cavity having an adiabatic square body at its center. Res. Eng. Struct. Mater., 3: 155-162.
    Direct Link  |  
  25. Pascau, A. and M. Arici, 2016. An accurate discretization for an inhomogeneous transport equation with arbitrary coefficients and source. Comput. Fluids, 125: 101-115.
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  26. Aydemir, M., M. Arici and H. Karabay, 2016. Thermal analysis of bipolar microelectronic devices. High Temp. High Pressures, 45: 155-161.
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  27. Arici, M., B. Yilmaz and H. Karabay, 2016. Investigation of heat insulation performance of hollow clay bricks filled with perlite. Acta Phys. Polonica, A., 130: 266-268.
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  28. Arici, M., M. Kan and H. Karabay, 2015. Effect of aspect ratio on natural convection in a cavity with wavy walls. Acta Phys. Polonica A, 128: 197-200.
  29. Arici, M., H. Karabay and M. Kan, 2015. Flow and heat transfer in double, triple and quadruple pane windows. Energy Build., 86: 394-402.
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  30. Arici, M. and M. Kan, 2015. An investigation of flow and conjugate heat transfer in multiple pane windows with respect to gap width, emissivity and gas filling. Renewable Energy, 75: 249-256.
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  31. Sandik, M., M. Arici and H. Karabay, 2013. Wall and floor radiant heating systems. J. Energy Technol. HVAC Syst., 216: 58-66.
  32. Sandik, M., M. Arici and H. Karabay, 2013. Numerical investigation of flow and heat transfer inside a room for floor cooling and wall cooling systems. HVAC Sanitary Eng., 134: 13-22.
  33. Karabay, H., M. Arici and M. Sandik, 2013. A numerical investigation of fluid flow and heat transfer inside a room for floor heating and wall heating systems. Energy Build., 67: 471-478.
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  34. Karabay, H. and M. Arıcı, 2012. Multiple pane window applications in various climatic regions of Turkey. Energy Build., 45: 67-71.
    CrossRef  |  
  35. Akcaoglu, E., M. Arici and E.B. Ogut, 2012. Numerical investigation of natural convection heat transfer of nanofluids in a square enclosure. Erciyes Univ. J. Inst. Sci. Technol., 28: 359-366.
  36. Dil, D., M. Arici and H. Karabay, 2010. The effect of pipe distance and water temperature on the floor temperature in radiant heating applications. HVAC Sanitary Eng., 116: 52-56.
  37. Arici, M. and H. Karabay, 2010. Determination of optimum thickness of double-glazed windows for the climatic regions of Turkey. Energy Build., 42: 1773-1778.
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  38. Tukel, M., M. Arici, M.F. Bingollu and H. Karabay, 2009. The effect of heat reflector placed behind of radiators on the radiator efficiency. HVAC Sanitary Eng., 114: 49-55.
  39. Arici, M. and M. Secilmis, 2007. Controlling humidity of indoor swimming pools and operating air-conditioning economically. HVAC Sanitary Eng., 98: 7-18.