Turbulent Mixed Convection of a Nanofluid in a Horizontal Circular Tube with Non-Uniform Wall Heat Flux Using a Two-Phase Approach

F. Vahidinia; M. Rahmdel

Turbulent Mixed Convection of a Nanofluid in a Horizontal Circular Tube with Non-Uniform Wall Heat Flux Using a Two-Phase Approach

Publish place: Challenges in Nano and Micro Scale Science and Technology، Vol: 3، Issue: 2

Publish Year: 1394

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/1487324

شناسه ملی سند علمی:

JR_CHAL-3-2_005

تاریخ نمایه سازی: 1 مرداد 1401

Abstract:

In this paper, Turbulent mixed convective heat transfer of water and Al۲O۳ nanofluid has been numerically studied in a horizontal tube under non-uniform heat flux on the upper wall and insulation in the lower wall using mixture model. For the discretization of governing equations, the second-order upstream difference scheme and finite volume method were used. The coupling of pressure and velocity was established by using SIMPLEC algorithm. The calculated results demonstrated that the convective heat transfer coefficient of nanofluid is higher than of the base fluid and by increasing the nanoparticles volume fraction, the convective heat transfer coefficient and shear stress on the wall increase. On the other hand, with increasing the Grashof number, the shear stress and convective heat transfer coefficient decrease.

Keywords:

Grashof number , Horizontal tube , Mixed convection , Nanoparticles volume fraction , turbulent flow

Authors

F. Vahidinia

Mechanical Engineering Department, University of Zabol, Zabol, I.R. Iran

M. Rahmdel

Mechanical Engineering Department, University of Sistan and Baluchestan, Zahedan, I.R.Iran

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T. Wenbin, T. Yong, Z. Bo, L. Longsheng, Experimental studies ...
A.F. Wibisono, Y. Addad, J.I. Lee, Numerical investigation on water ...
J. Wen, H. Yang, S. Wang, S. Xu, Y. Xue, ...
J. Zhang, Y. Zhao, Y. Diao, Y. Zhang, An experimental ...
S.P. Guo, Z. Wu, W. Li, D. Kukulka, B. Sunden, ...
D.J. Kukulka, R. Smith, K.G. Fuller, Development and evaluation of ...
C. Muthusamy, M. Vivar, I. Skryabin, K. Srithar, Effect of ...
R. Raj, N.S. Lakshman, Y. Mukkamala, Single phase flow heat ...
W.H. Azmi, K.V. Sharma, P.K. Sarma, R. Mamat, S. Anuar, ...
T. Sokhansefat, A.B. Kasaeian, F. Kowsary, Heat transfer enhancement in ...
K. Hadad, A. Rahimian, M.R. Nematollahi, Numerical study of single ...
M. Shariat, R. Mokhtari Moghari, A. Akbarinia, R. Rafee, S.M. ...
A.A. Rabienataj Darzi, M. Farhadi, K. Sedighi, Heat transfer and ...
R.S. Vajjha, D.K. Das, D.R. Ray, Development of new correlations ...
A. Malvandi, M.R. Safaei, M.H. Kaffash, D.D. Ganji, MHD mixed ...
B.H. Salman, H.A. Mohammed, A.S. Kherbeet, Numerical and experimental investigation ...
W.I.A. Aly, Numerical study on turbulent heat transfer and pressure ...
S. Parvin, R. Nasrin, M.A. Alim, N.F. Hossain, A.J. Chamkha, ...
Y. Abbassi, M. Talebi, A.S. Shirani, J. Khorsandi, Experimental investigation ...
G. Dang, F. Zhong, Y. Zhang, X. Zhang, Numerical study ...
A. Moghadassi, E. Ghomi, F. Parvizian, A numerical study of ...
K. Wusiman, H. Chung, M.J. Nine, H. Afrianto, Heat transfer ...
V. Bianco, O. Manca, S. Nardini, Performance analysis of turbulent ...
G. Saha, M.C. Paul, Heat transfer and entropy generation of ...
A. Aghaei, G A. Sheikhzadeh, M. Dastmalchi, H. Forozande, Numerical ...
A. Behzadmehr, M. Saffar-Avval, N. Galanis, Prediction of Turbulent Forced ...
M. Hejazian, M. Keshavarz Moraveji , A. Beheshti, Comparative study ...
V. Bianco, O. Manca, S. Nardini, Numerical investigation on nanofluids ...
M. Akbari, A. Behzadmehr, F. Shahraki, Fully developed mixed convection ...
S. Mirmasoumi, A. Behzadmehr, Effect of nanoparticles mean diameter on ...
A. Akbarinia, A. Behzadmehr, Numerical study of laminar mixed convection ...
O. Ghaffari, A. Behzadmehr, H. Ajam, Turbulent mixed convection of ...
R. Mokhtari Moghari, A.S. Mujumdar, M. Shariat, F. Talebi, S.M. ...
H. Aminfar, M. Mohammadpourfard, Y. NarmaniKahnamouei, A ۳D numerical simulation ...
S. Mirmasoumi, A. Behzadmehr, Numerical study of laminar mixed convection ...
M. Manninen, V. Taivassalo, S. Kallio, On the Mixture Model ...
L. Schiller, A. Naumann, A drag coefficient correlation, Z. Ver. ...
B.E. Launder, D.B. Spalding, Lectures in Mathematical Models of Turbulence, ...
A.M. Hussein, K.V. Sharma, R.A. Bakar, K. Kadirgama, The Effect ...
B.C. Pak, Y.I. Cho, Hydrodynamic and heat transfer study of ...
S.U.S. Choi, Z.G. Zhang, P. Keblinski, Nanofluids. Encyclopedia of Nanoscience ...
C.H. Chon, K.D. Kihm, S.P. Lee, S.U.S. Choi, Empirical correlation ...
N. Masoumi, N. Sohrabi, A. Behzadmehr, A new model for ...
K. Khanafer, K. Vafai, M. Lightstone, Buoyancy-driven heat transfer enhancement ...
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S. Torii, Turbulent Heat Transfer Behavior of Nanofluid in a ...

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