Application of ZnO/TiO2 Nanocomposite for the Improvement of Heat Transfer Coefficient in Tube Heat Exchangers
Subject Areas : Journal of Nanoanalysis
M Yousefifar
1
,
Mohamad Mahdi Zerafat
2
,
S. Sabbaghi
3
1 - Faculty of Advanced Technologies, Nano-Chemical Eng. Dep., Shiraz University, Shiraz, Iran
2 - Faculty of Advanced Technologies, Nano-Chemical Eng. Dep., Shiraz University, Shiraz, Iran
3 - Faculty of Advanced Technologies, Nano-Chemical Eng. Dep., Shiraz University, Shiraz, Iran
Keywords:
Abstract :
[1]G. Huminic and A. Huminic, Renew. Sustain. Energy Reviews, 16, 5625 (2012).
[2] S.S. Sonawane, R. S. Khedkar and K.L.Wasewar, Int. Commun. Heat Mass Trans., 49, 60 (2013).
[3] D. Madhesh, R. Parameshwaran and S. Kalaiselvam, Experimental Thermal and Fluid Sci., 52, 104 (2014).
[4] B. Farajollahi, S.Gh. Etemad and M. Hojjat, Int. J. of Heat Mass Transfer. 53, 12 (2010).
[5] K. Anoop,J. Cox and R. Sadr, Int. Commun. Heat and Mass Transfer., 49, 5 (2013).
[6] J. Albadr, S. Tayal and M. Alasadi, Case Studies in Thermal Eng., 1, 38 (2013).
[7] R. Lotfi, A. M. Rashidi and A. Amrollahi, Int. Commun. Heat and Mass Transfer., 39, 108 (2012).
[8] S. Zeinali-Heris, M. Nasr Esfahany andG. Etemad, J. Enhanced Heat Transfer., 13, 279 (2006).
[9]A.R. Sajadi, S.S. Sadati, M. Nourimotlagh, O. Pakbaz, D. Ashtiani and F. Kowsari, Thermal Sci., 18, 1315 (2014).
[10] P. Gurav, S.S. Naik, K. Ansari, S. Srinath, K. A. Kishore, Y. P. Setty and S. Sonawane, Colloids Surfaces A: Physicochem. Eng. Aspects., 441, 589 (2014).
[11] A. Ghozatloo, A. Rashidi and M. Shariaty-Niassar, Exp. Thermal Fluid Sci.,53, 136 (2014).
[12] L. Godson, K. Deepak, C. Enoch, B. Jefferson and B. Raja, Archives Civil Mech.Eng., 14, 489 (2014).
[13] S. Sabbaghi, H. Sadeghi, M. Mohammadi, M.M. Zerafat and R. Pooladi, Desal. Water Treatm., 57, 799 (2016).
[14] M. Mirzayi, S. Sabbaghi and M.M. Zerafat, Canadian J. Chem. Eng., ٩٦, Article in Press (2018).
[15] M.H. Yousefi, M.M. Zerafat, M. Shok-Doodeji and S. Sabbaghi, J. Water Environment. Nanotech., 2, 235 (2017).
[16] M. Shokri-Doodeji, M.M. Zerafat and O. Nejadian, J. Nanoanalysis, 4, 247(2017).
[17] A.E. Shalan, A. Mourtada, M. Rasly, M.M. Moharam, M. Lira-Cantu and M.M. Rashad, RSC Advances, 5, 103095 (2015).
[18] C. Karunakaran, G. Abiramasundari, P. Gomathisankar, G. Manikandan and V. Anandi, Materials Research Bulletin, 46, 1586 (2011).
[19] B.C. Yadav, Richa Srivastava and C.D. Dwivedi, Philosophical Magazine, 88, 1113 (2008).
[20] S.S. Kanmani and K. Ramachandran, Renewable Energy, 43, 149 (2012).
[21] M.R. Vaezi, J.Materials Process.Tech., 205, 332 (2008).
[22] T. Namdar, M.M. Zerafat, S. Sabbaghi, R. Saboori and M. Yousefifar, Transp. Phenom. Nano. Micro. Scales, 6, 104 (2018)
[23] M. Zhang, T. An, X. Liu, X. Hu, G. Sheng and J. Fu, Materials Lett., 64, 1883 (2010).
[24] L. Wang, X. Fu, Y. Han, E. Chang, Haitao Wu, H. Wang, K. Li and X. Qi, Hindawi Publishing Corporation J. Nanomaterial. 2013, 6 (2013).
[25] M.A. Habib, M.T. Shahadat, N.M. Bahadur, I.M.I. Ismail and A.J. Mahmood, Int. Nano Letters., 3, 5 (2013).
[26] N.M. Bahadur, T. Furusawa, M. Sato, F. Kurayama, N. Suzuki, Materials Research Bulletin, 45, 1383 (2010).
