Advanced Heat Transfer Enhancement by using Nanofluids: A Review
|International Journal of Engineering Trends and Technology (IJETT)||
|© 2017 by IJETT Journal|
|Year of Publication : 2017|
|Authors : M. A. Boda, M. Ramachandran, S. S. Deshetti, M. A. Gavade
|DOI : 10.14445/22315381/IJETT-V45P279|
M. A. Boda, M. Ramachandran, S. S. Deshetti, M. A. Gavade "Advanced Heat Transfer Enhancement by using Nanofluids: A Review", International Journal of Engineering Trends and Technology (IJETT), V45(8),419-423 March 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
The purpose of this review article is to summarize the important published articles on the enhancement of the convection heat transfer with Nanofluids. Over the last 2-3 decades, there has been intensive research into the behavior of substances that contain extremely small particles. Nanotechnology is the science and engineering of working at the Nanoscale, where the individual particles are 1-100 nanometers in size. It’s hard to imagine the size of nanoparticles, but there are about 2, 54, 00,000 nanometers in an inch. Nanofluids which are less than even a micron (nearly 10-9 times smaller) in diameter, highly reactive and efficient material which can be used to increase factor like rate of heat transfer, thermal conductivity of any metal or material, they are that much reactive and strong. The thermal conductivity increases with decreasing the grain size of the material. As the thermal conductivity increases the heat transfer rate increases.
 A. M. Hussein, K. V. Sharma, R. A. Bakar and K. Kadirgama,
“Heat Transfer Enhancement With Nanofluids – A Review”,
Journal of Mechanical Engineering and Sciences, Vol. 4, 452-
461, June 2013.
 L. B. Chintamani and Prof. N. C. Ghuge, “A Review Paper on Experimental Heat Transfer Enhancement using Nanofluids”, International Journal of Innovative Research in Advanced Engineering, Vol. 2(2), 64-67, February 2015.
 T. Kavitha, A. Rajendran, A. Durairajan and M. Syedabuthahir, “Advanced Heat Transfer Enhancement Using TiO2 Water Based Nano Fluids”, International Journal of Mechanical and Industrial Engineering, Vol. 2 (4), 69-71, 2012.
 H. K. Gupta, G. D. Agrawal, J. Mathur, “An overview of Nanofluids: A new media towards green Environment”, International Journal of Environmental Sciences, Vol. 3 (1), 433-440, 2012.
 B. N. Kharad, G. P. Bhagat, R. M. Ghodke, and A. P. Avhad, “Heat Transfer Enhancement Using Nano Fluids- An Overview”, International Journal of Innovative Research in Science, Engineering and Technology, Vol. 3 (4), 105-109, April 2014.
 L. B. Mapa and Sana Mazhar, “Heat Transfer in Mini Heat Exchanger Using Nanofluids”, American Society for Engineering Education, April 2005.
 E. V. Timofeeva, Wenhua Yu, David M France, Dileep Singh, Jules L Routbort, “Nanofluids for Heat Transfer: An Engineering Approach”, Nanoscale Research, Vol. 6(1), 182- 188, 2011.
 A. Mehta, D. Tantia, N. Jha, N. Patel, “Heat Exchanger Using Nano Fluid”, International Journal of Advanced Engineering Technology, Vol. 3 (4), 49-54, Oct.-Dec. 2012.
 A reference book of “Nano/Microscale Heat Transfer”, by Zhuomin M. Zhang, DOI: 10.1036/007143674X, The McGraw-Hill Companies, 2007.
 Lazarus Godson Asirvatham, “Nanofluid Heat Transfer and Applications”, Journal of Thermal Engineering, Yildiz Technical University Press, Istanbul, Turkey, Vol. 1 (2), 113- 115, August 2014.
 S. K. Das, Stephen U. S. Choi and H. E. Patel “Heat Transfer in Nanofluids-A Review” Heat Transfer Engineering, Taylor & Fracis, Vol. 27 (10), 3-19, 2006.
 J. A. Eastman, S. U. S. Choi, W. Yu and L. J. Thompson et al. “Anomalously increased effective thermal conductivities of ethylene glycol-based Nanofluids containing copper nanoparticles” Applied Physics Letters, Vol. 78, February 2001
 C. Choi, H.S. Yoo, J. M. Oh, “Preparation and heat transfer properties of nanoparticles-in-transformer oil dispersions as advanced energy-efficient coolants”, Current Applied Physics 8 (2008) 710-712.
 Yulong Ding, Haisheng Chen et. al. “Heat Transfer Intensification Using Nanofluids”, KONA No.25, 23-34, 2007.
 A. K. Singh, “Thermal Conductivity of Nanofluids”, Defence Science Journal, Vol. 58(5), 600-607, Sep.2008.
 W. Daungthongsuk and S. Wongwises, “A critical review of convective heat transfer of Nanofluids”, Renewable and Sustainable Energy Reviews, 798-817, June 2007.
 Yimin Xuan and Wilfried Roetzel, “Conceptions for heat transfer correlation of nanofluids”, International Journal of Heat and Mass Transfer: Pergamon, Vol.43, 3701-3707, 2000.
 X. Q. Wang and A. S. Mujumdar, “Heat transfer characteristics of nanofluids: A Review”, International Journal of Thermal Sciences: Elsevier, Vol. 46, 1–19, 2007.
 Y. Xuan and Qiang Li, “Heat transfer enhancement of nanofluids”, International Journal of Heat and Fluid Flow: Elsevier, Vol.21, 58-64, 2000.
 Sadik Kakaç and A. Pramuanjaroenkij. “Review of convective heat atransfer enhancement with Nanofluids”, International Journal of Heat and Mass Transfer: Elsevier, Vol. 52, 3187– 3196, 2009.
 Mostafa Keshavarz Moraveji et. al. “Experimental investigation of aluminum oxide nanofluid on heat pipe thermal performance” International Communications in Heat and Mass Transfer 39 (2012) 1444–1448.
 Seok Pil Jang et. al. “Effects of Various Parameters on Nanofluid Thermal Conductivity” Journal of Heat Transfer, Vol. 129, 617-623, May 2007.
 Omer A. Alawi et. al “Fluid flow and heat transfer characteristics of nanofluids in heat pipes” Journal of Heat Transfer: Elsevier, 2014.
 Cheol Bang et. al. “Boiling heat transfer performance and phenomena of Al2O3–water nano-fluids from a plain surface in a pool” International Journal of Heat and Mass Transfer: Elsevier, Vol. 48, pp. 2407–2419, 2005.
 Haisheng Chen et. al. “ Heat transfer and flow behaviour of aqueous suspensions of titanate Nanotubes” Powder Technology: Elsevier, Vol. 183, pp. 63–72, 2008
 Lazarus Godson et. al. “Enhancement of heat transfer using nanofluids” Renewable and Sustainable Energy Reviews: Elsevier, Vol. 14, pp. 629–641, 2010.
 Dongsheng Wen et. al. “Effect of particle migration on heat transfer in suspensions of nanoparticles flowing through minichannels” Microfluid Nanofluid, Vol. 1, pp. 183–189, 2005.
 Gilles Roy et. al. “Heat transfer enhancement by using nanofluids in forced convection flows” International Journal of Heat and Fluid Flow: Elsevier, Vol. 26, pp. 530–546, 2005.
 S. Kumar et. al. “Enhancement of Heat Transfer with Nanofluids” International Journal of Engineering Research & Technology Vol. 3(4), April – 2014.
nanotechnology, Nanofluids, thermal conductivity, heat transfer enhancement, convectional heat transfer.