American Journal of Nano Research and Applications
Volume 4, Issue 1, January 2016, Pages: 1-5
Received: Jan. 11, 2016;
Accepted: Jan. 25, 2016;
Published: Feb. 14, 2016
Views 6178 Downloads 426
Mohammed Saad Kamel, Department of Mechanical Techniques, Al-Nasiriyah Technical Institute, Southern Technical University, Thi-Qar, Iraq
Raheem Abed Syeal, Department of Mechanical Techniques, Al-Nasiriyah Technical Institute, Southern Technical University, Thi-Qar, Iraq
Ayad Abdulameer Abdulhussein, Department of Mechanical Techniques, Al-Nasiriyah Technical Institute, Southern Technical University, Thi-Qar, Iraq
Nanofluids are a fluids containing nanometer-sized particles, called nanoparticles. These fluids are Suspension of nanoparticles in conventional fluids. Nanofluids have been the subject of intensive study worldwide since pioneering researchers recently discovered the anomalous thermal behavior of these fluids. The enhancement of heat transfer using nanofluids have been used as one of the passive heat transfer techniques in several heat transfer applications. It is considered to have great potential for heat transfer enhancement and are highly suited to application in heat transfer processes like microelectronics, fuel cells, pharmaceutical processes, and hybrid-powered engines, engine cooling/vehicle thermal management, domestic refrigerator, chiller, heat exchanger, and in boiler flue gas temperature reduction. This review covers the enhancement of heat transfer by using nanofluids and potential applications of nanofluids. This paper presents an updated review of the heat transfer applications of nanofluids to develop directions for future work because the literature in this area is spread over a wide range of disciplines, including heat transfer, material science, physics, chemical engineering and synthetic chemistry.
Mohammed Saad Kamel,
Raheem Abed Syeal,
Ayad Abdulameer Abdulhussein,
Heat Transfer Enhancement Using Nanofluids: A Review of the Recent Literature, American Journal of Nano Research and Applications.
Vol. 4, No. 1,
2016, pp. 1-5.
A. S. Dalkilic et.al ' Forced Convective Heat Transfer of Nanofluids - A Review of the Recent Literature' Current Nanoscience, 2012, 8, 949-969.
Xiang-Qi Wang et.al 'A review on nanofluids - part i: theoretical and numerical investigations' 'Brazilian Journal of Chemical Engineering' Vol. 25, No. 04, pp. 613 - 630, October - December, 2008.
C. Yang, W. Li, A. Nakayama, 'Convective heat transfer of Nanofluids in a concentric annulus' 'International Journal of Thermal Sciences' 71 (2013) 249-257.
Y. Raja Sekhara, K. V. Sharmab, R. Thundil Karupparaja, C. Chiranjeevia 'Heat Transfer Enhancement with Al2O3 Nanofluids and Twisted Tapes in a Pipe for Solar Thermal Applications' 'International Conference On DESIGN AND MANUFACTURING, IConDM 2013'Procedia Engineering 64 ( 2013 ) 1474 – 1484.
Adnan M. Hussein, K. V. Sharma, R. A. Bakar, and K. Kadirgama.'The Effect of Nanofluid Volume Concentration on Heat Transfer and Friction Factor inside a Horizontal Tube' Hindawi Publishing Corporation 'Journal of Nanomaterials' Volume 2013, Article ID 859563, 12 pages.
Faris Mohammed Ali, W. Mahmood Mat Yunus and Zainal Abidin Talib ''Study of the effect of particles size and volume fraction concentration on the thermal conductivity and thermal diffusivity of Al2O3 nanofluids'''International Journal of Physical Sciences' Vol. 8(28), pp. 1442-1457, 30 July, 2013.
S. ZeinaliHeris, Taofik H. Nassan, S. H. Noie, H. Sardarabadi, M. Sardarabadi "Laminar convective heat transfer of Al2O3/water nanofluid through square cross-sectional duct" 'International Journal of Heat and Fluid Flow' 2013.
A. Azari, M. Kalbasi and M. Rahimi "CFD AND EXPERIMENTAL INVESTIGATION ON THE HEAT TRANSFER CHARACTERISTICS OF ALUMINA NANOFLUIDS UNDER THE LAMINAR FLOW REGIME" 'Brazilian Journal of Chemical Engineering' Vol. 31, No. 02, pp. 469 - 481, April-June, 2014
Hassanain Ghani Hameed, Proof. Dr. Abudl-Muhsin A. Rageb "NUMERICAL SIMULATION OF THERMAL PERFORMANCE OF CONSTANT CONDUCTANCE CYLINDRICAL HEAT PIPE USING NANOFLUID" Al-Qadisiya Journal For Engineering Sciences, Vol. 7, No. 4, 2014.
Mohamed H. Shedid" Computational Heat Transfer for Nanofluids through an Annular Tube" "Proceedings of the International Conference on Heat Transfer and Fluid Flow" Prague, Czech Republic, August 11-12, 2014.
Layth W. Ismael, Dr. Khalid Faisal. Sultan" A comparative Study on the Thermal Conductivity of Micro and Nano fluids by Using Silver and Zirconium Oxide" Al-Qadisiya Journal For Engineering Sciences, Vol. 7, No. 2, 2014.
Hooman Yarmand, Samira Gharehkhani, Salim Newaz Kazi, Emad Sadeghinezhad, and Mohammad Reza Safaei " Numerical Investigation of Heat Transfer Enhancement in a Rectangular Heated Pipe for Turbulent Nanofluid" Hindawi Publishing Corporation, Scientific World Journal. Volume 2014, Article ID 369593, 9 pages.
Adnan M. Hussein , R. A. Bakar, K. Kadirgama, K. V. Sharma" Heat transfer augmentation of a car radiator using nanofluids " Heat and Mass Transfer journal, November 2014, Volume 50, Issue 11, pp 1553-1561.
Sami D. Salman, Abdul Amir H. Kadhum, Mohd S. Takriff, and Abu Bakar Mohamad "Heat Transfer Enhancement of Laminar Nanofluids Flow in a Circular Tube Fitted with Parabolic-Cut Twisted Tape Inserts" Hindawi Publishing Corporation, Scientific World Journal Volume 2014, Article ID 543231, 7 pages.
Hsien-Hung Ting and Shuhn-Shyurng Hou" Investigation of Laminar Convective Heat Transfer for Al2O3-Water Nanofluids Flowing through a Square Cross-Section Duct with a Constant Heat Flux" Materials 2015, 8, 5321-5335.
Rabah Nebbati, Mahfoud Kadj" Study of forced convection of a nanofluid used as a heat carrier in a microchannel heat sink" "International Conference on Technologies and Materials for Renewable Energy, Environment and Sustainability, TMREES15", 2015.
Khalid Faisal Sultan "Numerical Solution of Heat Transfer and Flow of Nanofluids in Annulus With Fins Attached on the Inner Cylinder" Journal of Babylon University/Engineering Sciences/ No.(2) / Vol.(23): 2015.
Dr. Khalid Faisal Sultan "Augmentation of Heat Transfer Through Heat Exchanger With and Without Fins by Using Nano fluids" Journal of Engineering and Development, Vol. 19. No. 4, July 2015, ISSN 1813- 7822.
Abdolbaqi Mohammed Khdher, Rizalman Mamat, Nor Azwadi Che Sidik "The Effects of Turbulent Nanofluids and Secondary Flow on the Heat Transfer through a Straight Channel" Recent Advances in Mathematical and Computational Methods, 2015.
Bayram Sahin, Eyuphan Manay and Eda Feyza Akyurek " An Experimental Study on Heat Transfer and Pressure Drop of CuO-Water Nanofluid" Hindawi Publishing Corporation, Journal of Nanomaterials, Volume 2015, Article ID 790839, 10 pages.
J. A. Eastman, U. S. Choi, S. Li, L. J. Thompson, S. Lee, Proceedings of the Materials Research Symposium(Nanophase and Nanocomposite Materials II), 1997.
J. A. Eastman, S. U. S. Choi, S. Li, G. Soyez, L. J. Thompson, R. J. DiMelfi, J. Metastab. Nanocryst. 2(1998) 629.
V. V. Srdic, M. Winterer, A. Mller, G. Miehe, H. Hahn, J. Am. Ceram. Soc. 84 (2001) 277.
H. T. Zhu, C. Y. Zhang, Y. M. Tang, and J. X. Wang, “Novel synthesis and thermal conductivity of CuO nanofluid,” Journal of Physical Chemistry C, vol. 111, no. 4, pp. 1646–1650, 2007.
Y. Chen and X. Wang, “Novel phase-transfer preparation of monodisperse silver and gold nanoparticles at room temperature,” Materials Letters, vol. 62, no. 15, pp. 2215– 2218, 2008.
W. Yu, H. Xie, L. Chen, and Y. Li, “Enhancement of thermal conductivity of kerosene-based Fe3O4 nanofluids prepared via phase-transfer method,” Colloids and Surfaces A, vol. 355, no. 1–3, pp. 109–113, 2010.
X. Feng, H. Ma, S. Huang et al., “Aqueous-organic phasetransfer of highly stable gold, silver, and platinum nanoparticles and new route for fabrication of gold nanofilms at the oil/water interface and on solid supports,” Journal of Physical Chemistry B, vol. 110, no. 25, pp. 12311–12317, 2006.