Open Access
Subscription Access
Open Access
Subscription Access
Heat Transfer Enhancement in a Double Pipe Heat Exchanger using Zinc Oxide Nanofluid
Subscribe/Renew Journal
Water is majorly used as a coolant in both industries and vehicles but there are certain drawbacks associated with it. The extent to which heat can be absorbed is low and the range of the cooling operation is limited by the boiling and freezing points of water. Work is being done to compress these constrictions by using coolant with Zinc Oxide nanoparticles to enhance the overall heat transfer coefficient. The work is intended to assess the variation in the degree of heat transfer by physical experimentation. For the experimentation purpose, a Double Pipe Heat Exchanger was fabricated. The nanoparticles selected were Zinc oxide and they were prepared in the laboratory by various methods. The samples were analyzed by using methods of Scanning Electron Microscopy (SEM) and X-ray powder diffraction. The range of 30-50 nm prepared nanoparticles was selected. Different concentration of nanoparticles was added in base fluid which decides the degree of heat transfer. Finally, on running the experiment an increase in the overall coefficient from 31.43% -44.88% (theoretical) and 2.78% - 11.8% (experimental) was observed.
Keywords
Nano fluid, Heat Exchanger, Heat Transfer Coefficient, Zincoxide.
User
Subscription
Login to verify subscription
Font Size
Information
- Bhosle, Bharath B; Hatkar, DN: Analysis of Heat Transfer Enhacement of Heat Exchanger using Nano Fluid, International Research Journal of Engineering and Technology, e-ISSN:23950056, p-ISSN: 2395-0072, 2017.
- Tiwari, AK; Ghosh, P; Sarkar, J: Heat transfer and pressure drop characteristics of CeO2 /water Nano Fluid in plate heat exchanger, 'Applied Thermal Engineering', 57, 2013, 24-32.
- Tiwari, AK; Ghosh, P; Sarkar, Jahar: Particle concentration levels of various Nano Fluids in plate heat exchanger for best performance, 'International Journal of Heat and Mass Transfer', 89, 2015, 1110 - 1118.
- Tiwari, AK; Ghosh, P; Sarkar, J: Performance comparison of the plate heat exchanger using different Nano Fluids, Experimental, Thermal and Fluid Science, 49, 2013, 141–151.
- Farajollahi, B; S.Gh. Etemad; Hojjat, M: Heat transfer of Nano Fluids in a shell and tube heat exchanger, 'International Journal of Heat and Mass Transfer', 53 (1-3), 2010, 12–17.
- Javadi, FS; Sadeghipour, S; Saidur, R; BoroumandJazi, G; Rahmati, B; Elias, MM; Sohel, MR: The effects of Nano Fluid on thermophysical properties and heat transfer characteristics of a plate heat exchanger, International Communications in Heat and Mass Transfer, 44, 58-63, 2013.
- Albadr, J; Tayal, S; Alasadi, M: Heat transfer through heat exchanger using Al2O3 Nano Fluid at different concentrations, Case Studies in Thermal Engineering, vol. 1, no. 1, 2013, 38-44.
- Sarafraz, MM; Hormozi, F; Nikkhah, V: Thermal performance of a counter-current double pipe heat exchanger working with COOH-CNT/water Nano Fluids, Experimental Thermal and Fluid Science, vol. 78, November 2016, 41-49.
- Nuim, Labib, M; Md. J Nine; Afrianto, Handry; Chung, Hanshik; Jeong, Hyomin: Numerical investigation on effect of base fluids and hybrid Nano Fluid in forced convective heat transfer, 'International Journal of Thermal Sciences', vol. 71, September, 2013, 163-171.
- Chavda, NK; Patel, Jay R; Patel, Hardik H; Parmar, Atul P: Effect Of Nano Fluid On Heat Transfer Characteristics Of Double Pipe Heat Exchanger: Part-I: Effect Of Aluminum Oxide Nano Fluid, 'International Journal of Research in Engineering and Technology (IJRET)', vol. 3, eISSN: 2319-1163, pISSN: 2321-7308, 2014.
- Bhosale, NN; Gade, DB; Gonda, SY; Sonawane, VJ; Keste, AA: Heat Transfer Enhancement in Heat Exchanger by using Nano Fluid: a Review, 'Journal of Mechanical and Civil Engineering (IOSR-JMCE)', e-ISSN: 2278-1684, p-ISSN: 2320-334X, 2017.
- Suresh, S; Venkitaraj, KP; Selvakumar, P; Chandrasekar, M: A comparison of thermal characteristics of Al2O3 /water and CuO/water Nano Fluids in transition flow through a straight circular duct fitted with helical screw tape inserts, 'Experimental Thermal and Fluid Science', vol. 39, May 2012, 37-44.
- Maré, T; Halelfadl, S; Sow, O; Estellé, P; Duret, S; Bazantay, F: Comparison of the thermal performances of two Nano Fluids at low temperature in a plate heat exchanger, Experimental Thermal and Fluid Science, vol. 35, no. 8, November 2011, 1535-1543.
- El-Maghlany, Wael M; Hanafy, AA; Hassan, AA; El-Magid, MA: Experimental study of Cu– water Nano Fluid heat transfer and pressure drop in a horizontal double-tube heat exchanger, 'Experimental Thermal and Fluid Science', vol. 78, November 2016, 100-111.
- Vermahmoudi, Y; Peyghambarzadeh, SM; Hashemabadi, SH; Naraki, M: Experimental investigation on heat transfer performance of Fe2O3/water Nano Fluid in an air-finned heat exchanger, 'European Journal of Mechanics B/Fluids' , vol. 44, 2014, 32-41.
- Xie, Yi-Chao; Huang, Shi-Di; Funfschilling, Denis; Li, Xiao-Ming; Ni, Rui; Xia, Ke-Qing: Effects of polymer additives in the bulk of turbulent thermal convection, 'J. Fluid Mech'., vol. 784, R3, 2015.
- Arefi, MR; Rezaei-zarchi, S: Synthesis of Zinc Oxide Nanoparticles and Their Effect on the Compressive Strength and Setting Time of Self-Compacted Concrete Paste as Cementitious Composites,” . December 2012, 2014.
Abstract Views: 278
PDF Views: 0