Design and Parametric Analysis of Helical Coil convective type Heat Exchanger
International Journal of Mechanical Engineering |
© 2017 by SSRG - IJME Journal |
Volume 4 Issue 7 |
Year of Publication : 2017 |
Authors : Vikas Kushwaha, Wasim Shaikh, Ronak Shukla, Rushabh Panchal |
How to Cite?
Vikas Kushwaha, Wasim Shaikh, Ronak Shukla, Rushabh Panchal, "Design and Parametric Analysis of Helical Coil convective type Heat Exchanger," SSRG International Journal of Mechanical Engineering, vol. 4, no. 7, pp. 33-39, 2017. Crossref, https://doi.org/10.14445/23488360/IJME-V4I7P108
Abstract:
A heat exchanger is a mechanical device used for transfer of heat from one medium to another or from one fluid to other. The application of heat exchangers can be in the process of cooling and heating both. The applications of heat exchangers are in the field of textile industries, food processing industries, petrochemical industries, and medical industries. The requirement of the present manufacturing and production factories directs the researchers in finding a substitute system which should be effective in the most efficient way. From different types of heat exchangers the helical coil heat exchangers with double coil is to be under study. For making the helical coil heat exchanger for higher performance and efficiency at low manufacturing and maintenance cost in which maximum utilization of heat energy of flue gases is possible and also which is cheap and easy to accommodate by any industries for their operation. And to improve the working condition, life of device and decrease the losses by altering the type of material of tubes for given mechanical and thermal property for which the heat exchanger is to be designed.
Keywords:
Heat Exchanger, Helical coil pipe, Material analysis, Thermopac, CFD
References:
[1] HEATEX Catalogue, HEATEX Engineering Company
[2] Mr.Vijay P. Desai and Dr. Sachin L Borse (2013), ―Experimental Study on Enhancement of Thermal Performance of Wire Wound Tube In Tube Coil HeatExchanger, International Journal of Engineering Research and Applications(IJERA), Vol.3, Issue 4, pp. 340- 346
[3] Sukani Sunny, Rajendra Patil and Keshav Singh (2012), ― Assessment of ThermalFatigue Failure for BS 3059 Boiler Tube Experiment Procedure Using SmithyFurnace, International Journal of Emerging Technology and AdvancedEngineering(IJETAE),Volume 2,Issue 8
[4] Pramod S. Purandare, Mandar M. Lele and Rajkumar Gupta (2012), Parametric Analysis of Helical Coil Heat Exchanger, International Journal of Engineering Research & Technology(IJERT), Volume 1, Issue 8
[5] Ashok B. Korane, P. S. Purandre, and K. V. Mali (2012), ―Pressure Drop Analysis of Helical Coil Heat Exchanger for Circular and Square-Coiled Pattern, International Journal of Engineering & Science Research(IJESR), Volume 2, Issue 5,pp. 361-369
[6] J. S. Jayakumar (2012), ―Helically Coiled Heat Exchanger, Heat Exchanger –Basics Design Applications. Dr. Jovan Mitrovic (Ed.), ISBN: 978-953-51-0278-6, InTech, Available form: http://www.Intechopen.com/books/heat-exchangerbasics- design-applications/helically-coiled-heat-exchnagers
[7] Kevin M. Lunsford (1998), ―Increasing Heat Exchanger Performance, BryanResearch & Engineering Inc., Hydrocarbon Engineering
[8] Bibin Prasad, Sujith V, Mohammed Shaban K, Saju Haneel, Sandeep N and Vishnu Raj (2013), ―Comparison of Heat Transfer between a Helical and Straight Tube Heat Exchanger, International Journal of Engineering Research andTechnology, Volume 6, Number 1, pp. 33-40
[9] Jundika C. Kurnia, Agus P. Sasmito, Arun S. Mujumdar (2011), ―Evaluation of the heat transfer performance of helical coils of non-circular tubes, Kurnia et al, / J Zhejiang University-Science A (Applied Physics & Engineering), ISSN 1673-565X, pp. 63-70
[10] H. Hassanzadeh Afrouzia, A.A. Rabienataj Darzib, M. A. Delavara and A. Abouei (2013), ―Pulsating Flow and Heat Transfer in a Helical Tube With Constant Heat Flux, International Journal of Advance Industrial Engineering(INPRESSCO), Volume 1, Number 2, ISSN 2320- 5539
[11] O. P. Khanna (2011), ―A Text Book of Material Science and Metallurgy, Dhanpat Rai Publication (P) LTD., ISBN: 978-81-89928-31-5
[12] BRITISH STANDARD, BS 3059-1:1987, Steel boiler and super heater tubes - Part 1: Specification for low tensile carbon steel tubes without specified elevated temperature properties, UDC 621.184.2-034.14
[13] G. K. Sahu (1998), ―Handbook of Piping Design, New Age International (PVT) Limited, ISBN: 81-224-1141-X
[14] R. K. Rajput (2007), ―Engineering Thermodynamics, Laxmi Publication (P) LTD, ISBN: 978-0-7637-8272-6, 3678
[15] Technical Data Sheet of ―Shell Heat Transfer Oil S2X, High Performance Heat Transfer fluid, Shell Lubricants, August 2010 Report
[16] Soumya Ranjan Mohanty (2013), ―CFD analysis of Heat Transfer in a Helical Coil Heat Exchanger using FLUENT, Thesis report of Department of Mechanical Engineering, National Institute of Technology, Raurkela-769008
[17] ANSYS CFX introduction (2011), ANSYS, Inc. Release 14.0, chapter 1, page no.2 from http://www.ansys.com
[18] Dr. Reyed Shawabkeh, ―Steps for design of Furnace/ Fired Heater, Department of Chemical Engineering, King Fahd University of Petroleum & Minerals