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Research Article
Computational Fluid Dynamics Analysis of Shell and Coil Heat Exchanger by Using Alumina in Different Mass Flow Rate
Md.Shahid Reza1
Vijaykant Pandey2
1M-Tech Research Scholar, Bhabha Engineering Research Institute, Bhopal, M.P, India. 2Assistant Professor, Bhabha Engineering Research Institute, Bhopal, M.P, India
Published Online: January-February 2023
Pages: 127-137
Cite this article
No DOIReferences
1. Alok Kumar, VijaykantPandey, “Analysis and Comparison of Shell & Helical Coil Heat Exchanger by using Silica and Alumina”
International Journal for Research in Applied Science & Engineering Technology, 2022, Volume 10.
2. Hamid Abdi, SoheilAsadi, Hamid AzimiKivi, Seyed Mehdi Pesteei, “ A comprehensive Numerical Study on Nanofluid Flow and Heat
Transfer of Helical, Spiral and Straight Tube with different Cross section” International Journal Of Heat & Technology, 2019, Vol 37,
991031-1042.
3. Hemasunder Banka, Dr. V. Vikram Reddy, M. Radhika 2016, ―CFD Analysis of Shell and Tube Heat Exchanger using Titanium
Carbide, Titanium Nitride and Zinc Oxide Nanofluid‖ International Journal of Innovations in Engineering and Technology, Special
Issue, Page 315-322.
4. K. Abdul Hamid, W. H. Azmi, RIzalmanMamat, N. A. Usri and GohalamhassanNajafi 2015, ―Effect of Titanium Oxide Nanofluid
Concentration on Pressure drop‖ ARPN Journal of Engineering and Applied Sciences, Volume 10, Page 7815-7820.
5. Arvind Kumar Pathak, Yogesh Kumar Tembhurne, MohitGangwar 2017, ―Comparison on CFD Analysis of Natural Fluid and Nano
Fluid in Helical Coil Heat Exchanger‖ International Journal of Innovative Science and Research Technology, Volume 2, Page 83-90.
6. Palanisamy, K. P.C. Mukesh Kumar 2019, ―Experimental investigation on convective heat transfer and pressure drop of cone helically
coiled tube heat exchanger using carbon nanotubes/ water nanofluids‖, Elsevier – Heliyon 5. Sunil Kumar, Dr. DK Gupta 2020,
―Optimising Design and analysis on the Helically Coiled Tube Heat Exchanger carrying Nanofluids by providing fins‖ Smart Moves
Journal IJO Science, Volume 6, Page 23-31.
7. Shiva Kumar, K VasudevKaranth 2013, ―Numerical analysis of a Helical Coiled Heat Exchanger using CFD‖ International Journal of
Thermal Technologies, Volume 3, Page 126-130
8. Sunil Kumar, Dr. DK Gupta 2020, “Optimising Design and analysis on the Helically Coiled Tube Heat Exchanger carrying Nanofluids
by providing fins” Smart Moves Journal IJO Science, Volume 6, Page 23-31.
9. B. ChinnaAnkanna, B. Sidda Reddy 2014, ―Performance Analysis of Fabricated Helical Coil Heat Exchanger‖, International Journal of
Engineering & Research, Volume 3, Page 33-39.
10. M. Balachandaran 2015, ―Experimental and CFD study of a Helical Coil Heat Exchanger using Water as Fluid‖ International Journal
of Mechanical and Production Engineering, Volume 3, Page 87-91.
11. AshkanAlimoradi 2017, ―Study of thermal effectiveness and its relation with NTU in Shell and helically coiled tube heat exchanger‖
Elsevier Case Studies in Thermal Engineering, Volume 9, Page 100–107.
12. Vinita Sisodiya, Dr.AnkurGeete 2016 ―Heat Transfer analysis of Helical coil Heat Exchanger with Al2O3 Nanofluid‖ International
Journal of Engineering and Technology, Volume 3, Page 366-370.
13. Fakoor-Pakdaman, M.A. Akhavan- Behabadi,P. Razi 2013, ―An empirical study on the pressure drop characteristics of Nanofluid flow
inside helically coiled tubes‖ International Journal of Thermal Sciences, Volume 65, Page 206-213.
14. T. Srinivas, A. VenuVinod 2015, ―Heat Transfer Enhancement using CuO/Water Nanofluid in a Shell and Helical Coil Heat Exchanger‖
Elsevier, Volume 127, Page 1271-1277.
15. Tushar A. Sinha, Amit Kumar, NikhileshBhargava and Soumya S Mallick 2014, ―An Experimental Investigation into the Thermal
Properties of Nano Fluid‖ Applied Mechanical Engineering, Volume 4, Issue 1.
16. JaafarAlbadr, SatinderTayal, MushtaqAlasadi 2013 ―Heat transfer through heat exchanger using Al2O3 nanofluid at different
concentrations‖ Elsevier, Volume-1, Page 38-44.
17. Jayakumar J. S., S.M. Mahajani, J.C. Mandal, P.K. Vijayan, RohidasBhoi, 2008, ―Experimental and CFD estimation of heat transfer in
helically coiled heat exchangers‖ Chemical Engineering Research and Design, Volume 86, Page 221-232.
18. Amar Raj Singh Suri, Anil Kumar, Rajesh Maithani 2017, ―Effect of square wings in multiple square perforated twisted tapes on fluid
flow and heat transfer of heat exchanger tube‖ Elsevier Case Studies in Thermal Engineering, Volume 10, Page 28-43.
19. Ram Kishan, Devendra Singh, Ajay Kumar Sharma 2020, ―CFD Analysis of Heat Echanger using Ansys Fluent‖, International Journal
of Mechanical Engineering and Technology‖, Volume 11, Page 1-9.
20. N. K. Chavda, Jay R. Patel, t H. Patel, Atul P. Parmar 2014 ―Effect of nanofluid on heat transfer characteristics of double pipe heat
exchanger: part-1: effect of aluminum oxide nanofluid‖ International Journal of Research in Engineering and Technology, Volume-3,
Page 42-52.
21. Sunny Sobby P, MaahaskeSiddharth D, Parikh Yash B. Numerical simulation of a tube in tube helical coil heat exchanger using CFD.
International journal of applied engineering research 2014; Vol. 9: pp. 5209-5220.
International Journal for Research in Applied Science & Engineering Technology, 2022, Volume 10.
2. Hamid Abdi, SoheilAsadi, Hamid AzimiKivi, Seyed Mehdi Pesteei, “ A comprehensive Numerical Study on Nanofluid Flow and Heat
Transfer of Helical, Spiral and Straight Tube with different Cross section” International Journal Of Heat & Technology, 2019, Vol 37,
991031-1042.
3. Hemasunder Banka, Dr. V. Vikram Reddy, M. Radhika 2016, ―CFD Analysis of Shell and Tube Heat Exchanger using Titanium
Carbide, Titanium Nitride and Zinc Oxide Nanofluid‖ International Journal of Innovations in Engineering and Technology, Special
Issue, Page 315-322.
4. K. Abdul Hamid, W. H. Azmi, RIzalmanMamat, N. A. Usri and GohalamhassanNajafi 2015, ―Effect of Titanium Oxide Nanofluid
Concentration on Pressure drop‖ ARPN Journal of Engineering and Applied Sciences, Volume 10, Page 7815-7820.
5. Arvind Kumar Pathak, Yogesh Kumar Tembhurne, MohitGangwar 2017, ―Comparison on CFD Analysis of Natural Fluid and Nano
Fluid in Helical Coil Heat Exchanger‖ International Journal of Innovative Science and Research Technology, Volume 2, Page 83-90.
6. Palanisamy, K. P.C. Mukesh Kumar 2019, ―Experimental investigation on convective heat transfer and pressure drop of cone helically
coiled tube heat exchanger using carbon nanotubes/ water nanofluids‖, Elsevier – Heliyon 5. Sunil Kumar, Dr. DK Gupta 2020,
―Optimising Design and analysis on the Helically Coiled Tube Heat Exchanger carrying Nanofluids by providing fins‖ Smart Moves
Journal IJO Science, Volume 6, Page 23-31.
7. Shiva Kumar, K VasudevKaranth 2013, ―Numerical analysis of a Helical Coiled Heat Exchanger using CFD‖ International Journal of
Thermal Technologies, Volume 3, Page 126-130
8. Sunil Kumar, Dr. DK Gupta 2020, “Optimising Design and analysis on the Helically Coiled Tube Heat Exchanger carrying Nanofluids
by providing fins” Smart Moves Journal IJO Science, Volume 6, Page 23-31.
9. B. ChinnaAnkanna, B. Sidda Reddy 2014, ―Performance Analysis of Fabricated Helical Coil Heat Exchanger‖, International Journal of
Engineering & Research, Volume 3, Page 33-39.
10. M. Balachandaran 2015, ―Experimental and CFD study of a Helical Coil Heat Exchanger using Water as Fluid‖ International Journal
of Mechanical and Production Engineering, Volume 3, Page 87-91.
11. AshkanAlimoradi 2017, ―Study of thermal effectiveness and its relation with NTU in Shell and helically coiled tube heat exchanger‖
Elsevier Case Studies in Thermal Engineering, Volume 9, Page 100–107.
12. Vinita Sisodiya, Dr.AnkurGeete 2016 ―Heat Transfer analysis of Helical coil Heat Exchanger with Al2O3 Nanofluid‖ International
Journal of Engineering and Technology, Volume 3, Page 366-370.
13. Fakoor-Pakdaman, M.A. Akhavan- Behabadi,P. Razi 2013, ―An empirical study on the pressure drop characteristics of Nanofluid flow
inside helically coiled tubes‖ International Journal of Thermal Sciences, Volume 65, Page 206-213.
14. T. Srinivas, A. VenuVinod 2015, ―Heat Transfer Enhancement using CuO/Water Nanofluid in a Shell and Helical Coil Heat Exchanger‖
Elsevier, Volume 127, Page 1271-1277.
15. Tushar A. Sinha, Amit Kumar, NikhileshBhargava and Soumya S Mallick 2014, ―An Experimental Investigation into the Thermal
Properties of Nano Fluid‖ Applied Mechanical Engineering, Volume 4, Issue 1.
16. JaafarAlbadr, SatinderTayal, MushtaqAlasadi 2013 ―Heat transfer through heat exchanger using Al2O3 nanofluid at different
concentrations‖ Elsevier, Volume-1, Page 38-44.
17. Jayakumar J. S., S.M. Mahajani, J.C. Mandal, P.K. Vijayan, RohidasBhoi, 2008, ―Experimental and CFD estimation of heat transfer in
helically coiled heat exchangers‖ Chemical Engineering Research and Design, Volume 86, Page 221-232.
18. Amar Raj Singh Suri, Anil Kumar, Rajesh Maithani 2017, ―Effect of square wings in multiple square perforated twisted tapes on fluid
flow and heat transfer of heat exchanger tube‖ Elsevier Case Studies in Thermal Engineering, Volume 10, Page 28-43.
19. Ram Kishan, Devendra Singh, Ajay Kumar Sharma 2020, ―CFD Analysis of Heat Echanger using Ansys Fluent‖, International Journal
of Mechanical Engineering and Technology‖, Volume 11, Page 1-9.
20. N. K. Chavda, Jay R. Patel, t H. Patel, Atul P. Parmar 2014 ―Effect of nanofluid on heat transfer characteristics of double pipe heat
exchanger: part-1: effect of aluminum oxide nanofluid‖ International Journal of Research in Engineering and Technology, Volume-3,
Page 42-52.
21. Sunny Sobby P, MaahaskeSiddharth D, Parikh Yash B. Numerical simulation of a tube in tube helical coil heat exchanger using CFD.
International journal of applied engineering research 2014; Vol. 9: pp. 5209-5220.
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