Stress behaviours of viscoelastic flow around square cylinder

Guler Bengusu Tezel; Kerim Yapıcı; Yusuf Uludag

doi:10.32571/ijct.549930

Research Article

Year 2019, Volume: 3 Issue: 1, 61 - 66, 28.06.2019

Guler Bengusu Tezel Kerim Yapıcı Yusuf Uludag

https://doi.org/10.32571/ijct.549930

Abstract

References

1. Liang, C.; Papadakis, G.; Luo, X. Comput. Fluids 2009, 38, 950-964.
2. Hassanzadeh, R.; Sahin, B.; Ozgoren, M. Int. J. Comput. Fluid D. 2011, 25, 535-545.
3. Breuer M.; Bernsdorf, M.; Zeiser, T.; Durst, T. Int. J. Heat Fluid Fl. 2000, 21, 186-196.
4. Sen, S.; Mittal, S.; Biswas, G. Int. J. Numer. Meth. Fl. 2011, 67, 1160-1174.
5. Puig-Aranega, A.; Burgos, J.; Cito, S.; Cuesta, I.; Saluena, C. Int. J. Comput. Fluid D. 2015, 29, 434-446.
6. Dhiman, A.K.; Chhabra, R.P.; Eswaran, V. J. Non-Newton. Fluid Mech. 2008, 148, 141-150.
7. Dhiman, A.K.; Chhabra, R.P.; Eswaran, V. J. Chem. Eng. Res. Des. 2006, 84, 300-310.
8. Ehsan, I.; Mohammad, S.; Reza, N.; Ali, J. Int. J. Phys. Sci. 2012, 7, 988-1000.
9. Nirmalkar, N., Chhabra R.P.; Poole R.J. J. Non-Newton. Fluid Mech. 2012, 171-172, 17–30.
10. Phan-Thien, N.; Tanner, R.I. J. Non-Newton. Fluid Mech. 1977, 2, 353-365.
11. Patankar, S.V.; Spalding, D.B. Int. J. Heat Mass Tran. 1972, 15, 1787.
12. Versteeg H. K.; Malalasekera W. An introduction to computational fluid dynamics: The finite volume method, 2nd Edition, Prentice Hall, USA, 1995.
13. Alves, M.A., Oliveira P.J.; Pinho F.T. Int. J. Numer. Meth. Fl. 2003, 4, 47-75.
14. Tezel, G. B.; Yapici, K.; Uludag, Y. Period Polytech. Chem. Eng. 2019, 63, 190-199.
15. Norouzi, M.; Varedi, S.R.; Zamani, M. Korea-Aust. Rheol. J. 2015, 27, 213-225.

Stress behaviours of viscoelastic flow around square cylinder

Year 2019, Volume: 3 Issue: 1, 61 - 66, 28.06.2019

Guler Bengusu Tezel Kerim Yapıcı Yusuf Uludag

https://doi.org/10.32571/ijct.549930

Abstract

In this study, it is
aimed the numerically investigation of the flow of liner PTT
(Phan-Thien-Tanner) fluid, which is a viscoelastic fluid model over limited
square obstacle by finite volume method. The finite volume method has been used
for simultaneous solution of continuity, momentum and fluid model equations
with appropriate boundary conditions. The effects of the inertia in terms of Reynolds number, Re, (0 < Re < 20) and the of elasticity
in terms of Weissenberg number, We,
(1 < We < 15) of PTT flow on vertical and shear stress areas are
examined in detail.

Keywords

Square cylinder, confined channel, viscoelastic flow, PTT fluid

References

1. Liang, C.; Papadakis, G.; Luo, X. Comput. Fluids 2009, 38, 950-964.
2. Hassanzadeh, R.; Sahin, B.; Ozgoren, M. Int. J. Comput. Fluid D. 2011, 25, 535-545.
3. Breuer M.; Bernsdorf, M.; Zeiser, T.; Durst, T. Int. J. Heat Fluid Fl. 2000, 21, 186-196.
4. Sen, S.; Mittal, S.; Biswas, G. Int. J. Numer. Meth. Fl. 2011, 67, 1160-1174.
5. Puig-Aranega, A.; Burgos, J.; Cito, S.; Cuesta, I.; Saluena, C. Int. J. Comput. Fluid D. 2015, 29, 434-446.
6. Dhiman, A.K.; Chhabra, R.P.; Eswaran, V. J. Non-Newton. Fluid Mech. 2008, 148, 141-150.
7. Dhiman, A.K.; Chhabra, R.P.; Eswaran, V. J. Chem. Eng. Res. Des. 2006, 84, 300-310.
8. Ehsan, I.; Mohammad, S.; Reza, N.; Ali, J. Int. J. Phys. Sci. 2012, 7, 988-1000.
9. Nirmalkar, N., Chhabra R.P.; Poole R.J. J. Non-Newton. Fluid Mech. 2012, 171-172, 17–30.
10. Phan-Thien, N.; Tanner, R.I. J. Non-Newton. Fluid Mech. 1977, 2, 353-365.
11. Patankar, S.V.; Spalding, D.B. Int. J. Heat Mass Tran. 1972, 15, 1787.
12. Versteeg H. K.; Malalasekera W. An introduction to computational fluid dynamics: The finite volume method, 2nd Edition, Prentice Hall, USA, 1995.
13. Alves, M.A., Oliveira P.J.; Pinho F.T. Int. J. Numer. Meth. Fl. 2003, 4, 47-75.
14. Tezel, G. B.; Yapici, K.; Uludag, Y. Period Polytech. Chem. Eng. 2019, 63, 190-199.
15. Norouzi, M.; Varedi, S.R.; Zamani, M. Korea-Aust. Rheol. J. 2015, 27, 213-225.

There are 15 citations in total.

Details

Primary Language	English
Subjects	Chemical Engineering
Journal Section	Research Articles
Authors	Guler Bengusu Tezel 0000-0002-0671-208X Kerim Yapıcı This is me 0000-0002-3902-9375 Yusuf Uludag This is me 0000-0002-2151-5818
Publication Date	June 28, 2019
Published in Issue	Year 2019 Volume: 3 Issue: 1

Cite

APA	Tezel, G. B., Yapıcı, K., & Uludag, Y. (2019). Stress behaviours of viscoelastic flow around square cylinder. International Journal of Chemistry and Technology, 3(1), 61-66. https://doi.org/10.32571/ijct.549930
AMA	Tezel GB, Yapıcı K, Uludag Y. Stress behaviours of viscoelastic flow around square cylinder. Int. J. Chem. Technol. June 2019;3(1):61-66. doi:10.32571/ijct.549930
Chicago	Tezel, Guler Bengusu, Kerim Yapıcı, and Yusuf Uludag. “Stress Behaviours of Viscoelastic Flow Around Square Cylinder”. International Journal of Chemistry and Technology 3, no. 1 (June 2019): 61-66. https://doi.org/10.32571/ijct.549930.
EndNote	Tezel GB, Yapıcı K, Uludag Y (June 1, 2019) Stress behaviours of viscoelastic flow around square cylinder. International Journal of Chemistry and Technology 3 1 61–66.
IEEE	G. B. Tezel, K. Yapıcı, and Y. Uludag, “Stress behaviours of viscoelastic flow around square cylinder”, Int. J. Chem. Technol., vol. 3, no. 1, pp. 61–66, 2019, doi: 10.32571/ijct.549930.
ISNAD	Tezel, Guler Bengusu et al. “Stress Behaviours of Viscoelastic Flow Around Square Cylinder”. International Journal of Chemistry and Technology 3/1 (June 2019), 61-66. https://doi.org/10.32571/ijct.549930.
JAMA	Tezel GB, Yapıcı K, Uludag Y. Stress behaviours of viscoelastic flow around square cylinder. Int. J. Chem. Technol. 2019;3:61–66.
MLA	Tezel, Guler Bengusu et al. “Stress Behaviours of Viscoelastic Flow Around Square Cylinder”. International Journal of Chemistry and Technology, vol. 3, no. 1, 2019, pp. 61-66, doi:10.32571/ijct.549930.
Vancouver	Tezel GB, Yapıcı K, Uludag Y. Stress behaviours of viscoelastic flow around square cylinder. Int. J. Chem. Technol. 2019;3(1):61-6.

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