Application of HPM to Solve Unsteady Squeezing Flow of a Second-Grade Fluid between Circular Plates

Authors :: Vazquez-Leal, H.
Filobello-Nino, U.
Sarmiento-Reyes, A.
Sandoval-Hernandez, M.
Perez-Sesma, J. A. A.
Perez-Sesma, A.
Jimenez-Fernandez, V. M.
Huerta-Chua, J.
Castro-Gonzalez, F.
Sanchez-Orea, J.
Hernández Machuca, S. F.
Cuellar-Hernández, L.
Pretelin Canela, J. E.
Gasca-Herrera, A. E.
Sampieri-Gonzalez, C. E.
Palma-Grayeb, B. E.
Contreras-Hernandez, A. D.
Alvarez-Gasca, O.
Gonzalez-Martinez, F. J.
Vazquez-Leal, H.
Filobello-Nino, U.
Sarmiento-Reyes, A.
Sandoval-Hernandez, M.
Perez-Sesma, J. A. A.
Perez-Sesma, A.
Jimenez-Fernandez, V. M.
Huerta-Chua, J.
Castro-Gonzalez, F.
Sanchez-Orea, J.
Hernández Machuca, S. F.
Cuellar-Hernández, L.
Pretelin Canela, J. E.
Gasca-Herrera, A. E.
Sampieri-Gonzalez, C. E.
Palma-Grayeb, B. E.
Contreras-Hernandez, A. D.
Alvarez-Gasca, O.
Gonzalez-Martinez, F. J.
Source :: American Academic Scientific Research Journal for Engineering, Technology, and Sciences; Vol 27 No 1 (2017); 161-178; 2313-4402; 2313-4410
Publication Year :: 2017
Abstract: In this article, Homotopy Perturbation Method (HPM) is used to provide two approximate solutions to the nonlinear differential equation that describes the behaviour for the unsteady squeezing flow of a second grade fluid between circular plates. Comparing results between approximate and numerical solutions shows that our results are capable to provide an accurate solution and are extremely efficient.

Database :: OAIster
Journal :: American Academic Scientific Research Journal for Engineering, Technology, and Sciences; Vol 27 No 1 (2017); 161-178; 2313-4402; 2313-4410
Notes :: application/pdf, English
Publication Type :: Electronic Resource
Accession number :: edsoai.on1296044458
Document Type :: Electronic Resource

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