Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel

Muhammad Kaurangini; Huzaifa Muhammad Tahir; Umar Muhammad Abubakar

doi:10.54559/jauist.1379597

Araştırma Makalesi

Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel

Yıl 2023, Cilt: 4 Sayı: 2, 82 - 89, 31.12.2023

Muhammad Kaurangini Huzaifa Muhammad Tahir Umar Muhammad Abubakar

https://doi.org/10.54559/jauist.1379597

Öz

This research applies fractional time derivatives to fluid flow through a horizontal microchannel. It uses fractional time derivatives with the Laplace transform technique and method of undetermined coefficient to analyze and obtain solutions of the governing equations in the Laplace domain. To this end, the solutions are reversed in the time domain using Riemann-sum approximation methods. In order to obtain the solutions for the pressure-driven flow, the time factional derivative in the Caputo sense is employed. Here, the influence of each governing parameter is explained with a line graph. Results show that with the decreases in fractional order $(\alpha)$, the velocity decreases within the interval $0<\alpha<1$. The fluid velocity increases and decreases as the Knudsen number $(kn)$ changes. Besides, transient wall-skin frictions for different times $(t)$ and Knudsen number $(kn)$ with a fixed value of fractional order $(\alpha)$ are observed.

Anahtar Kelimeler

Fractional time derivative, pressure-driven flow, Knudsen number, Laplace transform, Couette flow

Teşekkür

Thank you so much for the opportunity to submit the manuscript

Kaynakça

H. M. Srivastava, R. K. Saxena, Operations of fractional integration and their applications, Applied Mathematics and Computation 118 (1) (2001) 1–52.
D. Kaur, A detail study on fractional calculus, in: S. Negi, A. Kumar, T. Singh (Eds.), International Multidisciplinary Conference, Chandigarh, 2022, pp. 54–59.
G. Farid, N. Latif, M. Anwar, A. Imran, M. Ozair, M. Nawaz, On applications of Caputo k-fractional derivatives, Advances in Difference Equations 2019 (2019) 439 16 pages.
F. Ali, Z. Ahmad, M. Arif, I. Khan, K. S. Nisar, A time fractional model of generalized Couette flow of couple stress nanofluid with heat and mass transfer: Applications in engine oil, IEEE Access 8 (2020) 146944–146966.
V. Djordjevic, Modeling of the slip boundary condition in micro-channel/pipe flow via fractional derivative, Monograph of Academy of Nonlinear Sciences. Advances in Nonlinear Sciences II-Sciences and Applications, Belgrade 2 (2008) 136–158.
M. Saqib, A. R. M. Kasim, N. F. Mohammad, D. L. C. Ching, S. Shafie, Application of fractional derivative without singular and local kernel to enhanced heat transfer in CNTs nanofluid over an inclined plate, Symmetry 12 (5) (2020) 768 22 pages.
R. Ellahi, T. Hayat, F. M. Mahomed, Generalized Couette flow of a third-grade fluid with slip: the exact solutions, Zeitschrift für Naturforschung A 65 (12) (2010) 1071–1076.
M. Farooq, A. Khan, R. Nawaz, S. Islam, M. Ayaz, Y.-M. Chu, Comparative study of generalized couette flow of couple stress fluid using optimal homotopy asymptotic method and new iterative method, Scientific Reports 11 (2021) 3478 20 pages.
M. Arif, P. Kumam, W. Kumam, M. B. Riaz, D. Khan, A comparative analysis of multiple fractional solutions of generalized Couette flow of couple stress fluid in a channel, Heat Transfer 51 (8) (2022) 7348–7368.
S. Maiti, S. Shaw, G. C. Shit, Fractional order model for thermochemical flow of blood with Dufour and Soret effects under magnetic and vibration environment, Colloids and Surfaces B: Biointerfaces, 197 (2021) 1–18.
M. L. Kaurangini, B. K. Jha, Unsteady generalized Couette flow in composite microchannel, Applied Mathematics and Mechanics 32 (2011) 23–32.
S. Chen, L. Zheng, C. Li, J. Sui, Time-space dependent fractional viscoelastic MHD fluid flow and heat transfer over accelerating plate with slip boundary, Thermal Science 21 (6 Part A) (2017) 2337–2345.

Yıl 2023, Cilt: 4 Sayı: 2, 82 - 89, 31.12.2023

Muhammad Kaurangini Huzaifa Muhammad Tahir Umar Muhammad Abubakar

https://doi.org/10.54559/jauist.1379597

Öz

Kaynakça

H. M. Srivastava, R. K. Saxena, Operations of fractional integration and their applications, Applied Mathematics and Computation 118 (1) (2001) 1–52.
D. Kaur, A detail study on fractional calculus, in: S. Negi, A. Kumar, T. Singh (Eds.), International Multidisciplinary Conference, Chandigarh, 2022, pp. 54–59.
G. Farid, N. Latif, M. Anwar, A. Imran, M. Ozair, M. Nawaz, On applications of Caputo k-fractional derivatives, Advances in Difference Equations 2019 (2019) 439 16 pages.
F. Ali, Z. Ahmad, M. Arif, I. Khan, K. S. Nisar, A time fractional model of generalized Couette flow of couple stress nanofluid with heat and mass transfer: Applications in engine oil, IEEE Access 8 (2020) 146944–146966.
V. Djordjevic, Modeling of the slip boundary condition in micro-channel/pipe flow via fractional derivative, Monograph of Academy of Nonlinear Sciences. Advances in Nonlinear Sciences II-Sciences and Applications, Belgrade 2 (2008) 136–158.
M. Saqib, A. R. M. Kasim, N. F. Mohammad, D. L. C. Ching, S. Shafie, Application of fractional derivative without singular and local kernel to enhanced heat transfer in CNTs nanofluid over an inclined plate, Symmetry 12 (5) (2020) 768 22 pages.
R. Ellahi, T. Hayat, F. M. Mahomed, Generalized Couette flow of a third-grade fluid with slip: the exact solutions, Zeitschrift für Naturforschung A 65 (12) (2010) 1071–1076.
M. Farooq, A. Khan, R. Nawaz, S. Islam, M. Ayaz, Y.-M. Chu, Comparative study of generalized couette flow of couple stress fluid using optimal homotopy asymptotic method and new iterative method, Scientific Reports 11 (2021) 3478 20 pages.
M. Arif, P. Kumam, W. Kumam, M. B. Riaz, D. Khan, A comparative analysis of multiple fractional solutions of generalized Couette flow of couple stress fluid in a channel, Heat Transfer 51 (8) (2022) 7348–7368.
S. Maiti, S. Shaw, G. C. Shit, Fractional order model for thermochemical flow of blood with Dufour and Soret effects under magnetic and vibration environment, Colloids and Surfaces B: Biointerfaces, 197 (2021) 1–18.
M. L. Kaurangini, B. K. Jha, Unsteady generalized Couette flow in composite microchannel, Applied Mathematics and Mechanics 32 (2011) 23–32.
S. Chen, L. Zheng, C. Li, J. Sui, Time-space dependent fractional viscoelastic MHD fluid flow and heat transfer over accelerating plate with slip boundary, Thermal Science 21 (6 Part A) (2017) 2337–2345.

Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Uygulamalı Matematik (Diğer)
Bölüm	Araştırma Makaleleri
Yazarlar	Muhammad Kaurangini 0000-0001-9144-9433 Huzaifa Muhammad Tahir 0000-0001-8392-2542 Umar Muhammad Abubakar 0000-0003-3935-4829
Yayımlanma Tarihi	31 Aralık 2023
Gönderilme Tarihi	22 Ekim 2023
Kabul Tarihi	27 Aralık 2023
Yayımlandığı Sayı	Yıl 2023 Cilt: 4 Sayı: 2

Kaynak Göster

APA	Kaurangini, M., Tahir, H. M., & Abubakar, U. M. (2023). Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel. Journal of Amasya University the Institute of Sciences and Technology, 4(2), 82-89. https://doi.org/10.54559/jauist.1379597
AMA	Kaurangini M, Tahir HM, Abubakar UM. Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel. J. Amasya Univ. Inst. Sci. Technol. Aralık 2023;4(2):82-89. doi:10.54559/jauist.1379597
Chicago	Kaurangini, Muhammad, Huzaifa Muhammad Tahir, ve Umar Muhammad Abubakar. “Effect of Fractional Time Derivatives to Pressure-Driven Flow through the Horizontal Microchannel”. Journal of Amasya University the Institute of Sciences and Technology 4, sy. 2 (Aralık 2023): 82-89. https://doi.org/10.54559/jauist.1379597.
EndNote	Kaurangini M, Tahir HM, Abubakar UM (01 Aralık 2023) Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel. Journal of Amasya University the Institute of Sciences and Technology 4 2 82–89.
IEEE	M. Kaurangini, H. M. Tahir, ve U. M. Abubakar, “Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel”, J. Amasya Univ. Inst. Sci. Technol., c. 4, sy. 2, ss. 82–89, 2023, doi: 10.54559/jauist.1379597.
ISNAD	Kaurangini, Muhammad vd. “Effect of Fractional Time Derivatives to Pressure-Driven Flow through the Horizontal Microchannel”. Journal of Amasya University the Institute of Sciences and Technology 4/2 (Aralık 2023), 82-89. https://doi.org/10.54559/jauist.1379597.
JAMA	Kaurangini M, Tahir HM, Abubakar UM. Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel. J. Amasya Univ. Inst. Sci. Technol. 2023;4:82–89.
MLA	Kaurangini, Muhammad vd. “Effect of Fractional Time Derivatives to Pressure-Driven Flow through the Horizontal Microchannel”. Journal of Amasya University the Institute of Sciences and Technology, c. 4, sy. 2, 2023, ss. 82-89, doi:10.54559/jauist.1379597.
Vancouver	Kaurangini M, Tahir HM, Abubakar UM. Effect of fractional time derivatives to pressure-driven flow through the horizontal microchannel. J. Amasya Univ. Inst. Sci. Technol. 2023;4(2):82-9.

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