Yang transform–homotopy perturbation method for solving a non‐Newtonian viscoelastic fluid flow on the turbine disk

Al‐Griffi, Takia Ahmed J.; Al‐Saif, Abdul‐Sattar J.

doi:10.1002/zamm.202100116

Cited by 6 publications

(2 citation statements)

References 15 publications

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“…Despite the evident importance of studying this system via various simulation techniques, the nonlinearity of these equations poses a challenge to their resolution using integrative transformation methods. Existing knowledge indicates that combining integrative transformations with analytical methods can reduce computational operations and complexity [21][22][23].…”

Section: Introductionmentioning

confidence: 99%

A Novel Hybrid Approach Leveraging Shehu Transformation, Akbari-Ganji’s Method, and Padé Approximant for the Resolution of Diffusive Prey-Predator Systems

Al-Sadi,

Al-Saif

2023

MMEP

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This study introduces a novel method aimed at deriving approximate solutions for diffusive prey-predator systems. The proposed method seeks to circumvent the limitations of extant techniques, which frequently grapple with obtaining accurate analytical solutions and managing intricate computational operations. This new approach amalgamates the Shehu transformation, Akbari-Ganji's method, and Padé Approximant to facilitate a more precise and efficient solution. The accuracy, efficiency, and effectiveness of the proposed method are assessed through the analysis of two exemplar cases in one-and two-dimensional spaces. Results gleaned from the novel method underscore its superior accuracy and efficiency compared to traditional methods used for approximating analytical solutions to similar problems. Further, the utilization of infographics and tables elucidates the significance, validity, and indispensability of the proposed approach. This research augments our comprehension of biological systems and their interactions with the environment, thereby presenting a valuable contribution to the academic discourse.

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Section: Introductionmentioning

confidence: 99%

A Novel Hybrid Approach Leveraging Shehu Transformation, Akbari-Ganji’s Method, and Padé Approximant for the Resolution of Diffusive Prey-Predator Systems

Al-Sadi,

Al-Saif

2023

MMEP

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“…Various integral transforms are used with other analytical, numerical, or homotopy-based methods to handle FODEs. The Laplace transform (LT) [18], the Elzaki transform (ET) [19], the traveling wave transform (TWT) [20], the Yang transform (YT) [21], the Aboodh transform (AT) [22], the fractional complex transform (FCT) [23], and the natural transform (NT) [24] are all transformations that can be used to solve FODEs. The Shehu transform (ST), which has been used by numerous academics for the solutions of FODEs, has recently piqued the curiosity of many mathematicians [25][26][27].…”

Section: Introductionmentioning

confidence: 99%

The Fractional Series Solutions for the Conformable Time‐Fractional Swift‐Hohenberg Equation through the Conformable Shehu Daftardar‐Jafari Approach with Comparative Analysis

Liaqat

Okyere

2022

Journal of Mathematics

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The major objective of this study is to derive fractional series solutions of the time-fractional Swift-Hohenberg equations (TFSHEs) in the sense of conformable derivative using the conformable Shehu transform (CST) and the Daftardar-Jafari approach (DJA). We call it the conformable Shehu Daftardar-Jafari approach (CSDJA). One of the universal equations used in the description of pattern formation in spatially extended dissipative systems is the Swift-Hohenberg equation. To assess the effectiveness and consistency of the suggested approach, the numerical results are compared with those obtained by the Elzaki decomposition method (EDM) in the sense of relative and absolute error functions, proving that the CSDJA is an effective substitute for techniques that use He's or Adomian polynomials to solve TFSHEs. The transition from the imprecise solution to the precise solution at various values of fractional-order derivatives is shown using the recurrence error function. Furthermore, the exact and approximative solutions are compared using 2D and 3D graphics and also numerically in the form of relative and absolute error functions. The results show that the procedure is quick, precise, and easy to implement, and it yields outstanding results. The recommended approach's strength, which gives it an advantage over the Adomian decomposition and homotopy perturbation methods, is its algorithm for dealing with nonlinear problems without the use of Adomian polynomials or He's polynomials. The advantage of this method is that it does not make any assumptions about physical parameters. As a result, it can be used to solve both weakly and strongly nonlinear problems and circumvent some of the drawbacks of perturbation techniques.

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A New Method for Studying Blood Flow Through a Stenotic Artery in the Presence of a Magnetic Field

Abdul-Wahab,

Al-Saif

2024

Int. J. Appl. Comput. Math

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Yang transform–homotopy perturbation method for solving a non‐Newtonian viscoelastic fluid flow on the turbine disk

Cited by 6 publications

References 15 publications

A Novel Hybrid Approach Leveraging Shehu Transformation, Akbari-Ganji’s Method, and Padé Approximant for the Resolution of Diffusive Prey-Predator Systems

A Novel Hybrid Approach Leveraging Shehu Transformation, Akbari-Ganji’s Method, and Padé Approximant for the Resolution of Diffusive Prey-Predator Systems

The Fractional Series Solutions for the Conformable Time‐Fractional Swift‐Hohenberg Equation through the Conformable Shehu Daftardar‐Jafari Approach with Comparative Analysis

A New Method for Studying Blood Flow Through a Stenotic Artery in the Presence of a Magnetic Field

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