NUST Institutions Library Catalogue catalog › Details for: Analytic and approximate Lie solutions of MHD Casson Fluid flow, heat and mass transfer near a stagnation point over a linearly stretching sheet with constant and variable viscosity and thermal conductivity /

Normal view MARC view ISBD view

Analytic and approximate Lie solutions of MHD Casson Fluid flow, heat and mass transfer near a stagnation point over a linearly stretching sheet with constant and variable viscosity and thermal conductivity / Muhammad Khurram Rashid Khan

By: Khurram Rashid Khan, Muhammad Contributor(s): Supervisor : Dr Muhammad Safdar Material type: Text

TextIslamabad : SMME- NUST; 2023Description: Soft CopySubject(s): MS Mechanical EngineeringDDC classification: 621 Online resources: Click here to access online Summary: In this research, the effects of constant and variable viscosity and thermal conductivity on Magneto hydrodynamic (MHD) heat flow and mass transfer in a Casson fluid over a stretching surface are analyzed. Computational techniques are useful tools in solving the partial differential equations involved in this flow. It is desirable to convert these partial differential equations (PDEs) into a system of ordinary differential equations (ODEs). It is because there is no reliable scheme for solving PDEs and approximations used to convert PDEs to ODEs are often so good that ODEs may represent the characteristics of actual system. After obtaining the corresponding system of ODEs with boundary conditions, several computational methods can be employed. The previous study analyzed only coupled system using infinite boundary conditions and it employed Runge and Kutta method (RK-4) for approximating the results. These methods can be computationally expensive and may not represent the flow. In this thesis, Homotopy analysis method (HAM), Homotopy Perturbation Method (HPM) and finite difference method (FDM) are used for obtaining the analytical and approximate solutions of such systems. Moreover, the problem is addressed with both the finite and infinite boundary conditions. Procedures for all these methods are manageable and approximate, usually through codes that are developed for saving time and increasing accuracy. Codes are developed on MAPLE which has built in packages for many mathematical applications. These codes are tested and validated in a rigorous manner. The effect of various parameters on velocity and temperature are studied with the help of graphs and tables using the codes already available and refining them according to the requirement of flow model.

Tags from this library: No tags from this library for this title. Log in to add tags.

Holdings ( 1 )
Title notes ( 1 )
Comments ( 0 )

Item type	Current location	Home library	Shelving location	Call number	Status	Date due	Barcode	Item holds
Thesis	School of Mechanical & Manufacturing Engineering (SMME)	School of Mechanical & Manufacturing Engineering (SMME)	E-Books	621 (Browse shelf)	Available		SMME-TH-864

Total holds: 0

Browsing School of Mechanical & Manufacturing Engineering (SMME) shelves, Shelving location: E-Books Close shelf browser

Previous	No cover image available	No cover image available	No cover image available	No cover image available	No cover image available	No cover image available	No cover image available	Next
Previous	621 Effects of Viscous Dissipation and General Surface Temperature on Flow and Heat Transfer in a Thin Liquid Film on an Unsteady Stretching Sheet using Homotopy Analysis Method /	621 Numerical Investigation of Flow Across Three Side-by-side Co-Rotating Cylinders /	621 Mathematical Modelling and Analysis of Nonlinear Aeroservoelastic framework for Light Aircraft /	621 Analytic and approximate Lie solutions of MHD Casson Fluid flow, heat and mass transfer near a stagnation point over a linearly stretching sheet with constant and variable viscosity and thermal conductivity /	621 Symmetry Analysis and Analytic Solutions for Unsteady Flows on a Stretching Surface in the Presence of Magnetic Field, Internal Heat Source and Thermocapillary Effects /	621 Analytical Solutions of Unsteady Thin Film Flow with Internal Heating and Thermal Radiation /	621 Structural Optimization of Lattice-Based Bone Implants for Improved Mechanical Properties /	Next

In this research, the effects of constant and variable viscosity and thermal conductivity on
Magneto hydrodynamic (MHD) heat flow and mass transfer in a Casson fluid over a stretching
surface are analyzed. Computational techniques are useful tools in solving the partial differential
equations involved in this flow. It is desirable to convert these partial differential equations
(PDEs) into a system of ordinary differential equations (ODEs). It is because there is no reliable
scheme for solving PDEs and approximations used to convert PDEs to ODEs are often so good
that ODEs may represent the characteristics of actual system. After obtaining the corresponding
system of ODEs with boundary conditions, several computational methods can be employed.
The previous study analyzed only coupled system using infinite boundary conditions and it
employed Runge and Kutta method (RK-4) for approximating the results. These methods can be
computationally expensive and may not represent the flow.
In this thesis, Homotopy analysis method (HAM), Homotopy Perturbation Method
(HPM) and finite difference method (FDM) are used for obtaining the analytical and
approximate solutions of such systems. Moreover, the problem is addressed with both the finite
and infinite boundary conditions. Procedures for all these methods are manageable and
approximate, usually through codes that are developed for saving time and increasing accuracy.
Codes are developed on MAPLE which has built in packages for many mathematical
applications. These codes are tested and validated in a rigorous manner. The effect of various
parameters on velocity and temperature are studied with the help of graphs and tables using the
codes already available and refining them according to the requirement of flow model.

There are no comments on this title.

to post a comment.