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Numerical Heat Transfer and Fluid Flow by Suhas V. Patankar Book Details
| Book Name | Numerical Heat Transfer and Fluid Flow |
| Author | Suhas V. Patankar |
| Category | Mechanical Engineering Books, Education Books |
| Book Language | English |
| Pages | 205 |
| Country | India |
| Book Size | 8 MB |
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About Numerical Heat Transfer and Fluid Flow by Suhas V. Patankar Book
Numerical Heat Transfer and Fluid Flow" is a book written by Suhas V. Patankar. This book focuses on the numerical methods used to solve heat transfer and fluid flow problems. It's a widely used textbook in the field of computational fluid dynamics (CFD) and heat transfer. The book is particularly valuable for engineers, researchers, and students who are interested in using numerical techniques to analyze and solve complex heat transfer and fluid flow problems.
Key features of the book may include:
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Finite Difference Method: The book likely covers the finite difference method, which is a numerical technique used to approximate the derivatives in the governing equations of heat transfer and fluid flow. It explains how to discretize the domain and solve the resulting algebraic equations.
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Computational Fluid Dynamics (CFD): The book may delve into the basics of CFD, which involves using numerical methods to simulate fluid flow and heat transfer phenomena. It might cover both fundamentals and practical aspects of setting up and solving CFD problems.
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Heat Transfer and Fluid Flow Equations: The book likely provides an overview of the fundamental equations governing heat transfer (conduction, convection, and radiation) and fluid flow (Navier-Stokes equations) and explains how these equations are solved numerically.
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Grid Generation: Generating appropriate computational grids is a crucial step in numerical simulations. The book might discuss various grid generation techniques and their impact on the accuracy and efficiency of the simulations.
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Solution Algorithms: The book may cover different solution algorithms used in numerical simulations, including explicit and implicit methods. It might also discuss techniques to handle stability and convergence issues.
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Turbulence Modeling: In the context of fluid flow, turbulence modeling is often essential. The book could include an introduction to different turbulence models used in CFD simulations.
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Boundary Conditions: Properly applying boundary conditions is critical for obtaining accurate results. The book might explain how to set up different types of boundary conditions in numerical simulations.
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Validation and Verification: Validating and verifying the numerical results against experimental data or analytical solutions is important to ensure the accuracy of the simulations. The book may discuss techniques for validation and verification.
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Application Examples: Practical examples and case studies are likely included to demonstrate how numerical methods are applied to solve real-world heat transfer and fluid flow problems.
It's important to note that the book's content and organization might vary depending on the edition you're referring to, as textbooks can undergo revisions and updates to include the latest advancements in the field. If you're interested in learning about numerical methods for heat transfer and fluid flow analysis, "Numerical Heat Transfer and Fluid Flow" by Suhas V. Patankar could be an excellent resource to consider.
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