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The study of finite volumes applied to CFD is important for computer scientists, engineers and scientists who seek to solve flow problems efficiently, understand the strengths and limitations of this technique or develop more advanced technologies through numerical simulation.   

For this reason, TECH Global University has designed a University Course on Finite Volumes applied to CFD to provide students with the necessary skills to be able to perform their work as specialists with the highest possible efficiency and quality. Thus, throughout this program, aspects such as Loops in Transient Regime, Moving Contours, High Order Schemes, Numerical Errors or Wall Models will be addressed.

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This Postgraduate certificate in Course on Finite Volumes applied to CFD contains the most complete and up-to-date program on the market. The most important features include:

• The development of practical cases presented by experts in Finite Volumes applied to CFD  
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• Practical exercises where self-assessment can be used to improve learning  
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments 
• Content that is accessible from any fixed or portable device with an Internet connection  

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Delve into CFD in Application Environments from the comfort of your home or work office at any time of the day"

The structure and the contents of this curriculum have been designed by the renowned professionals that make up TECH Global University team of experts in the area of Computer Science. These specialists have used their extensive experience and state-of-the-art knowledge to create practical and completely innovative content. All of this, based on the most efficient pedagogical methodology, TECH Global University Relearning. 

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Module 1. CFD in Application Environments: Finite Volume Methods

1.1. Finite Volume Methods 

1.1.1. Definitions in FVM
1.1.2. MVF in Structures

1.2. Source Terms  

1.2.1. External volumetric forces

1.2.1.1. Gravity, centrifugal force

1.2.2. Volumetric (mass) and pressure source term (evaporation, cavitation, chemical)
1.2.3. Scalar source term

1.2.3.1. Temperature, species 

1.3. Applications of boundary conditions 

1.3.1. Input and Output
1.3.2. Symmetry condition
1.3.3. Wall condition

1.3.3.1. Tax values
1.3.3.2. Values to be solved by parallel calculation
1.3.3.3. Wall models

1.4. Boundary Conditions

1.4.1. Lateral boundary conditions. Dirichlet

1.4.1.1. Scalars
1.4.1.2. Diseases

1.4.2. Boundary conditions with known derivative: Neumann

1.4.2.1. Zero gradient
1.4.2.2. Finite gradient

1.4.3. Cyclic boundary conditions: Born-von Karman
1.4.4. Other boundary conditions: Robin

1.5. Temporary integration

1.5.1. Explicit and implicit Euler
1.5.2. Lax-Wendroff time step and variants (Richtmyer and MacCormack)
1.5.3. Runge-Kutta multi-stage time step

1.6. Upwind Schematics

1.6.1. Riemman's Problem
1.6.2. Main upwind schemes: MUSCL, Van Leer, Roe, AUSM
1.6.3. Design of an upwind spatial scheme

1.7. High order schemes

1.7.1. High-order discontinuous Galerkin
1.7.2. ENO and WENO
1.7.3. High Order Schemes. Advantages and Disadvantages

1.8.  Pressure-velocity convergence loop 

1.8.1. PISA  
1.8.2. SIMPLE, SIMPLER and SIMPLEC
1.8.3. PIMPLE
1.8.4. Transient loops

1.9. Moving contours

1.9.1. Overlocking techniques
1.9.2. Mapping: mobile reference system
1.9.3. Immersed boundary method
1.9.4. Overlapping meshes 

1.10. Errors and uncertainties in CFD modeling

1.10.1. Precision and accuracy
1.10.2. Numerical errors
1.10.3. Input 

Thanks to the most efficient teaching methodology, you will be able to acquire new knowledge in a precise way and in only few weeks"