Acquire new skills in Compressible Fluids, thanks to the best online university in the world according to Forbes, thanks to TECH Global University"

The Compressible Fluids Simulation is a constantly evolving field, driven by advances in computer technology. Students specializing in this area have the opportunity to contribute to the research and development of new techniques and algorithms that improve the accuracy and efficiency of Compressible Fluids Simulation.

For this reason, TECH Global University has designed a Postgraduate certificate Course in Compressible Fluids Simulation with the aim of providing students with the necessary skills and knowledge to be able to carry out their work as specialists with the maximum possible efficiency in their jobs. Thus, topics such as the Supersonic Wedge, the Importance of Meshing, Non Homogeneous Equations or Conservative Numerical Methods will be dealt with throughout this Postgraduate certificate.

And all this through a convenient 100% online mode that allows students to organize their timetables and studies, combining them with their other work and obligations. In addition, this program has the most complete theoretical and practical materials on the market, which facilitates the student's study process and allows them to achieve their objectives quickly and efficiently.

Become an expert in Higher Order Methods and Riemann Solution Strategies, in only 6 weeks and with total freedom of organization"

This Postgraduate certificate in Course in Compressible Fluids Simulation 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 Fluids Simulation Compressible
• The graphic, schematic and eminently practical content of the book provides sporting and practical information on those disciplines that are essential for professional practice
• Practical exercises where the self-assessment process can be carried out 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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The program's teaching staff includes professionals from the sector who contribute their work experience to this program, in addition to renowned specialists from leading societies and prestigious universities.

Its multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide an immersive education programmed to learn in real situations.

The design of this program focuses on Problem-Based Learning, by means of which the professional must try to solve the different professional practice situations that are presented throughout the academic course. For this purpose students will be assisted by an innovative interactive video system developed by renowned experts.

Access all the content on Flux Vector Splitting, from your tablet, mobile or computer"

Delve deeper into aspects such as the Supersonic Wedge or the Sod Problem, from the comfort of your home and at any time of the day"

The didactic resources of this syllabus 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 drawn on their extensive experience and state-of-the-art knowledge to create practical, dynamic and completely up-to-date content. All this, based on the most efficient pedagogical methodology, the Relearning of TECH Global University.

Broaden your knowledge in those aspects of the syllabus that interest you most, thanks to a wide range of additional material available on the Virtual Campus"

Module 1. Compressible Fluids

1.1. Compressible Fluids

1.1.1. Compressible and incompressible fluids. Differences
1.1.2. Equation of State
1.1.3. Differential equations of compressible fluids

1.2. Practical examples of the compressible regime

1.2.1. Shock Waves
1.2.2. Prandtl-Meyer Expansion
1.2.3. Nozzles

1.3. Riemann problem

1.3.1. The Riemann problem
1.3.2. Solution of the Riemann problem by characteristics
1.3.3. Non-linear systems: Shock Waves Rankine-Hugoniot condition
1.3.4. Non-linear systems: Waves and expansion fans. Entropy condition
1.3.5. Riemannian Invariants

1.4. Euler Equations

1.4.1. Invariants of the Euler equations
1.4.2. Conservative vs. primitive variables
1.4.3. Solution Strategies

1.5. Solutions to Riemann problem

1.5.1. Exact solution
1.5.2. Conservation Methods
1.5.3. Godunov's method
1.5.4. Flux Vector Splitting

1.6. Approximate Riemann solvers

1.6.1. HLLC
1.6.2. Roe
1.6.3. AUSM

1.7. Higher order methods

1.7.1. Problems of higher order methods
1.7.2. Limiters and TVD methods
1.7.3. Practical Examples

1.8. Additional aspects of the Riemann Problem

1.8.1. Non-homogeneous equations
1.8.2. Splitting dimensional
1.8.3. Would you like to master Navier-Stokes Equations?

1.9. Regions with high gradients and discontinuities

1.9.1. Importance of meshing
1.9.2. Automatic mesh adaptation (AMR)
1.9.3. Shock Fitting Methods

1.10. Compressible flow applications

1.10.1. Sod problem
1.10.2. Supersonic wedge
1.10.3. Convergent-divergent nozzle

Thanks to the most efficient teaching methodology, TECH Global University Relearning, you will be able to acquire new knowledge in a precise way and in only 150 hours"