You will be able, thanks to this degree, to establish solutions of the Riemann problem by characteristics"

Professionals with expertise in Compressible Fluid Simulation are in high demand by various industries. Thus, in the aerospace or automotive industry, you can design and analyze systems and devices to improve efficiency, reduce costs and minimize environmental impacts. Along the same lines, in the aerospace industry, compressible fluid simulation is used to improve aircraft aerodynamics and reduce air resistance, leading to improved fuel efficiency and reduced emissions. In the automotive industry, this discipline is used to optimize engine cooling systems and improve vehicle aerodynamics, which also translates into greater efficiency and lower emissions of polluting gases. 

For all these reasons, TECH has created an academic program to train the professional. In this way, the student will delve into the Euler equations and establish the conservative versus primitive variables. This is a multidisciplinary degree in which the graduate will obtain the necessary skills to face his or her future in this area, with the maximum possible efficiency and the ability to solve any inconvenience. 

This is a unique academic degree designed by TECH and taught under the Relearning methodology, which combines the simulation of complex situations, the analysis of clinical cases and an approach based on repetition. In addition, the program is taught 100% online, allowing students to adapt their study time to their personal and professional needs without giving up anything. The methodology of the program is designed to provide the student with a comprehensive and practical education in Compressible Fluid Simulation. 

Enhance your professional profile with new knowledge in shock waves and stand out in a booming sector"

This Postgraduate certificate in Compressible Fluid Simulation contains the most complete and up-to-date scientific program on the market. The most important features include: 

• The development of case studies presented by experts in Textile Engineering
• The graphic, schematic, and practical contents with which they are created, provide practical information on the disciplines that are essential for professional practice 
• 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 

Enroll now and access all content on Riemannian Invariants or Euler Invariant Equations"

The program’s teaching staff includes professionals from sector who contribute their work experience to this educational program, as well as 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, the student will be assisted by an innovative interactive video system created by renowned experts.

Give your career the boost it needs and specialize in one of the most promising areas of Engineering"

Go deeper into the Godunov method and dive into Flux Vector Splitting with this comprehensive program that TECH has prepared for you"

The syllabus of this Postgraduate certificate has been designed with the objective of offering students an intensive learning program of 150 teaching hours. For this purpose, TECH provides the graduate with multimedia pills, readings and case studies that will allow him/her to deepen in the planning of public-private partnerships in Green Zones, the different types of actions of dynamization and the security elements for their preservation.

You will access high quality content designed by experts in Computational Fluid Mechanics to help you achieve your most ambitious career goals as an engineer"

Module 1. Revitalization of Green Zones

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's Problem 

1.3.1. Riemann's 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 the Riemann problem 

1.5.1. Exact solution 
1.5.2. Conservative numerical 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. Applications to the 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

A curriculum created to ensure your success as an expert in Compressible Fluid Simulation, in an effective way and fast”