With TECH's 100% online program, you will be able to study from anywhere and at any time, adjusting to your needs and schedules"

CFD Techniques for Predesign and Analysis are fundamental tools for Computational Fluid Mechanics in the design of complex systems. Their use has become essential for a wide range of fields, from automotive to aerospace and energy engineering. With the growing demand for high quality products and increased competitiveness in the industry, it is essential that professionals are trained in the latest techniques and tools in the field.

It is in this context that TECH has developed a Postgraduate certificate program in CFD Techniques for Predesign and Analysis that responds to the current needs of engineers in today's job market. In this way, the program offers comprehensive instruction in the use of advanced fluid simulation, modeling and analysis techniques, enabling professionals to improve efficiency, reduce costs and minimize environmental impacts. In addition, students will acquire specific skills in the selection and use of tools, as well as in obtaining coefficients and advanced time discretization methods.

This is an academic degree delivered in a 100% online format, which means that students can adapt their learning to their schedule and lifestyle. In addition, the teaching methodology used, Relearning, combines theory with practical exercises and complex simulated situations. In this way, students learn efficiently and dynamically, allowing them to integrate their knowledge in a natural and intuitive process.

Gain deep insights into the boundary layers of aerodynamics with this TECH academic degree, created by top experts in the field"

This Postgraduate certificate in CFD Techniques for Predesign and Analysis contains the most complete and up-to-date 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 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 work
• Content that is accessible from any fixed or portable device with an Internet connection

TECH's 100% online learning methodology will allow you to study at your own pace, without interrupting your professional work"

The program includes in its teaching staff professionals from the sector who bring to this program the experience of their work, as well as recognized 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. This will be done with the help of an innovative system of interactive videos made by renowned experts.

This Postgraduate certificate has the most advanced multimedia resources in the educational market: detailed videos, case studies or interactive summaries, among many others"

Deepen your understanding of aspects such as turbulent structures through this TECH program and advance your career immediately"

This academic program offered by TECH stands out for its innovative approach, as it is based on the Relearning methodology that seeks a natural integration of knowledge through the constant reiteration of key concepts throughout the syllabus. In this way, the student will be able to acquire skills and competencies in an efficient and dynamic way, without the need to memorize. In addition, with this program, you will be able to delve into the most advanced techniques in Computational Fluid Mechanics, designing and analyzing systems to improve efficiency and reduce costs in the aerospace, automotive, energy and environmental industries.

Explore the relationship between CFD and supercomputing and discover parallelization and domain decomposition techniques to optimize your computations and analysis"

Module 1. CFD in Research and Modeling Environments

1.1. Research in Computational Fluid Dynamics (CFD)

1.1.1. Challenges in turbulence
1.1.2. Advances in Chronic Obstructive Pulmonary Disease
1.1.3. Artificial Intelligence

1.2. Finite differences

1.2.1. Presentation and application to a 1D problem. Taylor's Theorem
1.2.2. 2D Applications
1.2.3. Boundary Conditions

1.3. Compact finite differences

1.3.1. Objective SK Lele's article
1.3.2. Obtaining coefficients
1.3.3. Application to a 1D problem

1.4. The Fourier Transform

1.4.1. The Fourier transform. From Fourier to the present day
1.4.2. The FFTW package
1.4.3. Cosine transform: Tchebycheff

1.5. Spectral methods

1.5.1. Application to a fluid problem
1.5.2. Pseudo-spectral methods: Fourier + CFD
1.5.3. Placement methods

1.6. Advanced time discretization methods

1.6.1. The Adams-Bamsford method
1.6.2. The Crack-Nicholson method
1.6.3. Runge-Kutta

1.7. Structures in turbulence

1.7.1. The vortex
1.7.2. The life cycle of a turbulent structure
1.7.3. Visualization Techniques

1.8. The Characteristics Method

1.8.1. Compressible Fluids
1.8.2. Application A breaking wave
1.8.3. Application: Burguers equation

1.9. CFD and supercomputing

1.9.1. The memory problem and the evolution of computers
1.9.2. Parallelization techniques
1.9.3. Domain decomposition

1.10. Open problems in turbulence

1.10.1. Modeling and the VonKarma constant
1.10.2. Aerodynamics: boundary layers
1.10.3. Noise in CFD problems

 Delve into the latest advances in Computational Fluid Dynamics (CFD) and turbulence challenges in this TECH Postgraduate certificate program”