Thanks to this Postgraduate certificate, you will be able to establish hypotheses on turbulent viscosity”

Turbulence and Boundary Layer Modeling is a discipline of great importance in sectors such as aerospace engineering, automotive, marine and energy industries. Thus, engineers trained in this area can design and analyze systems and devices to reduce flow resistance, improve energy efficiency, minimize environmental impacts and improve process safety.

For this reason, the demand for engineers trained in this sector is growing steadily and more and more organizations are hiring these professionals. In this sense, there is a growing need for professionals trained in this area to meet the demands of the industry. Thus, the graduate will be able to access numerous job opportunities in a variety of industries, where he/she will be able to contribute significantly to the development of technology and improve efficiency and sustainability in processes and devices.

For all these reasons, TECH has created an academic degree in which the graduate will delve into the problem of chaos and the energy cascade, as well as the turbulence cycle. All this under a comfortable 100% online modality, which allows you to adapt your study time and combine it with your personal and professional work. In addition, the program's methodology focuses on providing the student with a complete, practical and efficient education under the most effective methodology, Relearning.

A curriculum in which the contents are presented in an attractive and dynamic way to turn you into a first level engineer”

This Postgraduate certificate in Turbulence and Boundary Layer Modeling 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 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

The teaching system offered by TECH will allow you to organize your time and pace of learning, adapting it to your schedule”

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. This will be done with the help of an innovative system of interactive videos made by renowned experts.

You will be able to access the contents from any device with an internet connection 24 hours a day"

This is your opportunity to access the best theoretical and practical contents of the academic panorama, only in the TECH library"

TECH's academic degree offers an innovative educational experience based on the Relearning methodology, in which key concepts are repeated throughout the syllabus to achieve a natural and effective integration of knowledge. In this way, graduates can acquire specific skills and competencies efficiently and dynamically, without the need to memorize. In addition, the program is completely online and has the most complete theoretical and practical contents available in the current educational market, allowing the student to delve into the key characteristics of turbulence.

Dynamic and practical content on Turbulence and Boundary Layer Modeling that you can access anytime, anywhere”

Module 1. Modeling of turbulence in Fluid

1.1. Turbulence. Key features

1.1.1. Dissipation and diffusivity
1.1.2. Characteristic scales. Orders of magnitude
1.1.3. Reynolds Numbers

1.2. Definitions of Turbulence. From Reynolds to the present day

1.2.1. The Reynolds problem. The boundary layer
1.2.2. Meteorology, Richardson and Smagorinsky
1.2.3. The problem of chaos

1.3. The energy cascade

1.3.1. Smaller scales of turbulence
1.3.2. Kolmogorov's hypothesis
1.3.3. The cascade exponent

1.4. The closure problem revisited

1.4.1. 10 unknowns and 4 equations
1.4.2. The turbulent kinetic energy equation
1.4.3. The turbulence cycle

1.5. Turbulent viscosity

1.5.1. Historical background and parallels
1.5.2. Initiation problem: jets
1.5.3. Turbulent viscosity in CFD problems

1.6. RANS methods

1.6.1. The turbulent viscosity hypothesis
1.6.2. The RANS equations
1.6.3. RANS methods. Examples of use

1.7. The evolution of SLE

1.7.1. Historical Background
1.7.2. Spectral filters
1.7.3. Spatial filters. The problem in the wall

1.8. Wall turbulence I

1.8.1. Characteristic scales
1.8.2. The momentum equations
1.8.3. The regions of a turbulent wall flow

1.9. Wall turbulence II

1.9.1. Boundary layers
1.9.2. Dimensionless numbers of a boundary layer
1.9.3. The Blasius solution

1.10. The energy equation

1.10.1. Passive scalars
1.10.2. Active scalars. The Bousinesq approach
1.10.3. Fanno and Rayleigh flows

Quality content designed under the most efficient pedagogical methodology, Relearning, in which TECH is a pioneer”