Description

Profundiza en tus conocimientos en el Modelado de la Turbulencia en Fluido o en Métodos de los Volúmenes Finitos”

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Computational Fluid Dynamics is one of the most relevant computer simulation techniques. Its multiple advantages are used in a large number of sectors, among which the industrial sector stands out, since companies in this field are the main users of CFD Simulation. As a result, the demand for expert engineers with knowledge in this sector and advanced skills in this technique is increasing steadily.

For this reason, TECH has designed a University Expert in CFD Simulation in Industrial Environments, with the aim of providing students with specialized knowledge on Finite Volume Methods, Temporal Integration, Turbulent Structures, the Energy Equation, Postprocessing in CFD or Simulation Methods, among many other essential aspects. Thus, they will obtain the necessary skills to face their future in this area, with the maximum possible efficiency and the ability to solve any inconvenience.

All this, through a convenient 100% online modality that gives students total freedom to organize their studies and schedules, without the need to travel. In addition, being able to combine the completion of this program with their other obligations and with the possibility of accessing all the content from any device with internet connection, whether computer, tablet or cell phone.

Learn how to get the most out of CFD Simulation in Industrial Environments" 

This postgraduate diploma in CFD Simulation in Industrial Environments 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 CFD Simulation in Industrial Environments
  • The graphic, schematic, and practical contents with which they are created, provide scientific and 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

Acquire new knowledge about Good Practices and the different Errors that can occur in CFD Simulation"

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.

Get to know the future of CFD Simulation and adapt your profile to reach your most demanding professional goals in a short time"

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With TECH, you will have access to the best theoretical and practical content on Pressure Velocity Convergence Loop"

Objectives

The objective of this postgraduate diploma in CFD Simulation in Industrial Environments is to train students with the skills and competencies necessary to face their work in one of the sectors with the greatest future in the area of CFD Simulation. All this, through the most updated, dynamic and accurate contents of the academic market.

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In only 6 months you will be able to specialize in one of the most promising areas of engineering, thanks to TECH"

General Objectives

  • Establish the basis for the study of turbulence
  • Develop CFD statistical concepts
  • Determine the main computational techniques in turbulence research
  • Generate specialized knowledge in the method of Finite Volumes
  • Acquire specialized knowledge in fluid mechanics calculation techniques
  • Examine the wall units and the different regions of a turbulent wall flow
  • Determine the characteristics of compressible flows
  • Examine multiple models and multiphase methods
  • Develop expertise on multiple models and methods in multiphysics and thermal analysis
  • Interpret the results obtained by correct post-processing

Specific Objectives

Module 1. CFD in Research and Modeling Environments

  • Analyzing the future of artificial intelligence in turbulence
  • Apply classical discretization methods to fluid mechanics problems
  • Determine the different turbulent structures and their importance
  • Show the method of characteristics
  • To present the effect of the evolution of supercomputing on CFD problems
  • Examine the main open problems in turbulence

Module 2. CFD in Application Environments: Finite Volume Methods

  • Analyze the FEM or MVF environment
  • Specify what, where and how the boundary conditions can be defined
  • Determine possible time steps
  • Concretizing and designing Upwind schemes
  • Develop high order schemes
  • Examine convergence loops and in which cases to use each one
  • Expose the imperfections of CFD results

Module 3. Modeling of turbulence in Fluid

  • Applying the concept of orders of magnitude
  • To present the problem of closure of the Navier-Stokes equations
  • Examining energy budget equations
  • Developing the concept of turbulent viscosity
  • To substantiate the different types of RANS and LES
  • To present the regions of a turbulent flow
  • Modeling the energy equation

Module 4. Post-processing, validation and application in CFD

  • Determine the types of post-processing according to the results to be analyzed: purely numerical, visual or a mixture of both
  • Analyzing the convergence of a CFD simulation
  • Establish the need for CFD validation and know basic examples of CFD validation
  • Examine the different tools available on the market
  • To provide a foundation for the current context of CFD simulation
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Get the most out of the most innovative CFD simulation tools"

Postgraduate Diploma in CFD Simulation in Industrial Environments

Are you interested in CFD simulation and its application in industrial environments? The Postgraduate Diploma in CFD Simulation in Industrial Environments is the program you need. Through this university program, you will learn about the principles of CFD simulation and its application in industrial environments, how to perform numerical simulations, and how to interpret the results for problem solving in industrial environments. You will also have the opportunity to learn about the latest advances in the field of CFD simulation and its application in industrial environments.

With the Postgraduate Diploma in CFD Simulation in Industrial Environments, you will have the tools you need to make a positive difference in solving problems in industrial environments. Learn from experts in the field and become a specialist in CFD simulation in industrial environments.

Postgraduate Diploma in CFD Simulation in Industrial Environments

Our program focuses specifically on CFD simulation in industrial environments, which means you will gain practical and applicable skills in real-life situations. In addition, our course is taught by experts in the field of CFD simulation and its application in industrial environments, who have experience in solving problems in industry.

With the Postgraduate Diploma in CFD Simulation in Industrial Environments, you will have the opportunity to improve your skills and knowledge in the field of CFD simulation and its application in industrial environments. Learn the most advanced techniques and become an expert in solving problems in industry through CFD simulation.

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