The Advanced Certificate in Engineering Simulation comprises of 11 modules:
Apply Engineering Simulation Fundamentals
This module highlights the practical applications of finite element theory. It stipulates how to create and modify geometry in preparation for analysis, as well as generate quality mesh for their finite element analysis (FEA) and/or computational fluid dynamics (CFD) simulations.
Duration : 5 x 8hrs sessions
Pre-requisites : NA
[View full syllabus]
Perform Structural Simulation For Design Verification
This module stipulates how to perform Finite Element Analysis (FEA) simulations, including:
- linear analyses such as static structural, modal and thermal analyses
- nonlinear analyses such as large deflection, plasticity and contact
It also focuses on how to utilize a design optimization application by studying, quantifying and graphing various structural, thermal and flow responses on parts and assemblies.
Duration : 5 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
[View full syllabus]
Perform CFD Simulation For Design Verification
This module is recommended for engineers who wish to analyze the general fluid flow analysis using general-purpose Computational Fluid Dynamics (CFD) tool. The Standard covers the basic knowledge about CFD, geometry modeling, meshing and fluid domain extraction. It stipulates how to setup the boundary and initial conditions, how to solve and post-process the results, as well as the basic procedures for operating the user-defined functions (UDF) programming and some advanced physics.
The module also stipulates how to enhance the visualization of simulations by generating high resolution images, impressed animation movies with 3D effect and virtual reality as well as creating a distributed rendering for very large models. In addition, the complete post-processing and visualization product for computational fluid dynamics (CFD), finite element analysis (FEA), fluid-structure interaction (FSI) and engineering data will be focused on
Duration : 5 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
[View full syllabus]
Perform Engineering Simulation for Built Environment and HVAC Design
This module, focusing primarily on applications in the heating, ventilation and air-conditioning (HVAC) industry as well as Build Environment design, is recommended for engineers who wish to perform airflow modelling using Computational Fluid Dynamics (CFD) analysis. It stipulates how to:
- analyze airflow modelling
- analyze heat transfer mechanisms
- analyze turbulence characterisitcs
- analyze multispecies and multiphase flows
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Engineering Simulation for the Electronics Industry
This module, focusing primarily on applications in the Electronics industry, is recommended for engineers who wish to perform engineering analyses related to Electronics products and processes. It stipulates how to:
- perform coupled physics analyses
- analze thermal response of structures and components
- evaluate cooling solutions with air flow dynamics
- perform drop test analyses
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform Structural Simulation for Design Verification
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Engineering Simulation for the Marine & Offshore Industry
This module, focusing primarily on applications in the Electronics industry, is recommended for engineers who wish to perform various engineering analyses related to marine and offshore engineering using Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) simulations. It stipulates how to:
- analyze the dynamics of structures
- analze fatigue phenomena
- perform multi-body hydrodynamics analyses
- analyze fluid-structure interaction
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform Structural Simulation for Design Verification
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Engineering Simulation for the Industrial Equipment / Machinery Industry
This module, focusing primarily on applications in the equipment and machinery industry, recommended for engineers who wish to perform engineering analyses related to industrial equipment and machineries. It stipulates how to:
- analyze multi-body, rigid and flexible structural dynamics
- analze thermal response of structures and components
- analyze fatigue phenomena
- analyze combustion simulations
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform Structural Simulation for Design Verification
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Engineering Simulation for the Medtech Industry
This module, focusing primarily on applications in the Medtech industry, is recommended for engineers who wish to perform engineering analyses related to Medtech products and processes. It stipulates how to:
- analyze coupled physics
- analze thermal response of structures and components
- perform drop test analyses
- analyze multispecies and multiphase flows
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform Structural Simulation for Design Verification
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Engineering Simulation for the Aerospace Industry
This module, focusing primarily on applications in the Aerospace industry, is recommended for engineers who wish to perform engineering analyses related to Aerospace products and processes. It stipulates how to:
- perform advanced geometry preparation and meshing
- analze the dynamics of structures
- perform turbulent flow analyses
- analyze rotating machinery simulations
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform Structural Simulation for Design Verification
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Engineering Simulation for Defence and Homeland Security
This module, focusing primarily on applications in Defence and Homeland Security, is recommended for engineers who wish to perform engineering analyses related to Defence and Homeland Security products and processes. It stipulates how to:
- analyze basic explicit dynamics simulations
- analze advanced explicit dynamics simulations
- perform highly nonlinear, transient dynamics analyses
- perform turbulent flow analyses
Duration : 8 x 8hrs sessions
Pre-requisites :
- Apply Engineering Simulation Fundamentals
- Perform Structural Simulation for Design Verification
- Perform CFD Simulation for Design Verification
[View full syllabus]
Perform Industry-Specific Engineering Simulation
This module stipulates how to utilize an innovation tool to rapidly, yet systematically, circumvent barriers that traditionally impede innovation. It covers the use of inventive problem solving principles and methodologies for engineering, through applications of Root Cause Analysis, Theory of Inventive Problem Solving (TRIZ), Function modelling and Innovation Trend Analysis.
This module also focuses on pre-processing, solving, post-processing, presenting and reporting an industry-specific finite element analysis (FEA) and/or computational fluid dynamics (CFD) project of each student’s choice.
Duration : 5 x 8hrs sessions
Pre-requisites :
Any one of the following modules:
- Perform Engineering Simulation for Built Environment and HVAC Design
- Perform Engineering Simulation for the Electronics Industry
- Perform Engineering Simulation for the Marine & Offshore Industry
- Perform Engineering Simulation for the Industrial Equipment / Machinery Industry
- Perform Engineering Simulation for the Medtech Industry
- Perform Engineering Simulation for the Aerospace Industry
- Perform Engineering Simulation for Defence & Homeland Security
[Syllabus coming soon!]
[Brochure]
For enquiries, please contact Mr. Chiang Hong Keat at (65) 6508-7570 or hongkeat.chiang@cadit.com.sg.
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