Trisal , Manama, Bharain 10012
Phone +966 138670307

Diploma in Revit MEP, HVAC Design & CFD Optimization – 4 Months

 

Software’s: HAP /Auto CAD/CATIA/REVIT MEP/ANSYS WB, ANSYS ICEM CFD & ANSYS CFX.

 

BENEFITS:

  • BIM for MEP Engineers
  • Design Collaboration
  • Sustainable Design and Analysis
  • Better Design Accuracy
  • Coordinate Design Information
  • Collaborate More Effectively
  • Schematic Design
  • Single/Double-Line Design
  • Smart Annotation of Objects
  • Seamless Sections & Elevations
  • Fabrication for Contractors
  • Building Systems Modelling & Layout
  • Optimized Design Collaboration & Coordination
  • Sustainable Design with Building  Performance Analysis
  • Design and Documentation

Autodesk Revit MEP is building information modelling (BIM) software created by Autodesk for professionals who engage in MEP engineering. By utilizing BIM as opposed to computer-aided drafting (CAD), Revit MEP is able to leverage dynamic information in intelligent models — allowing complex building systems to be accurately designed and documented in a shorter amount of time. Each intelligent model created with Revit MEP represents an entire project and is stored in a single database file. This allows changes made in one part of the model to be automatically propagated to other parts of the model, thus enhancing the workflow for Revit MEP users.

In the last decade, demand of HVAC systems increased significantly in our country, in response to the increasing of people’s life quality and theirs high level of demand in terms of comfort. In this context that the new legislation fits in (RSECE/QAI), defining thermal and hygienic comfort conditions that should be required on different areas of buildings; improving global energy efficiency of buildings; imposing efficiency rules on climatization systems to improve their effective energy benefits and ensure the maintenance of a good indoor air quality; inspect regularly the climatization maintenance practices as a condition of energy efficiency and indoor air quality.

Computational Fluid Dynamics – CFD – is a helpful tool which reveals a significant importance to solve/validate situations out of standard, of difficult resolution or not regulated. The diffusion of air assumes high importance defining the best comfort and QAI conditions. The right choice of a diffuser, or just the choice of its position in a space, is determinant in the guarantee of comfort and QAI. With numerical simulations, all situations can be tested, allowing to achieve the best solution.

COURSE OUTLINE
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Module 1

  • Introduction to HVAC
  • Basic Components
  • Air-Conditioning Equipment`s
  • Psychrometry
  • Heat Load Calculations
  • Selection of Equipment`s
  • Air Distribution System
  • Chilled Water/ Hydronic System
  • Site Installation
  • HVAC Documentation
  • Design projects/Case studies
  • HVAC Drafting

Module 2

  • Building Information Modelling for MEP Engineering
  • Revit MEP Interface
  • Viewing the Model ,Starting a New Project
  • Architectural Basic Modules
  • Piping Systems,Plumbing Systems
  • Drainage, Sanitary, Vent systems
  • Defining Volumes
  • Building Performance Analysis
  • Creating Analytical Model
  • HVAC Systems-Planning,Duct Sizing
  • Duct Design Rules in Revit MEP
  • Electrical Systems, Electrical Circuit Planning.
  • Lighting Levels,Lighting System Planning
  • Panel Schedule,Light Key Level Schedule
  • Fire Protection Systems
  • Detailing and Drafting
  • Adding Annotations and Schedules
  • Construction Documentation
  • Linking and Coordination
    Work Sharing using Work sets
  • Working with Architects and Engineers
  • Family Creation and the Family Editor

Module 3

  • CATIA – Structure Modelling
  • CATIA – Surface Modelling
  • CATIA – Sheet Metal Design
  • Clean Room Concepts, Energy Management Concepts
  • Product interface (BMS, fire fighting, plumbing)
  • Certification and recommendations
  • Design Optimization – ANSYS CFD.
  • CFD Implementation in HVAC
  • Flow through pipes/ducts – Design
  • Flow loss calculations with CFD
  • FVM approach with ANSYS
  • ANSYS WB – Pre-processing– FV Modelling
  • ANSYS WB & ICEM CFD – Meshing
  • Turbulence Modelling – CFD ,ANSYS CFX – Flow Simulation
  • Result Study & Post processing
  • Project management
  • HVAC/MEP-CFD Project/Case Studies.
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