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BUILDING INFORMATION MODELING - MECHANICAL

Building Information Modeling (BIM) is reshaping the landscape of the Mechanical, Electrical, and Plumbing (MEP) industry, offering unprecedented levels of efficiency and collaboration. Currently, BIM allows MEP engineers to seamlessly integrate their systems with architectural and structural designs, facilitating smoother coordination and clash detection during the design phase. This integration enables engineers to identify and resolve conflicts early on, reducing costly rework during construction. Additionally, BIM provides advanced visualization and simulation tools that allow engineers to analyze the performance of MEP systems within the context of the entire building. Through these tools, engineers can optimize designs for energy efficiency, occupant comfort, and operational effectiveness, leading to more sustainable and resilient buildings.

Looking forward, the future of BIM in the MEP industry holds even greater promise. With the integration of IoT devices and sensors, BIM models will become dynamic digital twins, providing real-time data on the performance of MEP systems. This data can be used for predictive maintenance, energy optimization, and operational insights, allowing building owners and operators to make informed decisions throughout the building's lifecycle. Furthermore, advancements in augmented reality (AR) and virtual reality (VR) technologies will enhance the visualization and interaction with BIM models, improving communication and decision-making among project stakeholders. Machine learning and AI algorithms will also play a significant role, optimizing the design and operation of MEP systems through data analysis and predictive modeling. Overall, BIM is poised to drive innovation and sustainability in the MEP industry, ushering in a new era of efficiency and collaboration in building design, construction, and management.

Student Benefit

This training aims to pave ways for students to get opportunities in industry as we assure you the complete technical build-up of persona of each student. We vow for the satisfaction of a student who aspires to compete in challenging environment in corporate. We don’t believe in reaping monetary benefits without constructing your technical foundation. You can feel free to be inquisitive about the trainer that will train you about his own industrial credentials. We offer you the credibility of the trainer who himself aspires to value you as an enthusiastic and passionate student.

  • B.Tech/BE in Mechanical/Civil/Electrical Engineering
  • Diploma in Mechanical Engineering
  • Master in Thermal Engineering
  • B.Arch./M.Arch.

  • Engineering Design Courses syllabus as per industry standards & Codes
  • We have 10+years experienced trainers
  • Printed Study Materials
  • Video tutorials available
  • Regular Tests
  • All Courses are based upon Live Projects
  • 100% Job oriented training program
  • Excellent Placements Records till now
  • Live Projects
  • Multiple International Projects in training module

  • The trainer is having an industrial experience of over 10 years where he worked on various domestic and international projects in BIM. He is an active member of autodesk. He has global exposure and attended various global training & seminars. He has delivered more than 500 webinars and trained more than 20000 BIM professionals and college students. He has trained professionals from more than 23 countries.

  • 1. Working with the Autodesk Revit software’s basic viewing, drawing, and editing commands
  • 2. Inserting and connecting MEP components and using the system browser
  • 3. Working with linked architectural files
  • 4. Creating spaces and zones so that you can analyze heating and cooling loads
  • 5. Creating HVAC networks with air terminals, mechanical equipment, ducts, and pipes
  • 6. Creating plumbing networks with plumbing fixtures and pipes
  • 7. Creating electrical circuits with electrical equipment, devices, and lighting fixtures and adding cable trays and conduits
  • 8. Creating HVAC and plumbing systems with automatic duct and piping layouts
  • 9. Testing duct, piping and electrical systems
  • 10. Creating and annotating construction documents
  • 11. Adding tags and creating schedules
  • 12. Detailing in the Autodesk Revit software

    • NavisWorks Manage

  • 1. Understanding the purpose of Building Information Modeling (BIM) and how it is applied in the Autodesk Navisworks software
  • 2. Consolidate Models
  • 3.Navigating the Autodesk Navisworks workspace and interface
  • 4. Creating a composite model
  • 5. Transforming models for proper alignment
  • 7. Using basic viewing tools
  • 8. Saving and retrieving views
  • 9. Sectioning a model

Course Duration :

3 Months - 2 months class room training & 1 month project Internship

  • Four days a week - 2 hrs each day
  • Weekend batch (3hrs on saturday & Sunday)
  • Fresh New Batch Starting in every 1st & 3rd week of month
  • Three Free Demo class

    • Introduction to Building Construction (Civil & MEP Services)

    1. Key responsibilities of HVAC consultant, contractor & OEM (original Equipment manufacturer).
    2. Dependency on other allied industries
    3. Building codes & standard
    4. Coordination with other building services

    Introduction to Heating Ventilation and Air conditioning

    1. Modes of Heat Transfer in a building
    2. Forms of Heat (Sensible & Latent Heat)
    3. Unit of Refrigeration
    4. Codes & standard used in HVAC industry

    Basics of air conditioning & refrigeration system

    1. Vapour Compression cycle
    2. Vapour absorption cycle

    Major Components of air conditioning System

    1. Types & function of Compressor
    2. Types & function of Condenser
    3. Types & function of Expansion Valve
    4. Types & function of Evaporator

    Refrigerant & its properties

    1. Classification
    2. Thermodynamic properties
    3. Physical properties
    4. Chemical formulas of important refrigerants

    Classification of Air-Conditioning System

    1. Window A/C
      • Working of Window A/C with Line Diagrams
    2. Split A/C
      • Types of Split A/C
      • Working of Split A/C with Line Diagrams
    3. Ductable Split A/C
      • Working of Ductable Split A/C with Line Diagrams
    4. Variable Refrigerant Volume (VRV)/Variable Refrigerant Flow (VRF)
    5. Ductable Package A/C
      • Working of Ductable Package A/C with Line Diagrams
      • Package Roof Top Units
    6. Central Plant Chilled Water System

    Categories of Air Conditioning

    1. All air system
    2. All water system
    3. Air - water system
    4. Direct Refrigerant system

    Study of Psychometric Charts

    1. Dry Bulb Temperature
    2. Wet Bulb Temperature
    3. Dew Point Temperature
    4. Relative Humidity
    5. Humidity Ratio
    6. Enthalpy
    7. Processes
      • Heating
      • Cooling
      • Humidification
      • Dehumidification
      • Cooling and Dehumidification
      • Cooling and Humidification
      • Heating and Humidification
      • Heating and Dehumidification.

    Load calculation

    1. Building survey
    2. Cooling & heating Load Steps
    3. Finding Temperature difference(Delta T) (Wall, Glass, Roof , Partition)
    4. Finding ‘U’ Factor (Wall, Glass, Roof, Partition)
    5. Finding Ventilation requirement for IAQ
    6. Finding Infiltration due to cracks & opening
    7. Load Calculations (Manually using E-20 form)
    8. ESHF, ADP & Air Flow Rate(CFM) & Tons of Refrigeration Calculation

    Air Distribution System

    1. Duct-Definition & Terminology
    2. Duct Design consideration
    3. Duct sizing methods
      • Velocity Reduction Method.
      • Equal friction method
      • Static regain method
    4. Role of Aspect Ratio in duct design
    5. Finding Duct size using Duct Sizer
    6. Single Line diagram (SLD)
    7. Double Line diagram (DLD)
    8. Total surface Area Calculation of Duct as per the shape of duct
    9. Gauge selection for Sheet Metal
    10. Legends and Symbols used in the HVAC Industry
    11. Duct Materials
    12. Insulation materials used in HVAC Industry
    13. Acoustic materials
    14. Concept of CAV & VAV
    15. Selection of Diffusers, Grilles, dampers, Fire dampers, Fresh Air louvers etc.
    16. Static Pressure calculation
      • Selection of Motor HP
      • Selection Fan/Blower RPM
      • Selection Air Handling Units.
    17. Hanging Arrangement of Ducting
    18. Accessories used in duct hanging- Fastener, Threaded rod, angles & channel.
    19. Quantifying the ducting & its associated materials required for final BOQ

    Hydronic System/ Chilled water system designing

    1. Classification of Water Piping
    2. Pipe sizing for chilled water system & condenser line.
    3. Insulation used for chilled water ,condenser water piping etc
    4. Fittings used in the HVAC Piping System
    5. Valves used in the HVAC Piping System
    6. Function of Valves
    7. Pump Head Calculation

    VRF/VRV System designing

    1. Selection of VRF/VRV Equipment
    2. Indoor unit grouping
    3. Outdoor unit selection
    4. Copper Pipe Sizing
    5. Refnet Selection
    6. Refrigerant charge calculation
    7. Schematic drawing
    8. Line diagram

    Ventilation systems

    1. Kitchen ventilation system
    2. Car parking ventilation system
    3. Toilet Exhaust Ventilation System

    Equipment Selection

    1. Chillers - Types & Its Application
    2. Air Handling Unit
    3. Fan coil Unit
    4. Pumps
    5. Cooling tower – Types & its losses calculation
    6. Humidifier selection
    7. Dehumidifier selection
    8. Fan - Types & Application

    Important Concepts & Terminology used in HVAC Industry

    1. District Cooling system
    2. Green Building
    3. IPLV (Integrated Part load value) calculation
    4. NPLV (Non-standard part load value) calculation
    5. IKW/TR calculation.
    6. Power consumption analysis of chiller with weather data
    7. HRW (Heat Recovery wheel) – working Application
    8. Basics of BMS (Understanding Sequence of Operation for HVAC System)

    Preparation of Tender specification

    1. Major components like chiller, AHU, Pump Cooling tower, ducting & Piping etc

    Estimation & costing of project

    1. Understanding the tendering requirements.
    2. Quantity take off
    3. Preparing Inquiry for Suppliers & Finalizing the suppliers.
    4. Final Billing & Quotations finalization
    5. Preparation of purchase orders
    6. Quotation Evaluation – Techno commercial comparison sheet

    Detailed BOQ preparation.

    Basics of HVAC Drafting

    1. Symbols & Legends of HVAC System
    2. Drafting Standards of HVAC System
    3. Representation of Design drawing
    4. Preparation of Single line Schematic & isometric Drawing of Air condition Ducting & ventilation Ducting Typical details of equipment’s used in projects
    5. Special class on drafting from industrial expert.

    HVAC software’s

    1. XL sheet for Load Calculation
    2. HAP 4.5 and above (Hourly Analysis Program)
    3. Wedco for weather Data
    4. Duct sizer for Duct sizing - McQuay
    5. Pipe sizer for Pipe sizing – McQuay
    6. Major Equipment selection softwares like
      • Air cooled screw/scroll chiller
      • Water cooled screw chiller
      • VRF indoor & outdoor selection
      • FCU selection
    7. Psychrometric Software - Carrier, Trane, Daikin.
    8. Auto cad