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MEP Course Features

Diploma/ / BE
3 months
3 months

MEP Course stands for Mechanical, Electrical, and Plumbing and it’s a vital part of building engineering and construction.

MEP Course involves planning, designing, and integrating mechanical, electrical, and plumbing systems in buildings or infrastructure. Here’s what each aspect covers:

Mechanical: This focuses on heating, ventilation, and air conditioning (HVAC) systems to maintain a comfortable environment.

Electrical: It includes lighting, power distribution, and security systems design to ensure efficient and safe electricity usage.

Plumbing: This covers water supply, drainage, sewage systems, and fire protection systems design.

Course is essential for ensuring buildings are functional, safe, and sustainable. They require expertise in engineering principles and regulations to create efficient and reliable systems tailored to each building’s needs.

What you will learn

MEP Engineer is a single-level professional classification responsible for planning and design in the areas of mechanical, electrical, and plumbing (MEP) system including developing policies, standards, inspection procedures and evaluation of various projects. The mechanical aspect focuses on heating, cooling and ventilation (HVAC) and the electrical aspect focuses on providing power to all outlets and appliances. The plumbing aspect focuses on the delivery of water and the draining of waste water.

Job Roles
  1. MEP Engineer: Responsible for designing, coordinating, and overseeing the installation of mechanical, electrical, and plumbing systems in buildings or infrastructure projects.
  2. HVAC Engineer: Specializes in designing heating, ventilation, and air conditioning systems to ensure optimal indoor air quality and climate control.
  3. Electrical Engineer: Focuses on designing and overseeing the installation of electrical systems, including lighting, power distribution, and security systems, to meet building requirements.
  4. Plumbing Engineer: Designs water supply, drainage, sewage, and fire protection systems to ensure efficient and safe water management within buildings.
  5. MEP Coordinator: Coordinates the planning and implementation of MEP systems, collaborating with architects, engineers, and contractors to ensure smooth project execution.
  6. MEP Technician: Assists engineers in the installation, maintenance, and troubleshooting of MEP systems, performing tasks such as equipment testing and system inspections.
  7. MEP Project Manager: Manages MEP projects from conception to completion, overseeing budgets, schedules, and quality assurance to ensure successful project delivery.
  8. Sustainability Consultant: Focuses on integrating sustainable practices into MEP designs, such as energy-efficient systems and renewable energy sources, to minimize environmental impact and maximize efficiency.
  9. Building Services Engineer: Designs and manages MEP systems for various building types, ensuring compliance with building codes, regulations, and client requirements.
  10. MEP Estimator: Prepares cost estimates for MEP systems based on project specifications, materials, labor, and other factors to help clients and contractors plan budgets accurately.

*For more information on the topics covered within each module, Additional Information area


Syllabus : HVAC


  1. Introduction
  2. Process in AC
  3. Heat (Unit, types of heat and mode of heat transfer)
  4. Temperature measuring devices
  5. Refrigerants
  6. psychometry
  7. VCR cycle
  8. Classifications of AC (centralized and non-centralized)
  9. VRF/VRV system
  10. Chillers
  11. Air handling unit
  12. Air distribution system
  13. Air delivery system
  14. SMACNA rules while ducting
  15. Ventilation system (car parking, kitchen hood, toilet)
  16. Heat load calculation (manually and software)
  17. Duct sizing (manually and software)


Electrical system design

  1. Basic electrical engineering
  2. Load calculation
  3. Single line diagram
  4. Small power design
  5. Lighting design
  6. Transformer
  7. Sizing of transformer
  8. Circuit breakers
  9. Circuit breakers sizing and selection
  10. Cable sizing and selection
  11. Lighting risk assessment
  12. Substation type and layout preparation
  13. UPS
  14. Earthing
  15. Lightning protection system
  16. Cable containment system
  17. Exterior lighting
  18. DG selection and sizing



  1. Introduction

  2. Water treatment system

  3. Water purification methods

  4. Water distribution system

  5. Plumbing fixtures

  6. Plumbing accessories and fittings

  7. OHT size calculation

  8. Water demand calculation

  9. Pump capacity calculation

  10. Septic tank calculation

Fire fighting

    1. Introduction
    2. Fire protection system
    3. Fire extinguishers
    4. Sprinkler system
    5. Zone control valve assembly
    6. Fire pump and its components
    7. Fire tank capacity and
    8. fire pump calculation
    9. Fire alarm system
    10. Fire detection system