HVAC Design Course Overview

 

I trust this message tracks down you all healthy and cheerful moods. Today, I might want to reveal some insight into the huge significance of HVAC (Warming, Ventilation, and Cooling) design in accomplishing ideal solace and effectiveness in structures. Obviously, HVAC frameworks assume a critical part in keeping up with agreeable indoor conditions, whether it’s in private, business, or modern settings. Notwithstanding, the way to opening their maximum capacity lies in the fastidious design process that goes before their establishment. The following are a couple of motivations behind why HVAC design is of most extreme significance. A very much designed HVAC framework guarantees predictable temperature control, sufficient ventilation, and ideal stickiness levels. Via cautiously considering elements like structure size, protection, tenant requirements, and nearby environment, HVAC designers can establish conditions that advance solace and prosperity, prompting expanded efficiency and fulfillment among inhabitants.

HVAC Design

 
  • Introduction to HVAC, Air Conditioning, Classification of Air Conditioning System
  • Introduction to HVAC, Vapour Compression Cycle, Vapour Absorption Cycle, Basic Parts of AirConditioner, About Psychometric, Properties of Air, Wet Bulb Temperature, Dry Bulb
    Temperature, Relative Humidity, Humidity Ratio
  • Air Handling Unit, Functions of AHU, Types of AHU, About Air Distribution System, Plenum,
    Flexible Connector, Starting Collar, Take Off / Shoe Neck, Reducer, Duct, Types of Duct,
    Rectangular Duct, Round Duct, Oval Duct, Duct System, Supply Air Duct, Return Air Duct /
    Exhaust Air Duct, Fresh Air Duct, About Air Terminal, About Placing Air Terminal
  • Duct routing methods, Duct Material, Heat, Types of Heat, Sensible Heat, Latent Heat, Mode of
    Heat Transfer, Heat Gain, Source of Heat Gain, External Heat Gain, International Heat Gain,
    Sources of Heat Gain, Conductance Factor (U Factor)
  • E-20 Calculation
  • E-20 Calculation
  • E-20 Calculation
  • Duct Sizing – Equal Friction Method
  • Duct Sizing – Static Regain Method
  • Duct Sizing – Velocity Reduction Method
  • AHU Fan Selection
  • AHU Fan Selection
  • Duct Hanger Spacing, Height of Collar, Mixed Air Temperature Calculation
  • Chilled Water System / Air-Water System / Hydronics, GPM Calculation
  • Chilled Water Pipe Design, Pipe Manufacturing Methods, Nominal Pipe Size, Pipe Joining
    Methods, Pipe Ends, Common Piping Elements,
  • Valves, Basic Parts of Valves, Types of Valves
  • Typical Pump Piping, Friction Loss in Valves, Pressure required to transport, Pump Head
    Calculation
  • Expansion Tank, Pump, Pump Head Calculation for condenser water
  • Pump Head Calculation for Chilled Water System, Heat loss calculation
  • Multiple Boilers & Chillers, Pipe sizing, Thermostat, Humidity-Stat, Anemometer, Air Delivery
    System, Pipe Wall thickness calculation,
  • Pump cavitation & NPSH requirements, Cladding for chilled water system, pipe colour coding,
    pipe support spans / spacing,
  • Piping Insulation materials, testing for chilled water piping, U –trap for drain pipe
  • Equipment selection, selection of coil priority, chilled water fan coil unit selection, selection of
    package unit, DX chiller selection, condenser selection,
  • Kitchen Ventilation
  • Toilet Ventilation, Car Parking Ventilation
  • District Cooling System
  • Drafting in AutoCAD

Each session duration

 

1 hour. The syllabus and duration is tentative only. Duration is depends on completion of daily
schedule. Syllabus is also vary time to time.