Working Principle of Chiller Plant HVAC Explained with 3D Animation
Working Principle of Chiller Plant HVAC Explained with 3D Animation...
Like❣️ comments Share
.
#chillerplant #chillerplants #chiller #HVAC
#3danimation #3delectrical #diyelectrical
#electrical #electrician #electricians #electricalwork #electricalworks #electricalstudent #electricalstudents #electricalengineering #electricalengineer #electricaltips #electricalwiring
Like❣️ comments Share
.
#chillerplant #chillerplants #chiller #HVAC
#3danimation #3delectrical #diyelectrical
#electrical #electrician #electricians #electricalwork #electricalworks #electricalstudent #electricalstudents #electricalengineering #electricalengineer #electricaltips #electricalwiring
Category
📚
LearningTranscript
00:00The primary function of a chiller plant is to remove heat from a closed space within a building.
00:05In this video, we demonstrate the process through a truck experiment for easy understanding.
00:11A chiller plant comprises five key components.
00:14The chiller, cooling tower, air handling unit, AHU, condenser water pump, and chilled water pump.
00:20Chilled water originating from the chiller's evaporator travels through the supply line to the AHU.
00:26The AHU then absorbs all the heat present in the room via the return duct.
00:31This heat is transferred to the chilled water coming from the evaporator.
00:35Subsequently, the AHU extracts cooling from the chilled water and disperses it back into the room through the supply duct,
00:43continuously regulating this cycle.
00:46The heat gathered by the AHU is conveyed back to the evaporator via the chilled water return line.
00:52Inside the evaporator, the refrigerant absorbs the heat from the chilled water and imparts its cooling effect.
00:59The chilled water, now cold, cycles back to the AHU, perpetuating this process.
01:05The refrigerant, laden with heat from the chilled water, moves to the condenser.
01:10Here, it relinquishes all its heat to the condenser water, absorbs the resultant cold,
01:15and returns to the evaporator through the expansion valve.
01:19The expansion valve enhances the refrigerant's cooling capacity.
01:23The refrigerant, now cooler, imparts this chill to the chilled water.
01:28Meanwhile, the condenser water, having absorbed the heat from the refrigerant, is transported to the cooling tower.
01:34The heat is then expelled into the atmosphere via the tower's fan.
01:39Subsequently, the condenser water, now cooler from the cooling tower, flows back to the condenser.
01:44This cycle is relentless, illustrating how a chiller plant extracts heat from a closed space in a building
01:51and discharges it into the environment.
01:53We hope this video has been informative and aids in understanding the operational principles of a chiller plant.
02:00If you found this video helpful, please like and follow for more educational 3D content.