Cooling Tower And Condenser Water Design Part 1 The Refrigeration Cycle

Cooling Tower And Condenser Water Design Part 1 The Refrigeration Cycle Basically, the refrigeration cycle is responsible for transferring the heat absorbed by the return chilled water (coming back from the building) and transferring it to the condenser water which circulates to the cooling tower where it releases the heat to the atmosphere. to better understand this, let’s start at the bottom of figure 1, at the. Sequence of operation. when the operating fan(s) are operating at 50 percent speed, an additional fan shall be enabled and controlled at the same speed as the operating fans until all active cooling tower cell fans are enabled. when operating fans are running at minimum speed and the tower supply water temperature is five (5) degrees below the.

Schematic Of A Cooling Tower Water Cycle Cooling tower and condenser water design part 9: controlling cycles of concentration. successful cooling tower operation and performance involves a delicate balance between (1) keeping the dissolved solids (such as calcium, magnesium, chloride, and silica) in the water from causing too much scale and or corrosion and (2) conserving make up. The chilled water enters the ahu fcu and passes through the cooling coil (a series of thin pipes) where it will absorb the heat of the air blowing across. the chilled water heats up and the air blowing across it cools down. when the chilled water leaves the cooling coil it will now be warmer at around 12°c (53.6°f). Basically, the refrigeration cycle is responsible for transferring the heat absorbed by the return chilled water (coming back from the building) and transferring it to the condenser water which circulates to the cooling tower where it releases the heat to the atmosphere. Chillers use the refrigeration cycle to remove heat from water. a chilled water system’s refrigeration cycle works by removing heat from chilled water in the evaporator of the chiller. the compressor is what drives the entire process. it also uses the most energy in a chilled water system. in the condenser of the chiller, the heat is.