Simple instructions to assure proper cooling for your Industrial application
The importance of selecting a correctly sized chiller cannot be downplayed. An undersized chiller will always be a problem– never able to properly cool the process equipment. An oversize chiller will never be able to run at it’s most efficient level. Identify the correct size chiller and rely on years of continuous, efficient cooling for your application. If you would like help, feel free to give us a call. We do this all the time.
1.Calculate the ‘delta T’, the change in temperature, between the inlet and outlet water. Measuring the ‘delta T’ requires a thermocouple or thermometer. Check the water temperature of the water inlet line and the water outlet line, and subtract the numbers to compute how much heat the equipment is adding to the water.
2.Rate of flow in gallons per minute (GPM). To measure the flow rate of the water place a flow meter on the outlet line of your equipment. If one is not available, simply measure the time it takes for the outlet flow to fill a five gallon bucket, and then compute your gallons per minute (GPM) of flow.
3.Now that you have these two figures, calculate how many BTU’s (British Thermal Units) your equipment puts off.
# BTU/ hour = 500
(the weight of water) x GPM x Temperature
Difference (delta T)
Repeat this for all the equipment you have, and add up the total BTUs. Now that you have the BTUs, compute the total tons of cooling you need from a chiller.
For example, 1 Ton of cooling is 12,000 BTU/hours
# Tons = (BTU/hr) / (12,000)
This is the size unit you should need. There may be other circumstances, like planning for expansion, that would lead you to buy a different size unit.
Part 1: Determine the BTUs of cooling your process requires