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See the chart below to determine the system that appears most appropriate for your application. Click on a system type for more information and system photographs.
Heat Load is a combination of flow and temperature rise, and is commonly expressed in BTU/HR(british thermal
units per hour). One BTU is the amount of energy required to change 1 pound of water + or -1ºF.The
cooling load can be computed as follows: BTU/HR = GPM (gallons per minute) x Change In Temperature x A common expression describing cooling load is "tons." This is derived from the amount of cooling that produced
from one ton (2,000 pounds) of ice as it melts.The actual cooling conversion is 12,000 BTU/HR = 1
TON. A cooling tower is normally rated at 15,000 BTUs per hour for each TON.This was established because a The cooling load may be provided in flow/temperature rise or tonnage, both of which can be easily converted STEP 2: Establish maximum acceptable operating temperature. It's crucial to establish the highest acceptable operating temperature possible, because lowering the temperature more than is required significantly impacts the power costs. If you are treating an entire plant and a small heat load requires lower operating temperatures than the rest of the factory, it may be less costly to put a small dedicated low temperature system in that particular area. STEP 3: Choose an acceptable coolant. The two most common coolants are water and glycol. Most "closed" systems offer many advantages but
require the use of glycol. It's important to determine whether glycol is an acceptable coolant. STEP 4: Choose type of system. Usually, the objective is to produce the maximum cooling for the minimum cost. Cost comes in three forms: Phone 800-888-6554 to contact a sales engineer. |
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