How does a glycol chiller system work?

How does a glycol chiller system work?

How Does a Glycol Chiller System Work? A glycol chiller plant is composed of a refrigeration component and tubing containing a glycol-water mixture as coolant. Chilled fluid from the refrigeration unit is channeled through the piping associated with a thermal exchanger surrounding a heated process.

What are the 4 main components of a chiller system?

Chillers consist of four basic components; an evaporator, a compressor, a condenser, and an expansion unit. Every chiller system contains a refrigerant. The process starts with a low-pressure refrigerant entering the evaporator.

How many types of chilled water systems are there?

There two main types of chilled water cooling systems: air-cooled chillers, and water-cooled chillers.

How big of a glycol chiller do I need?

Chillers are typically sized based on tonnage, so we have our total heat load in BTU/HR. To convert that to tons you simply divide the Total BTU/HR by 12,000 BTU, this will give you a result of refrigeration tons. From there you can select your chiller based on tonnage.

Do cooling towers use glycol?

NEVER USE GLYCOL IN COOLING TOWERS. However, the mixed solution of water-glycol will be thicker, heavier, than the water alone was. Thus, to achieve the same heat exchange inside the heat exchanger , requires more surface area or a larger heat exchanger.

What is chiller temperature?

Chilled water temperatures (leaving from the chiller) usually range from 1 to 7 °C (34 to 45 °F), depending upon application requirements. Commonly, chillers receive water at 12°C (entering temperature), and cool it to 7°C (leaving temperature).

What is the delta T in chiller?

“Delta T” is the most common use of the word delta in the HVAC industry, meaning temperature difference. If the temperature before a cooling coil is 75F and the temperature after the cooling coil is 55F, subtract 55F from a 75F to find a delta t of 20F.