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Also known as shell and tube heat exchangers, these transfer heat using liquid or steam that flows through the shell to heat or cool liquid in the tubes.
Stacked, corrugated plates maximize contact with liquid or steam flowing through these brazed plate heat exchangers for faster heat transfer than shell and tube heat exchangers.
Place these heat exchangers in open tanks to heat or cool their contents by transferring heat from water or steam that flows through passageways in the panel.
Quickly heat or cool beverages and condiments using these heat exchangers, which have a sanitary design certified by 3-A.
With more than three times the pressure rating of standard heat exchangers, these are often used for high-pressure condensing, evaporating, heating, and cooling. They are also known as shell and tube heat exchangers.
Cool hot liquid samples to safe temperatures for testing. These heat exchangers are often used to monitor boiler water quality without shutting down the system.
Replace the front (in/out) and rear (reversing) gaskets in shell and tube heat exchangers.
A fan cools water as it moves through the tubes.
To provide a more consistent flow of cooled water than other heat sinks for water, these have a built-in pump and reservoir.
For greater cooling capacity and higher flow rates than other heat sinks for oil, these have a large fan.
Dozens of fins and coolant tubes quickly dissipate excess heat.
Remove excess heat by sticking these heat sinks onto circuit boards, semi-conductors, relays, and other heat-sensitive electrical components.
Clip these heat sinks onto circuit boards, semiconductors, and other heat-sensitive electrical components.
Bond heat sinks to surfaces, eliminating air gaps for maximum heat transfer.
Connect these plates to cold liquid lines in process chillers and liquid-to-air cooling systems to cool equipment through direct contact.
For more cooling capacity than other liquid chillers, these have a heavy duty pump that can handle higher flow rates and pressures.
These liquid chillers maintain a stable temperature within 0.18° F for the most precise temperature control.
Protect computers, sensitive electronic components, lighting, injection molders, and HVAC systems from damage by routing heat away from them and toward a heat sink, where the heat can be dissipated.
Use in heat exchangers and liquid chillers.
Cool the air in your enclosure to protect electronic components from excessive heat. These heat exchangers absorb heat in the enclosure, then use cooler air outside the enclosure to draw the heat away, lowering the temperature inside.
Copper tubing has good corrosion resistance and excellent heat transfer qualities.
This Type K tubing has the thickest walls of all our copper tubing for drinking water. It withstands pressures up to 1,900 psi.
This Type L tubing has thicker walls than Type M tubing. It withstands pressures up to 1,500 psi.
This Type M tubing has the thinnest walls of all our copper tubing for drinking water. It withstands pressures up to 980 psi.
This tubing comes cleaned and capped to prevent moisture and dirt from contaminating the inside. It is also known as refrigeration and air conditioning tubing.
Often used in heating and cooling systems, this tubing insulates refrigerant to efficiently transfer heat between components.