Products Bio-Chem Equipment cooling circulator & heater circulator 100L Chilling Circulator Low temperature constant temperature reaction bath
100L Chilling Circulator Low temperature constant temperature reaction bath

cooling circulator & heater circulator

100L Chilling Circulator Low temperature constant temperature reaction bath

Item Number : KCP-100

Price varies based on specs and customizations


Fluid Volume
100 L
Working Temp
-120-5 ℃
Pump Flowrate
70 L/min 6-8m
Temp. Stability
+/-2 ℃
ISO & CE icon

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Applications

KinTek KCP chilling circulator is an ideal functional chilling equipment , besides supplying constant chilling power with circulating fluids, it can also work as a one chilling bath to meet different working circumstances.

Its chilling system applies brand refrigerating compressor, high efficient heat exchangers, which can create a stable and quiet chilling power, max. Chilling temperature can be up to -120℃.

Its circulating system applies built in brand circulating pump, equipment standard inlet and outlet ports, which guarantee a reliable circulating result.

Detail & Parts

Chilling Circulator Details

Φ200×196mm Stainless Steel Cold Trap
Φ200×196mm Stainless Steel Cold Trap
Standard Fixture, Flask Optional

Standard Fixture, Flask Optional

Large Window LCD Screen

Large Window LCD Screen

Silicone Tube with Insulation Cotton
Silicone Tube with Insulation Cotton

Technical specifications

Model Fluid Volume Working Temp. Cooling Capacity Pump Flowrate Temp. Stability Hose Port Dimensions (mm)
KCP100-20 100L -23-5℃ 9738-2626W 70L/min 6-8m +/-2℃ 1/2’’ 1100*900*1100  
KCP100-30 -32-5℃ 9820-2820W
KCP100-40 -40-5℃ 10860-2830W
KCP100-60 -63-5℃ 11380-2100W 1200*1100*1350
KCP100-80 -83-5℃ 11670-1800W
KCP100-120 -120-5℃ 11880-1200W 1460*1200*1350

Warnings

Operator safety is the top important issue! Please operate the equipment with cautions. Working with inflammable& explosive or toxic gases is very dangerous, operators must take all necessary precautions before starting the equipment. Working with positive pressure inside the reactors or chambers is dangerous, operator must fellow the safety procedures strictly. Extra caution must also be taken when operating with air-reactive materials, especially under vacuum. A leak can draw air into the apparatus and cause a violent reaction to occur.

Designed for You

KinTek provide deep custom made service and equipment to worldwide customers, our specialized teamwork and rich experienced engineers are capable to undertake the custom tailoring hardware and software equipment requirements, and help our customer to build up the exclusive and personalized equipment and solution!

Would you please drop your ideas to us, our engineers are ready for you now!

FAQ

What Is A Cold Trap Chiller In Lab?

A cold trap chiller is a device used in laboratory equipment to protect vacuum pumps from contamination by condensing or sublimating vapors in a separate apparatus. It prevents oil vapors from backstreaming from the pump into the system and maintains a chilled stainless steel or glass surface for vapors to condense or sublimate on. The device utilizes an active material such as dry ice or liquid nitrogen or a Peltier element for cooling and can be disassembled for easy cleaning. Cold traps are essential for efficient pump operation and longer service lives.

What Is A Cooling Circulator?

A cooling circulator is a laboratory cooling system that provides consistent and precise temperature control for experiments that require cooling. It features a liquid reservoir, a cooling system, and a temperature control mechanism. These circulators can be used to cool or chill samples, and supply temperature-controlled water to external equipment. They are commonly used in life science research, drug discovery, material testing, wafer production, and wet chemistry. The temperature range of cooling circulators can be as wide as -95°C to 200°C

What Is The Purpose Of A Cold Trap Chiller?

The purpose of a cold trap chiller is to protect vacuum pumps from contamination by condensing or sublimating vapors and preventing oil vapors from backstreaming into the system. It provides a chilled surface for vapors to condense or sublimate on and utilizes an active material such as dry ice or liquid nitrogen or a Peltier element for cooling. Cold traps are most commonly used to collect vapor from applications involving rotating discs or vacuum systems, but can also be used on other types of contamination including solids. Cryogenic cold traps are specifically manufactured for cryogenic applications such as the adsorption of noble gases.

What Is A Circulating Water Bath?

A circulating water bath is a laboratory equipment that maintains a constant temperature by circulating water. This equipment is designed to enable the rapid heating and cooling of samples by constantly circulating water. It is commonly used in life science research, drug discovery, material testing, wafer production, and wet chemistry. Circulating baths offer efficient temperature maintenance over a wide range of temperatures, ranging from -90 to 300°C, and heat load removal of up to 1000 watts. They are ideal for holding samples such as flasks and beakers, and can also be used to circulate fluid to external equipment in open- or closed-loop applications.

Why Is A Cold Trap Placed Before The Vacuum Pump?

A cold trap is placed before the vacuum pump to prevent vapors, such as vapor from water or solvents, from contaminating the vacuum pump and the airstream. The cold trap condenses or sublimates gases, preventing them from reaching areas of the system that could lead to malfunction. Cold traps collect vapor from applications involving rotating discs or vacuum systems and oil vapors from a pump to prevent them from flowing into the chamber. By using a cold trap, vacuum pumps operate more efficiently and have longer service lives.

How Does A Cooling Circulator Work?

Cooling circulators work by utilizing a refrigeration system to cool the circulating coolant. The coolant is pumped from the reservoir through a cooling coil or heat exchanger, where it absorbs heat from the system being cooled. The heated coolant then flows back to the refrigeration system, which removes the heat and lowers its temperature. The cooled coolant is then circulated back into the system to maintain the desired temperature. The temperature is regulated and controlled by a temperature controller that monitors and adjusts the refrigeration system and pump speed accordingly.

What Are The Advantages Of Using A Cooling Circulator?

Cooling circulators offer several advantages for temperature control and cooling applications. Firstly, they provide precise and stable temperature control within a specific range, ensuring accurate and repeatable experimental results. The ability to maintain constant temperatures is crucial for many laboratory processes, such as chemical reactions, sample storage, and equipment cooling. Secondly, cooling circulators are versatile and can be used with a wide range of laboratory equipment, such as rotary evaporators, reactors, and spectrophotometers. They also come in various sizes and cooling capacities to accommodate different cooling requirements. Additionally, cooling circulators are energy-efficient, as they recycle and reuse the coolant, minimizing water consumption and reducing operating costs. Overall, cooling circulators enable efficient and controlled cooling in laboratory and industrial settings.

What Safety Precautions Should Be Taken When Using A Cooling Circulator?

When using a cooling circulator, it is important to follow safety precautions to ensure safe operation and prevent accidents. Firstly, proper training should be provided to personnel operating the circulator to ensure they understand its operation, safety features, and emergency procedures. Secondly, it is crucial to regularly inspect and maintain the cooling circulator, including the refrigeration system, pump, and electrical connections, to ensure safe and reliable operation. Any potential leaks or malfunctions should be promptly addressed. Thirdly, appropriate personal protective equipment (PPE) should be worn, such as gloves and safety glasses, when handling the coolant or performing maintenance tasks. Additionally, the cooling circulator should be placed on a stable surface and away from any potential obstructions or flammable materials. Proper grounding and electrical safety measures should also be followed.
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4.9

out of

5

The 100L Chilling Circulator from KINTEK SOLUTION is a fantastic investment. It's reliable, efficient, and easy to use.

Ayman Abdelaziz

4.8

out of

5

I'm impressed with the quality of this chiller. It's well-built and durable, and it works perfectly.

Kimberley Lee

4.7

out of

5

The KINTEK SOLUTION Chilling Circulator is a great value for the money. It's affordable, yet it performs like a much more expensive model.

Benjamin Elissalde

4.9

out of

5

The chiller is easy to set up and operate. It's also very quiet, which is a big plus.

Carmen Schneider

4.8

out of

5

I've been using this chiller for a few months now and I'm very happy with it. It's reliable, efficient, and easy to use.

Liam Brown

4.7

out of

5

The KINTEK SOLUTION Chilling Circulator is a great choice for any lab. It's well-built, affordable, and easy to use.

Isabella Garcia

4.9

out of

5

I'm very impressed with the performance of this chiller. It's able to maintain a consistent temperature, even under heavy use.

Oliver Smith

4.8

out of

5

The KINTEK SOLUTION Chilling Circulator is a great addition to my lab. It's helped me to improve the efficiency of my experiments.

Hannah Martin

4.7

out of

5

I'm very happy with the KINTEK SOLUTION Chilling Circulator. It's a reliable and affordable choice for any lab.

Elijah Garcia

4.9

out of

5

The chiller is very well-built and durable. I'm confident that it will last for many years to come.

Sophia Anderson

4.8

out of

5

The KINTEK SOLUTION Chilling Circulator is a great value for the money. It's affordable, yet it performs like a much more expensive model.

Jackson Turner

4.7

out of

5

The chiller is very easy to set up and operate. It's also very quiet, which is a big plus.

Amelia White

4.9

out of

5

I'm very impressed with the performance of this chiller. It's able to maintain a consistent temperature, even under heavy use.

Lucas Jones

4.8

out of

5

The KINTEK SOLUTION Chilling Circulator is a great addition to my lab. It's helped me to improve the efficiency of my experiments.

Harper Brown

PDF - 100L Chilling Circulator Low temperature constant temperature reaction bath

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Catalog of Cooling Circulator & Heater Circulator

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