Products Bio-Chem Equipment cooling circulator & heater circulator 80L Heating Chilling Circulator High temperature and low temperature constant temperature reaction bath
80L Heating Chilling Circulator High temperature and low temperature constant temperature reaction bath

cooling circulator & heater circulator

80L Heating Chilling Circulator High temperature and low temperature constant temperature reaction bath

Item Number : KCBP-80

Price varies based on specs and customizations


Fluid Volume
100 L
Working Temp
-40-200 ℃
Overall Power
13.5
Flowrate
42 L/min 28m
Temp. Stability
+/-2℃
ISO & CE icon

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Applications

KinTek KCBH heating chilling circulator is one multi skilled thermostatic equipment, which combines the functions of chilling, heating, and circulating,  it is all in one designing,an ideal equipment to supply both chilling and heating agent source in labs or industrial conditions.

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 -80℃.

Its heating system applies stainless steel heating coils, fast heating and accurate temperaure controlling, max. Heating temperature is up to 200℃, temperature stability is +/-2℃.

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

Detail & Parts

80L Heating Chilling Circulator detail  180L Heating Chilling Circulator detail  2

80L Heating Chilling Circulator detail  3
1. Pressure gauge; 2. Control panel; 3. Mobile casters; 4. Filling port; 5. Circulating fluid inlet; 6. Liquid level gauge; 7. Circulating fluid outlet;
80L Heating Chilling Circulator detail  4
Heating and cooling integrated with precise constant temperature; intelligent microcomputer temperature control system, precise temperature control, temperature difference ± 1 ℃. / Filling port; sealed liquid storage tank, dust-proof and volatilization-proof.
80L Heating Chilling Circulator detail  5
Condenser and compressor; use high-quality compressor to achieve rapid cooling.
80L Heating Chilling Circulator detail  6
1. Booster pump; 2. Compressor; 3. Storage tank; 4. Condenser;
80L Heating Chilling Circulator detail  7

Recommended package

High and low temperature all-in-one machine: One-key switching between heating and cooling, temperature control range: 200°C to minus xxx°C, intelligently maintains a constant temperature. / Low-temperature coolant circulation pump: rapid cooling steam improves recovery rate, closed cycle refrigeration.

Technical specifications

Model Fluid Volume Working Temp. Cooling Capacity Overall Power Flowrate Temp. Stability Dimensions (mm)
KCBH100-20 100L -20-200℃ 18638-6966W 13.5 42L/min 28m +/-2℃ 880*880*1250
KCBH100-30 -30-200℃ 19904-9557W
KCBH100-40 -40-200℃ 25334-10698W

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 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 A Heated Circulator?

A heated circulator is a laboratory equipment used to precisely control the temperature of fluids. It is often used in experiments that require consistent and precise temperature control, such as dissolution testing. The circulator typically features a liquid reservoir, a heating system, and a temperature control mechanism. The temperature range of a heated circulator can be as wide as -95°C to 300°C. It is commonly used in life science research, drug discovery, material testing, wafer production, and wet chemistry.

What Is Isostatic Pressing?

Isostatic pressing is a powder metallurgy process that uses equal pressure in all directions to produce uniform density and microstructure in a powder compact.

What Are The Benefits Of Isostatic Pressing?

Isostatic pressing provides uniform strength and density, shape flexibility, a wide range of component sizes, and low tooling cost. It also allows for larger parts, enhances alloying possibilities, reduces lead times, and minimizes material and machining costs.

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.

What Is The Purpose Of A Heater Circulator?

The purpose of a heater circulator is to provide a consistent and precise temperature control for experiments that require heating internally or externally. These circulators feature a liquid reservoir and a heating system, along with a temperature control mechanism. They are ideal for maintaining a few temperature set points over a long period of time and are commonly used in laboratories for experiments that involve liquid baths. Heating circulators come in open or closed baths and offer a wide temperature range from –90 to 300°C and heat load removal of up to 1000 watts.

What Are The Types Of Isostatic Pressing?

There are two main types of isostatic pressing:

  • Hot Isostatic Pressing (HIP): This type of isostatic pressing uses high temperature and high pressure to consolidate and strengthen the material. The material is heated in a sealed container and then subjected to equal pressure from all directions.
  • Cold Isostatic Pressing (CIP): In this type of isostatic pressing, the material is compacted at room temperature using hydraulic pressure. This method is commonly used to form ceramic and metal powders into complex shapes and structures.

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.

How Does A Heater Circulator Work?

A heater circulator works by heating a fluid and then circulating it through the system. The heating element, often an electric coil or a heating mantle, provides controlled heat to the fluid. The pump, typically a magnetic or centrifugal pump, circulates the fluid through tubes or a bath, ensuring even temperature distribution. The fluid absorbs heat from the heating element and transfers it to the desired location, such as a reaction vessel or a temperature-controlled chamber. Temperature sensors and controllers are used to monitor and maintain the desired temperature within a specified range. The combination of heating and circulation allows for precise temperature control and uniform heating throughout the system.

What Type Of Isostatic Pressing Equipment Do You Have?

Our primary focus is the production of cold isostatic pressing equipment for both laboratory and industrial use.

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 Types Of Fluids Can Be Used With A Heater Circulator?

Heater circulators can be used with a variety of fluids depending on the specific application requirements. Commonly used fluids include water, oils, and silicone-based fluids. Water is a popular choice due to its availability, low cost, and good heat transfer properties. Oils, such as mineral oil or silicone oil, are often used when higher temperature ranges or better heat stability are required. Silicone-based fluids are suitable for applications that involve low temperatures or require inertness. It is important to select a fluid that is compatible with the materials of construction in the heater circulator and consider the desired temperature range, heat transfer properties, and safety considerations when choosing the appropriate fluid.

What Are The Wet Bag Process And The Dry Bag Process?

The CIP molding process is divided into two methods: the wet bag process and the dry bag process.

Wet bag process:

In this method, the powder material is placed in a flexible mold bag and placed in a pressure vessel filled with high-pressure liquid. This process is ideal for producing multi-shaped products and is suitable for small to large quantities, including large-sized parts.

Dry bag process:

In the dry bag process, a flexible membrane is integrated into the pressure vessel and is used throughout the pressing process. This membrane separates the pressure fluid from the mold, creating a "dry bag." This method is more hygienic as the flexible mold does not get contaminated with wet powder and requires less cleaning of the vessel. It also features fast cycles, making it ideal for mass producing powder products in an automated process.

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.

Can A Heater Circulator Be Used For Cooling Applications?

Yes, certain models of heater circulators can also be used for cooling applications. These units are often referred to as heating and cooling circulators or temperature control systems. They feature both heating and cooling capabilities, allowing for precise temperature control within a wide range. The cooling function is achieved through a refrigeration system that circulates a coolant, such as water or refrigerant, through the system. This enables the user to cool down a process, vessel, or chamber to the desired temperature. Heating and cooling circulators are commonly used in applications that require rapid temperature changes or control over a broad temperature range, such as thermal cycling, material testing, or biological sample preservation.

How Long Is Your Delivery Time? If I Want To Customize The Instrument, How Long Does It Take?

If the items are available in stock, the delivery time is 6-12 days. We also offer customization services for our customers. The lead time for customized products varies depending on the specifications and can take between 25-55 days.
View more faqs for this product

4.9

out of

5

I'm amazed by the temperature control of this circulator. It maintains a constant temperature with incredible accuracy, ensuring the quality of my experiments.

Maxine Farrell

4.8

out of

5

The heating and cooling capabilities of this circulator are exceptional. It provides both precise heating and rapid cooling, making it a versatile tool for my laboratory.

Jordi Quintana

4.7

out of

5

The KCBH heating chilling circulator has become an indispensable tool in our laboratory. It offers reliable and efficient temperature control, ensuring the consistency of our experiments.

Olivia Nguyen

4.6

out of

5

The build quality of this circulator is impressive. It's constructed with durable materials, ensuring longevity and reliability in our demanding laboratory environment.

Samuel Andersson

4.9

out of

5

The versatility of this circulator is remarkable. It seamlessly integrates heating and cooling functions, making it suitable for a wide range of applications in our laboratory.

Isabella Garcia

4.7

out of

5

The user-friendly interface of this circulator makes it a breeze to operate. The intuitive controls allow for precise temperature adjustments and monitoring, simplifying our experimental procedures.

Alexander Cohen

4.8

out of

5

The energy efficiency of this circulator is commendable. It consumes minimal power while delivering exceptional performance, reducing our laboratory's environmental impact.

Sophia Patel

4.6

out of

5

The compact design of this circulator is a space-saver in our laboratory. It fits perfectly on our benchtop, maximizing our available workspace.

Lucas Schmidt

4.9

out of

5

The customer service provided by KINTEK SOLUTION is outstanding. They are responsive, knowledgeable, and always willing to go the extra mile to ensure our satisfaction.

Mia Rodriguez

4.7

out of

5

The fast delivery of this circulator was impressive. It arrived well-packaged and in perfect condition, allowing us to start using it immediately.

Benjamin Jones

4.8

out of

5

The value for money of this circulator is unbeatable. It offers exceptional features and performance at a competitive price, making it an excellent investment for our laboratory.

Amelia White

4.6

out of

5

The technological advancement of this circulator is evident. It incorporates state-of-the-art components and innovative design, ensuring accurate and efficient temperature control.

Oliver Brown

4.9

out of

5

The durability of this circulator is remarkable. It has withstood the rigors of our laboratory environment, providing consistent performance over an extended period.

Ava Johnson

4.7

out of

5

The quiet operation of this circulator is a pleasant surprise. It creates a peaceful and distraction-free environment in our laboratory, enhancing our focus on experiments.

Elijah Garcia

4.8

out of

5

The ease of maintenance of this circulator is commendable. It features user-friendly maintenance procedures, minimizing downtime and ensuring optimal performance.

Isabella Garcia

4.6

out of

5

The compact design of this circulator is a space-saver in our laboratory. It fits perfectly on our benchtop, maximizing our available workspace.

Alexander Cohen

4.9

out of

5

The user-friendly interface of this circulator makes it a breeze to operate. The intuitive controls allow for precise temperature adjustments and monitoring, simplifying our experimental procedures.

Sophia Patel

4.7

out of

5

The energy efficiency of this circulator is commendable. It consumes minimal power while delivering exceptional performance, reducing our laboratory's environmental impact.

Lucas Schmidt

4.8

out of

5

The fast delivery of this circulator was impressive. It arrived well-packaged and in perfect condition, allowing us to start using it immediately.

Mia Rodriguez

4.6

out of

5

The value for money of this circulator is unbeatable. It offers exceptional features and performance at a competitive price, making it an excellent investment for our laboratory.

Benjamin Jones

PDF - 80L Heating Chilling Circulator High temperature and low temperature constant temperature reaction bath

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Catalog of Cooling Circulator & Heater Circulator

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Catalog of Lab Isostatic Press Machine

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