The Coaxial Liquid Chiller consists of a highly efficient refrigeration mini compressor with refrigerant (R134a or R290), the smallest condenser, coaxial tube evaporator, filter drier, drive board, and other refrigeration parts. All these refrigeration parts are well integrated with one unit, sophisticated design by our skilled engineers. It does not only facilitate installation but also assures end users have the latest microcooling solutions.
Technical Data
| Model |
DV1910E-C |
| Voltage |
DC12V |
| Cooling Capacity |
130W(LBP) |
| Rated Current |
1~8A(Max 10A) |
| Compressor |
QX1901VDL |
| Refrigerant |
R134a |
| Size |
330x200x180mm(12.99x 7.87x7.08inch) |
| Condensor Fan |
92.58CFM |
| Weight |
3.0kgs (6.61lbs) |
Advantage
- Space-Efficient Design: The compact size of these chillers allows them to fit into limited workspaces, making them ideal for labs with spatial constraints.
- Precision Temperature Control: With advanced temperature regulation technology, these chillers maintain consistent cooling, which is crucial for experiments and processes requiring stability.
- Versatile Applications: Suitable for a range of uses, including biochemical assays, sample storage, and equipment cooling, they cater to various scientific and industrial needs.
- Energy Efficiency: Designed to minimize energy consumption while delivering high performance, these chillers contribute to cost savings and environmental sustainability.
Application
Coaxial Liquid Chiller List
FAQ
1. What is a Coaxial Liquid Chiller?
A coaxial liquid chiller is an efficient heat exchange device with a design where the cooling liquid flows through an inner pipe, while the cooling medium (such as refrigerant) flows through the outer pipe. This configuration allows for efficient heat exchange between the two fluids in a compact design.
2. What are the advantages of a Coaxial Liquid Chiller?
- High heat exchange efficiency: The direct contact and heat exchange between the cooling liquid and refrigerant result in high thermal efficiency.
- Compact design: The coaxial design is more compact than traditional heat exchangers, making it ideal for space-limited applications.
- Low maintenance: Simple structure reduces the risk of leaks and failures.
3. What applications are Coaxial Liquid Chillers suitable for?
Coaxial liquid chillers are widely used in:
- Industrial cooling: For equipment or processes that require precise temperature control.
- Laboratory equipment: To provide stable cooling for laboratory instruments and devices.
- Medical equipment: For cooling systems in medical devices to ensure proper operation.
- Laser systems: For cooling lasers and preventing overheating.
4. How does a Coaxial Liquid Chiller work?
The operation of a coaxial liquid chiller is based on heat exchange. The cooling liquid (such as water or liquid nitrogen) flows through the inner pipe, while the refrigerant cools the outer pipe. The refrigerant absorbs heat from the cooling liquid and releases it into the external environment. The two fluids do not come into direct contact but exchange heat through the pipe wall.
5. How do I choose the right Coaxial Liquid Chiller?
When selecting a coaxial liquid chiller, consider the following factors:
- Cooling capacity: Choose a chiller with the appropriate cooling power for your application.
- Flow rate requirements: Select a chiller with the correct flow rates for both the cooling liquid and refrigerant.
- Temperature range: Ensure the chiller can operate within the required temperature range.
- Space limitations: Coaxial chillers are suitable for space-limited environments, so consider the available installation space.
6. What maintenance and care are required for Coaxial Liquid Chillers?
The maintenance of coaxial liquid chillers is relatively simple but should include regular checks:
- Cleaning: Periodically clean the heat exchange surfaces to remove deposits and dirt, ensuring efficient heat exchange.
- Check pipes: Ensure that there are no leaks or blockages in the cooling liquid and refrigerant pipes.
- Check refrigerant: Regularly check the refrigerant pressure and charge levels to ensure they are within the proper range.
7. Are Coaxial Liquid Chillers suitable for high-pressure applications?
Coaxial liquid chillers are generally designed for medium-to-low-pressure applications. If used in high-pressure systems, they must be specifically designed and constructed with materials and components capable of handling high pressures to ensure safety and durability.
8. How do Coaxial Liquid Chillers compare to other types of chillers (such as plate heat exchangers)?
- Heat exchange efficiency: Coaxial chillers usually offer higher heat exchange efficiency, making them ideal for compact applications, while plate heat exchangers are better suited for systems that require larger surface areas.
- Compactness: Coaxial chillers are more compact, suitable for environments with space limitations, while plate heat exchangers might be larger but easier to maintain and clean.
- Maintenance: Coaxial chillers have a simpler structure and are easier to maintain, though cleaning can be more difficult in cases of fouling.
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