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Laboratory Standard Type Heating And Cooling Circulator

In laboratories, precise temperature control is of utmost importance for a wide range of applications. Whether it is research and development, pharmaceuticals, or quality control processes, maintaining specific temperature conditions is vital for accurate results. This is where laboratory standard type heating and cooling circulators play a crucial role.

    How do heating and cooling circulators work?

    Laboratory standard type heating and cooling circulators are advanced temperature control systems designed specifically for laboratory environments. These circulators utilize a combination of heaters and coolers to regulate the temperature of liquids within a laboratory vessel. The circulator pumps the fluid through the vessel, helping to maintain a consistent temperature.

    Quick Details

    Voltage 2KW-20KW
    Control Precision ±0.5
    Automatic Grade Automatic

    Product Attribute

    Product Modle JLR-05 JLR-10 JLR-20/30 JLR-50 JLR-100 JLR-150
    Temperature Range(℃) -25℃~200℃ -25℃~200℃ -25℃~200℃ -25℃~200℃ -25℃~200℃ -25℃~200℃
    Control Precision(℃) ±0.1 ±0.1 ±0.1 ±0.1 ±0.1 ±0.1
    Volume within Controlled Temperature(L) 5.5 5.5 5.5 6 8 10
    Cooling Capacity 1500~5200 2600-8100 3500-1200 8600-4000 13kw-3.5kw 15kw-4.5kw
    Pump Flow(L/min) 42 42 42 42 42 56
    Lift(m) 28 28 28 28 28 38
    Supporting Volume(L) 5 10 20/30 50 100 150
    Dimension(mm) 360x550x720 360x550x720 600x700x970 600x700x1000 650x750x1070 650x750x1360

    Temperature range and precision

    One of the key features of laboratory standard type heating and cooling circulators is their wide temperature range. These circulators can typically achieve temperatures ranging from -25°C to +200°C, allowing for precise control over a broad spectrum of applications. Moreover, they offer high temperature stability and control within a few degrees of the set temperature.

    Pump capacity and circulation rate

    Heating and cooling circulators are equipped with powerful pumps that ensure efficient circulation of the temperature-controlled fluid. The pump capacity and circulation rate vary among different models, enabling users to select circulators based on their specific needs. The faster the rate of circulation, the quicker the temperature equilibrium within the vessel.

    Safety features and monitoring capabilities

    Laboratory standard type heating and cooling circulators come with various safety features to safeguard laboratory processes and personnel. These features may include over-temperature protection, low liquid level detection, and alarms. Additionally, most circulators incorporate monitoring capabilities such as digital temperature displays and programmable controllers for precise control and monitoring.

    Applications and Benefits

    Heating and cooling circulators find applications in diverse fields within laboratory settings:

    1. Research and development: In scientific research, laboratory standard type circulators are utilized to maintain controlled temperatures during experiments, ensuring reliable and reproducible results.

    2. Pharmaceutical and chemical industries: The pharmaceutical and chemical industries rely on heating and cooling circulators for processes like drug development, chemical synthesis, and sample preparation. Precise temperature control facilitates the synthesis of complex chemical compounds.

    3. Testing and quality control processes: Industrial laboratories employ heating and cooling circulators to test materials and products for various parameters, ensuring compliance with quality standards. These circulators aid in environmental testing, material characterization, and calibration processes.

    Benefits of precise temperature control include:
    - Improved experimental reproducibility
    - Enhanced product quality and consistency
    - Accelerated reaction rates and reduced process times

    Choosing the Right Circulator

    When selecting a laboratory standard type heating and cooling circulator, several factors need consideration:

    Temperature range and stability requirements
    - Assess the temperature range required for your specific application.
    - Consider the required temperature stability and precision to meet experimental needs.

    Pump capacity for circulation needs
    - Analyze the volume and characteristics of the fluid being circulated.
    - Ensure the circulator's pump capacity meets the circulation requirements.

    Integration with laboratory equipment
    - Evaluate compatibility with existing laboratory tools or instruments.
    - Consider the availability of communication protocols for integration.

    Energy efficiency and environmental considerations
    - Opt for circulators with energy-saving features and environmentally friendly refrigerants.
    - Efficient models contribute to cost reduction and lower environmental impact.

    Installation and Setup

    Before installation, the following steps should be considered:

    Positioning and space requirements
    - Plan the location and ensure sufficient space for the circulator, taking into account access for maintenance.

    Electrical and plumbing connections
    - Follow manufacturer guidelines for electrical and plumbing connections.
    - Ensure proper grounding and adhere to safety standards.

    Calibration and temperature settings
    - Calibrate the circulator according to the manufacturer's instructions.
    - Configure the desired temperature settings based on the experiment's requirements.

    Maintenance and Troubleshooting

    To ensure optimal performance and longevity, regular maintenance is essential:

    Regular maintenance procedures
    - Clean the circulator and ensure vent and air filters are free from debris.
    - Inspect and replace worn-out parts, such as seals and gaskets, as recommended by the manufacturer.

    Common troubleshooting tips
    - Check for leaks in the circulation system and repair if necessary.
    - Verify power supply and connections in case of malfunctions.
    - Refer to the user manual or contact manufacturer support for specific troubleshooting guidance.

    Comparison of Laboratory Standard Type Heating and Cooling Circulators

    It's essential to compare different models and specifications when selecting a heating and cooling circulator. Consider factors like:
    - Temperature range and precision
    - Pump capacity and circulation rate
    - Energy efficiency and environmental impact
    - Safety features and monitoring capabilities


    Laboratory standard type heating and cooling circulators are indispensable tools that enable precise temperature control in a laboratory environment. Their functionality, features, and wide range of applications make them vital for research, development, and quality control processes. By choosing the right circulator and following proper installation and maintenance procedures, laboratories can ensure accurate, reproducible, and efficient experiments.

    FAQs

    1. What is the difference between a heating and cooling circulator and a water bath?
    - Unlike a water bath that provides a fixed temperature, a heating and cooling circulator offers precise temperature control and stability over a wide range. It also facilitates faster temperature equilibration due to active circulation.

    2. Can a heating and cooling circulator maintain a constant temperature for extended periods?
    - Yes, laboratory standard type heating and cooling circulators are designed to provide consistent temperature control over extended periods of time. However, regular maintenance and calibration are essential to ensure optimal performance.

    3. Are laboratory standard type heating and cooling circulators suitable for small-scale experiments?
    - Absolutely! Heating and cooling circulators are available in various sizes, making them suitable for both small-scale and large-scale experiments. It's important to select a circulator with an appropriate pump capacity for the desired circulation needs.

    4. Can the circulator be used with different types of fluids?
    - Yes, laboratory standard type heating and cooling circulators can be used with various fluids, including water, oils, and other temperature-compatible liquids. Different circulator models may have specific recommendations for optimal fluid types.

    5. What safety precautions should be followed when using a heating and cooling circulator?
    - Always follow the manufacturer's instructions and safety guidelines provided with the circulator. This includes proper electrical grounding, regular maintenance, and regular checks for leaks or malfunctions. Avoid exposing the circulator to extreme environments or operating it near flammable materials.

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