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150-200L Customizable Laboratory Jacketed Chemical Glass Reactor

When it comes to laboratory experiments, precision, control, and safety are paramount. One crucial piece of equipment that enables researchers and scientists to achieve these goals is the jacketed chemical glass reactor. If you are on the lookout for a versatile, efficient, and customizable solution for your laboratory, then look no further than the 150-200L customizable laboratory jacketed chemical glass reactor.

    What is a Jacketed Glass Reactor?

    Before delving into its specific features, it's important to understand the jacketed glass reactor itself. At its core, a jacketed glass reactor consists of a glass vessel that is surrounded by a cooling or heating jacket. This setup allows for precise control over the temperature of the vessel's contents, making it ideal for a wide range of chemical processes.

    Design Features of 150-200L customizable reactor

    What sets the 150-200L customizable laboratory jacketed chemical glass reactor apart is its adaptability to a myriad of lab setups and experimental requirements. With a generous capacity of 150-200L, this reactor offers ample space to accommodate various substances, ensuring flexibility and scalability in your laboratory endeavors. Moreover, the customizable nature of the reactor allows for tailored adjustments to meet specific research needs, making it a standout choice for many researchers and scientists.

    Application of 150-200L customizable reactor

    The versatility of this reactor extends to its applications in laboratory settings. From pharmaceutical research to chemical synthesis and beyond, the 150-200L customizable laboratory jacketed chemical glass reactor plays a pivotal role in facilitating a broad spectrum of scientific pursuits. Its ability to maintain precise temperature control, coupled with its generous capacity, makes it an indispensable tool for processes requiring accuracy and reliability.

    Quick Details

    Capacity 150L-200L
    Automatic Grade Automatic
    Type Reaction Kettle
    Core Components: Engine, Motor
    Glass Material: High Borosilicate Glass 3.3
    Working Temperatur: -350
    Heating Method: Thermal Oil Heating
    After Warranty Service: Online support

    Product Attribute

    Product Modle FPGR-150 FPGR-200
    Volume(L) 150 200
    Neck No.on Cover 6 6
    External Diameter of Inner Vessel(mm) 550 600
    External Diameter of Outer Vessel(mm) 600 650
    Cover Diameter(mm) 340 340
    Vessel Height(mm) 980 1200
    Motor Power(w) 750 750
    Vacuum Degree(Mpa) 0.098 0.098
    Rotation Speed(rpm) 50-600 50-600
    Torque(Nm) 11.9 11.9
    Power(V) 220 220
    Diamension(mm) 1200*900*3000 1200*900*3200

    Advantages of 150-200L customizable reactor

    What advantages does this reactor offer? For starters, its robust design and customizable features ensure that it can adapt to varying experimental requirements. This adaptability makes it an ideal choice for researchers who seek versatility without compromising on performance. Furthermore, the precise temperature control provided by the jacketed design enhances the reproducibility and accuracy of experiments, contributing to more reliable results.

    Choosing the Right Size of 150-200L customizable reactor

    When considering a glass reactor, selecting the right size is crucial. Factors such as the volume of substances used, experimental scale, and space available should all be taken into account. The 150-200L capacity strikes a balance between accommodating significant quantities of materials and fitting within standard laboratory setups, making it a versatile choice for various research needs.

    Setting Up of 150-200L customizable reactor

    To make the most of this reactor, proper setup and maintenance are essential. Starting with a thorough inspection upon arrival, followed by setting up the necessary connections and tweaking the settings, ensuring that the reactor operates optimally is key to obtaining consistent and reliable results.

    Safety Measures of 150-200L customizable reactor

    Safety should always be a top priority in laboratory settings. Implementing appropriate safety measures, including the use of protective gear, ensuring a well-ventilated environment, and understanding emergency protocols, is crucial for safe operation of the glass reactor. Regular maintenance checks and prompt troubleshooting of any issues also contribute to a safe laboratory environment.

    Cleaning of 150-200L customizable reactor

    Maintaining a clean reactor is not only essential for prolonging its lifespan but also for ensuring the integrity of experimental results. Proper cleaning procedures, using suitable cleaning agents, are imperative to remove residues and contaminants that could interfere with subsequent experiments.

    Maintenance of 150-200L customizable reactor

    Regular upkeep and maintenance of the glass reactor are integral to its longevity and high performance. This includes periodic checks of components, ensuring seals and connections are intact, and verifying the functionality of various controls. Diligent maintenance not only enhances the longevity of the reactor but also contributes to the consistency and reproducibility of experiments.

    Troubleshooting of 150-200L customizable reactor

    Despite the reactor's robust design, issues may arise during operation. Familiarizing yourself with common problems and their quick solutions - such as leaks, temperature fluctuations, or electrical malfunctions - empowers you to swiftly address these challenges, minimizing downtime and potential experimental disruptions.

    Comparison of 150-200L customizable reactor

    In comparison to alternative reactor types, the customizable laboratory jacketed chemical glass reactor offers distinct advantages, particularly in its flexibility, scalability, and precise temperature control. Its adaptability to a range of experimental setups sets it apart as a versatile choice for numerous research applications, making it a standout option in the realm of laboratory equipment.

    Cost-effectiveness of 150-200L customizable reactor

    Considering its versatility, performance, and long-term reliability, the 150-200L customizable laboratory jacketed chemical glass reactor stands out as a cost-effective investment for research facilities. Its customizable features, coupled with its ability to facilitate a broad spectrum of laboratory experiments, make it a valuable asset in the pursuit of scientific discovery.

    In conclusion, the 150-200L customizable laboratory jacketed chemical glass reactor embodies adaptability, precision, and reliability, meeting the diverse needs of modern laboratories. Its customizable features, robust design, and precise temperature control make it a standout choice for researchers and scientists looking to elevate their experimental capabilities. Whether you're delving into pharmaceutical research, chemical synthesis, or any other scientific pursuit, this reactor is poised to become an indispensable asset in your laboratory toolkit.


    1. How do I choose the right size for my laboratory glass reactor?
    - Consider factors such as the volume of substances used, experimental scale, and available space when selecting the reactor size.

    2. What are the key safety measures for operating a laboratory glass reactor?
    - Implement appropriate safety protocols, use protective gear, ensure a well-ventilated environment, and conduct regular maintenance checks.

    3. What are the advantages of a customizable glass reactor over standard models?
    - Customizable reactors offer adaptability to varying experimental requirements, allowing researchers to tailor adjustments to meet specific research needs.

    4. How can I maintain and clean my laboratory glass reactor?
    - Regular upkeep and proper cleaning using suitable agents are crucial for maintaining the integrity and performance of the glass reactor.

    5. What makes the 150-200L customizable laboratory jacketed chemical glass reactor a cost-effective investment?
    - Its adaptability, performance, and long-term reliability make it a valuable asset for research facilities, offering a cost-effective solution for diverse laboratory experiments.