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    Home > Active Ingredient News > Drugs Articles > Features and working principle of high borosilicate glass reactor

    Features and working principle of high borosilicate glass reactor

    • Last Update: 2022-05-03
    • Source: Internet
    • Author: User
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    High borosilicate glass reaction kettle models include GR series conventional type, GRL series lifting type, GRS series stainless steel type, GRSL series stainless steel lifting type, mainly used for experiments such as material synthesis, distillation, concentration, etc.
    , kettle body, kettle cover, discharge system It can be customized, and can be equipped with explosion-proof type.
    It is mostly used for experiments, pilot tests and production of new materials in chemistry, fine chemicals, and biopharmaceuticals
    .

    The high borosilicate glass reactor is mainly controlled by adjusting the constant pressure funnel or the regulating valve on the feeding bottle to control the uniform dropwise addition of the material, and the heat exchange function of the condenser is used to distill and recover the reaction product, which is used for the synthesis, distillation and concentration of the pilot-scale materials.
    Wait for the experiment
    .

    There are three types of kettle bodies: single-layer, double-layer and three-layer
    .

    It is often combined with high temperature / low temperature / constant temperature circulator, high and low temperature circulation device, diaphragm vacuum pump, and circulating water type multi-purpose vacuum pump to meet production needs
    .

     The working principle of the high borosilicate glass double-layer reaction kettle is through the interlayer of the double-layer reaction kettle, injecting high temperature or low temperature (heating or cooling) circulating liquid, heating or cooling the materials in the reactor at a constant temperature, and the materials are reacted (decomposed) in the reactor and compound)
    .

    And can control the speed of evaporation, reflux and collection of the reaction bath.
    After the reaction is completed, the residue in the kettle is released from the discharge port at the bottom of the kettle, and the operation is extremely convenient
    .

    It is the main equipment for modern chemical sample experiments and synthesis of new biopharmaceutical materials
    .

    The inner container of this series of double-layer glass reactors can place the reaction material at the same time, and at the same time, it can be vacuumized and stirred at a speed, so that the reaction material can be gasified and evaporated under reduced pressure to concentrate and purify the material
    .

    The interlayer can introduce freezing liquid, water and high temperature liquid (used alternately according to the program) to heat up or cool the material
    .

       Technical Features of Borosilicate Glass Double Layer Reactor ● High borosilicate glass material 3.
    3, with excellent physical and chemical properties
    .

       ● It can be used in the range of high temperature (200℃) to low temperature (-80℃); ● It can work under normal pressure and negative pressure, and the vacuum degree can reach 0.
    095MPa; ● The inlet and outlet of the jacket are connected to stainless steel for heat preservation Hose to eliminate the stress of liquid inlet and outlet; ● Teflon+FV rubber material cock or non-fluid discharge valve; "O" ring with tetrafluoroethylene protective layer; ● The main frame material is SUS304+ carbon structural steel Plastic spray + aluminum plate 6061-F spray plastic, strong corrosion resistance; ● The blade of the stirring paddle is made of PTFE material; the stirring shaft is made of SUS304, covered with PTFE, which has high strength and strong corrosion resistance
    .

       High borosilicate glass reactors are used in university laboratories for heating/cooling of reaction materials, experimental synthesis, catalysis or chemical reactions under other inert gas conditions, etc.
    ; in energy, they are used for fuel cells, catalytic reactions, filtration and washing, etc.
    ; In biomedicine, it is used for chemical synthesis, reflux, distillation, concentration, crystallization, extraction, etc.
    , and can be used with constant temperature circulator; in cosmetics, it is used for material dispersion, emulsification, homogenization, mixing, extraction, etc.
    ; in petrochemical industry It is used for solvent recovery, single-component distillation, multi-component fractionation, rectification purification or chemical synthesis,
    etc.

     
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