QRS Stirred Tank Reactors in Series for QR

STIRRED TANK REACTORS IN SERIES FOR QR - QRS

INNOVATIVE SYSTEMS

The Stirred Tank Reactors in Series for QR, "QRS", designed by EDIBON, are versatile units for the kinetic study of liquid-liquid homogeneous reactions. This type of reactor allows the outlet flow from one reactor to become the inlet flow for another, optimizing processes and enabling flexible experimentation with one, two, or three reactors, facilitating a comprehensive understanding of the process.

See general description

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General Description

The Stirred Tank Reactors in Series for QR, "QRS", designed by EDIBON, are versatile units for the kinetic study of liquid-liquid homogeneous reactions. This type of reactor allows the outlet flow from one reactor to become the inlet flow for another, optimizing processes and enabling flexible experimentation with one, two, or three reactors, facilitating a comprehensive understanding of the process.

These reactors enable a wide variety of practices, such as temperature sensor calibration, determination of ionic conductivities, and simulation of different reactor configurations.

With the ability to operate with one or up to three reactors in series, in continuous mode and with mixing effects, the "QRS" facilitates detailed analysis of the effects of reaction parameters on chemical kinetics, thus contributing to the advancement of knowledge in this field.

To work with this reactor, the Base and Service Unit, "QUS", is required, which supplies the necessary reagents and thermostatic water for proper operation.

Exercises and guided practices

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

  1. Investigation of dynamic behaviour of stirred tank reactors in series.
  2. Determination of the ionic conductivities.
  3. Influence of flow rate.
  4. Work with just one reactor in continuous.
  5. Work with just one reactor in continuous with mixture effects.
  6. Work with 3 reactors in continuous.
  7. Effect of step input change.
  8. Response to an impulse change.
  9. Investigation of time constant using dead time coil.

REQUIRED ELEMENTS

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AFTER-SALES SERVICE

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