QRL Reaktor Aliran Laminar untuk QR

LAMINAR FLOW REACTOR FOR QR - QRL

SISTEM INOVATIF

The Laminar Flow Reactor for QR, "QRL", designed by EDIBON, allows determining the kinetic equations of various reactions, such as the basic hydrolysis of ethyl acetate, and calculating key kinetic constants.

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BERITA TERKAIT

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The Laminar Flow Reactor for QR, "QRL", designed by EDIBON, allows determining the kinetic equations of various reactions, such as the basic hydrolysis of ethyl acetate, and calculating key kinetic constants. Laminar flow reactors, a variant of tubular reactors, are characterized by the movement of fluids in parallel layers with a constant velocity and without significant turbulence. Additionally, the Laminar Flow Reactor for QR, "QRL" is particularly used for demonstrating flow patterns and studying step disturbances for flow characterization and conversion in steady state.

This reactor facilitates the comparative analysis between theoretical and experimental conversion values, contributing to enhancing the understanding of chemical transformation processes. It is also used to investigate the effect of variables such as flow rate and feed concentration on steady-state conversion, as well as to study the influence of temperature on laminar flow characterization. Through visual techniques, such as color tracer tracking, the reactor’s response to different disturbances can be observed, providing valuable information on system behavior under variable conditions. In summary, the laminar flow reactor offers a versatile and precise platform for research and development in the field of chemical engineering and fluid dynamics.

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

LATIHAN DAN PRAKTEK PEDOMAN

LATIHAN PRAKTIS YANG DIANDAL TERMASUK DALAM PANDUAN

  1. Determination of the residence time distribution of the reactor.
  2. Effect of flow rate and feed concentration on the determination of flow pattern.
  3. Steady state conversion for a reaction with laminar flow.
  4. Effect of flow rate and feed concentration on the steady state conversion.
  5. Demonstration of the flow pattern in the reactor and comparison with the theoretical model.
  6. Effect of the temperature on the laminar flow characterisation.
  7. Determination of the steady state conversion of a second order reaction.
  8. Flow pattern characterisation in a laminar flow reactor.
  9. Conductivity measurement system: conductimeter.

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