TICC/SS Computer Controlled Heat Exchangers Basic Unit

COMPUTER CONTROLLED HEAT EXCHANGERS BASIC UNIT - TICC/SS

INNOVATIVE SYSTEMS

The Computer Controlled Basic Heat Exchangers Unit (TICC/SS) has been designed by Edibon to study and compare different types of small-scale heat exchangers working with parallel or counterflow arrangements.

See general description

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General Description

The Computer Controlled Basic Heat Exchangers Unit (TICC/SS) has been designed by Edibon to study and compare different types of small-scale heat exchangers working with parallel or counterflow arrangements.

The complete unit consists of two main elements: the service base unit and a heat exchanger.

The Basic Service Base Unit (TIUS/SS) is common for the optional "/SS" type heat exchangers. Its functions are:

  • Heating water in a computer controlled thermostatic bath.
  • Pumping the hot water.
  • Regulation and measurement of the cold water and hot water flows.
  • Measurement of the inlet and outlet temperatures of the cold water and the hot water.
  • Measurement of the pressure drop in the exchanger.

To supply cold water there are two options: tap water or our recommended element, the Refrigeration Water Recirculation Unit "TERA".

Accessories

Exercises and guided practices

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

Practices to be done with the Basic Concentric Tube Heat Exchanger (TITC/SS):

  1. Global energy balance in the heat exchanger and the study of losses.
  2. Exchanger effectiveness determination. NTU Method.
  3. Study of the heat transfer under counter-current and co-current flow conditions.
  4. Flow influence on the heat transfer. Reynolds number calculation.
  5. Study of the pressure drop in the exchanger.
  6. Control system: Temperature sensors calibration.
  7. Control system: Flow sensors calibration.

Practices to be done with the Basic Plate Heat Exchanger (TIPL/SS):

  1. Global energy balance in the heat exchanger and the study of losses.
  2. Exchanger effectiveness determination. NTU Method.
  3. Study of the heat transfer under counter-current and co-current flow conditions.
  4. Flow influence on the heat transfer. Reynolds number calculation.
  5. Study of the pressure drop in the exchanger.
  6. Control system: Temperature sensors calibration.
  7. Control system: Flow sensors calibration.

Practices to be done with the Basic Shell and Tube Heat Exchanger (TICT/SS):

  1. Global energy balance in the heat exchanger and the study of losses.
  2. Exchanger effectiveness determination. NTU Method.
  3. Study of the heat transfer under counter-current and co-current flow conditions.
  4. Flow influence on the heat transfer. Reynolds number calculation.
  5. Study of the pressure drop in the exchanger.
  6. Control system: Temperature sensors calibration.
  7. Control system: Flow sensors calibration.

Practices to be done with the Basic Stirred-Tank Heat Exchanger with Double Jacket and Coil (TIVES/SS):

  1. Global balance of energy in the tank heat exchanger with double jacket and losses study.
  2. Global balance of energy in the the tank heat exchanger with coil and losses study.
  3. Determination of the exchanger effectiveness. NTU Method.
  4. Influence of the flow on the heat transfer. Calculation of the number of Reynolds.
  5. Influence of the vessel stirring on the heat transfer when operating in batches.
  6. Influence of the vessel's water volume on the heat transfer when operating in batches.
  7. Study of the pressure drop in the exchanger.
  8. Control system: Temperature sensors calibration.
  9. Control system: Flow sensors calibration.
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MORE PRACTICAL EXERCISES TO BE DONE WITH THE UNIT

Additional practical possibilities

  1. Study of the hysteresis of the flow sensor.

Other possibilities to be done with this Unit:

  1. Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.
  2. Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and/or extrinsically to change the span, gains, proportional, integral, derivative parameters, etc, in real time.
  3. The Computer Control System with SCADA and PID Control allow a real industrial simulation.
  4. This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.
  5. This unit can be used for doing applied research.
  6. This unit can be used for giving training courses to Industries even to other Technical Education Institutions.
  7. Control of the TICC/SS unit process through the control interface box without the computer.
  8. Visualization of all the sensors values used in the TICC/SS unit process.
  9. By using PLC-PI additional 19 more exercises can be done.
  10. Several other exercises can be done and designed by the user.

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