CFGC 流体チャネル、コンピューター(PC)から制御"

COMPUTER CONTROLLED FLOW CHANNELS - CFGC

Unit: CFGC. Computer Controlled Flow Channels

COMPUTER CONTROLLED FLOW CHANNELS - CFGC

Complete CFGC unit

COMPUTER CONTROLLED FLOW CHANNELS - CFGC

Unit details

COMPUTER CONTROLLED FLOW CHANNELS - CFGC

CFGC/CIB. Control Interface Box: The Control Interface Box is part of the SCADA system

COMPUTER CONTROLLED FLOW CHANNELS - CFGC

Process diagram and unit elements allocation

COMPUTER CONTROLLED FLOW CHANNELS - CFGC

CFGC/SOF. CFGC Software. Main Screen

COMPUTER CONTROLLED FLOW CHANNELS - CFGC
COMPUTER CONTROLLED FLOW CHANNELS - CFGC
COMPUTER CONTROLLED FLOW CHANNELS - CFGC
COMPUTER CONTROLLED FLOW CHANNELS - CFGC
COMPUTER CONTROLLED FLOW CHANNELS - CFGC
COMPUTER CONTROLLED FLOW CHANNELS - CFGC

関連ニュース

概要

The Computer Controlled Flow Channels, "CFGC", are hydrodynamic channels to perform multiple hydraulic tests. They consist of a rectangular section channel with tempered glass transparent walls through which water flows. Water is impelled by a pump from the storage tank and driven to the inlet tank through the pipe. In the inlet tank there is a flow stilling device that allows for performing different experiments without hydraulic disturbances. Afterwards, water flows through the channel and is discharged into the reception tank, finally returning to the storage tanks and completing the closed circuit.

This Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), and includes: The unit itself + a Control Interface Box + a Data Acquisition Board + Computer Control, Data Acquisition and Data Management Software Packages, for controlling the process and all parameters involved in the process.

演習と指導の慣行

マニュアルに含まれるガイド付き実習

  1. Measurement of water level and speed along the channel.
  2. Flow rate measurement using sharp-crested weirs.
  3. Flow rate measurement through changes in the channel section.
  4. Flow rate measurement using Venturi flume.
  5. Flow rate control using gates.
  6. Level control using syphons.
  7. Flow over overflow weirs.
  8. Flow between the piers of a bridge.
  9. Connection of a channel to a culvert.
  10. Characterization of the hydraulic jump.
  11. Profiles of the water free surface.
  12. Manning coefficient calculation for channels with sedimentation.
  13. Comparison of the discharge coefficient in gates with or without sedimentation.
  14. Simulation of the effect of the piers of a bridge in a channel with sediments.
  15. Study of turbulences using ink.
  16. Visualization of the transitions of the sediments on the bed when abrupt discharges are generated.
  17. Dependence of the sediments shape on the flow rate variation.
  18. Study of the sediments transport and settling mechanisms.

より実用的な練習をして、ユニットを完成させる

  1. Investigation of currents and torrential floods states.
  2. Water levels measurement.
  3. Discharge process in a submergible spillway.
  4. Pressure drop in open channels.
  5. Operation and study of a syphon.
  6. Flow and discharge coefficient of a syphon.
  7. Flow in pipes.
  8. Comparison between overflow and syphon.
  9. Study of the amplitude of the hydraulic jump.
  10. Generation of different flow states using an underwater dam.
  11. Study of the discharge processes under an adjustable weir:
  • Study of alternating changes during the discharge.
  1. Relationship between backwater level and discharge level.
  2. Study of discharge under a radial gate:
  • Study of alternating changes during the discharge.
  1. Hydrostatic pressure on a weir.
  2. Study of waves.
  3. Behaviour of structures under swell conditions (in rough sea).
  4. Application and understanding of Manning formula.
  5. Study of subcritical and supercritical flows.
  6. Learning how to apply the force, momentum and energy equations in typical situations.
  7. Study of the transition from flowing current to accelerated current.
  8. Calculation of the water flow.
  9. Use of the limnimeter.

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 CFGC unit process through the control interface box without the computer.
  8. Visualization of all the sensors values used in the CFGC 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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