Item No.: SO2800-3Y

Interactive Lab Assistant: Energy management

The experiment instructions come in the form of an Interactive Lab Assistant course. This multimedia course is a step-by-step guide through the topic of modern energy systems. The fundamentals are conveyed using easy to understand animations. The Interactive Lab Assistant in conjunction with the SCADA Viewer constitutes a comfortable experimenting environment.

Special features:

  • Interactive experiment setups
  • Measured values and diagrams can be stored in the experiment instructions per drag and drop
  • The SCADA Viewer can be started directly from the experiment instructions
  • Includes questions with feedback and evaluation logic for progress monitoring
  • Documents can be printed out for hardcopy of experiment instructions including solutions
  • Labsoft browser, course software and SCADA Viewer

Training contents:

Complex loads, power consumption measurement and peak load monitoring

  • Three-phase consumers with star and delta connections (R, L, C, RL, RC and RLC loads)
  • Measurement with active and reactive energy meters:
  • For symmetric and asymmetric RL loads

    • In the event of a phase failure

    • In the event of over-compensation (RC load)

    • For active loads

    • In the event of energy-flow reversal

  • Determination of the first and second power maxima
  • Determination of the power maximum in the event of an asymmetric load
  • Recording of load profiles 

Dynamic loads

  • Dynamic, three-phase load (asynchronous motor)
  • Power measurement in the case of energy-flow reversal

Manual and automatic compensation of reactive power

  • Operating an asynchronous machine and recording its characteristic parameters
  • Calculating parameters for compensation capacitors
  • Compensation using various capacitors
  • Determining stage power
  • Manual compensation of reactive power
  • Automatic identification of a reactive power controller’s connections
  • Automatic compensation of reactive power
  • Course duration 14 h approx.