Experiments:

Load Analysis

  • R, L, C load characteristics
  • Active energy measurement
  • Reactive energy measurement
  • Manual power factor compensation
  • Automatic power factor compensation

Hydroelectrical System

  • Generator no-load characteristic
  • Generator load characteristic
  • Regulation performances characteristics
  • Automatic synchronization
  • Reactive power regulation (Droop V/Q)
  • Pumped storage
  • Overcurrent protection
  • Over-voltage and under-voltage protection
  • Over-frequency or under-frequency protection

Wind System

  • The relation between a pitch control system and wind
  • Analysis of the mechanical parameters within an induction generator
  • Analysis of electrical parameters within an induction generator
  • Doubly-fed Induction Generator (DFIG) (optional)

Microgrid System (Solar)

  • Characterization of a photovoltaic panel without a load

Fuel Cell (optional)

  • Analyzing the efficiency of fuel cells and of the factors affecting the characteristic curve
  • Characterization of a Fuel cell with a load
  • Connecting fuel cell to the system.

Transformer

  • Vector group
  • No-load performance
  • Load performance
  • Asymmetrical performance
  • Regulation performance

Transmission

  • No-load performances
  • Matched-load performances
  • Ohmic-inductive load
  • Ohmic-capacitive load
  • Radial network
  • Meshed network
  • Transmission line earth-fault
  • Transmission line symmetrical short circuit
  • Transmission line asymmetrical short circuit
  • Transmission line earth-fault protection
  • Transmission line instant and definite time

overcurrent protection

  • Transmission line under-voltage protection

Distribution:

  • Basic double busbar system
  • Characterization of a photovoltaic panel with a load
  • Connecting a photovoltaic system to the real network by using an inverter grid system singlephase.
  • Solar power battery storage
  • Double busbar system with load
  • Busbar coupling

Smart Grid

  • Contribution of microgrid energy
  • Contribution of hydropower
  • Contribution of wind plant

A smart grid is an advanced electrical grid system that uses digital technology to monitor and manage the production, distribution, and consumption of electricity more efficiently and reliably. It integrates various innovative technologies and methods to improve the flexibility, security, and sustainability of the power supply. Here are the key components and benefits of a smart grid: