Nacelle – Wind turbine

Nacelle – Wind turbine


The station

The Nacelle – Wind turbine Training System is a complete scaled-down version of commercial wind turbine nacelles, making it an excellent substitute for expensive real-life equipment. Space efficient and affordable the machine fully interacts with users, thus enhancing the learning experience.

Fully loaded

The training system consists of a complete drive train that includes the main shaft, a gearbox with a transparent side cover, speed sensors, a hydraulic brake, and an asynchronous generator. The yaw system is fully operational and features a 61 cm (24 in) slewing bearing, a gear motor, a drive, a position sensor, and fail-safe hydraulic brakes. A manual hydraulic pump and an accumulator, as found in real-world wind turbines, are also included. A PLC controls the different functions of the nacelle and is located in an electrical enclosure together with all the other electrical components.

Simulating Reality – working for real

A wind vane and an anemometer are located in a transparent enclosure on top of the training system to monitor wind speed and wind direction. Although they are not measuring actual wind, the control system managed by the user simulates the process, causing the weather sensors to react and send signals to the control system which take the simulated parameters into account.

Generate electricity to expand learning

The Nacelle – Wind Turbine Learning System features a three-phase induction generator that can produce power. It can be considered a mechanical load unless it is connected to a grid. The optional Power generator creates such a connection, enabling the system to produce electricity. Students can then measure and monitor several actual (not simulated) electrical parameters, such as VAR, W, VA, power factor, etc.


  • ·Demonstrates how a wind turbine nacelle operates:
    – Touch-screen HMI and industrial PLC (SIEMENS)
    – Fully operational yaw system
    – Complete drive train with gearbox, main shaft, speed sensors, disk brake and generator
    – Electrical panel with frequency drives, breakers, and power supplies
    – Weather sensors to monitor wind speed and direction
  • Helps practice maintenance and troubleshooting skills in a safe environment
    – Full electrical schematics provided
    – Fault panel to enable teachers to insert faults
    – Emergency buttons and protective guards with limit switches for safe operation
  • Cost-effective, realistic training solution
    – Large-scale, proportional components perfect for an educational environment
  • Safe working environment
  • Faultable through the HMI
  • Full hands-on training with rugged equipment
  • Comprehensive curriculum and lab exercises
  • Grid-Tie prepared (add-ons required)
  • Electrical hub prepared (add-ons required)
  • Hydraulic hub prepared (add-ons required)

Technical data

  • Net weight: 417 kg
  • Hydraulic pressure range: 57 – 64 bar
  • Reservoir: 3.8 l


  • PLC: Siemens PLC ET200SP
  • HMI: Siemens SIMATIC HMI TP1500 Comfort


  • Order no.: 610874
    – Nominal Voltage: 230 V AC
  • Order no.: 610873
    – Nominal Voltage: 120 V AC
  • Order no.: 610875
    with Grid tied Power generator
    – Nominal Voltage: 208 V, 3 Ø
  • Order no.: 610876
    with Grid tied Power generator
    – Nominal Voltage :400 V, 3 Ø

CE Version
The leakage current of the Nacelle – Wind Turbine Training System is high (> 30 mA) due to its industrial components. This can cause 30 mA Residual Current Devices (RCDs) to trip. RCDs are required by certain local regulations for leakage current detection. As an alternative, it is possible to use a 300 mA RCD. User safety remains ensured due to the additional grounding cable supplied with the system. If the use of 300 mA RCDs is prohibited by local regulations, an isolation transformer is available. It is specially designed to eliminate high leakage currents and avoid the undesired tripping of RCDs. For more information, refer to the Optional Equipment section of the datasheet.


Training content

  • Nacelle Familiarization, Safety, and Control System
  • User Interface and Wind Simulation
  • Gearbox, Coupling, and Alignment
  • Basic Hydraulic Circuit
  • Hydraulic Brakes
  • Electrical Circuit and Panel
  • Troubleshooting





Ulteriori informazioni.