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[Wind Power Engineering Technology] 2.Wind Turbine Installation and Commissioning
#ICT# #IOT#

Lesson Code: TCEN2025H035

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Academic Hours
4.90hours
Publish Date
Dec 2025

Lecturer

1. Lecturer TONG CaixiaXilingol Vocational College

2. Lecturer AmugulengXilingol Vocational College

3. Lecturer ZHAO GuodongXilingol Vocational College

4. Lecturer JIN FengXilingol Vocational College

5. Lecturer HAO WenyouXilingol Vocational College

6. Lecturer GerilisibudaXilingol Vocational College

7. Lecturer SU LonggaXilingol Vocational College

8. Lecturer BAO XiulanXilingol Vocational College

General Introduction
This course is designed to cultivate trainees’ competencies in the installation and commissioning of wind turbine systems. The course primarily covers the fundamental concepts
and methods of workshop installation, commissioning, and troubleshooting of wind turbine units, as well as on-site hoisting, commissioning, and fault diagnosis and resolution of wind power systems.

This Course is for
1. Helping trainees master the structure and working principles of mechanical and electrical components in wind turbine systems.
2. Enabling trainees to become familiar with the installation processes of mechanical components in wind turbine systems.
3. Guiding trainees to understand the installation processes of electrical components in wind turbine systems.
4. Developing trainees’ ability to conduct inspection, commissioning, and fault diagnosis of various components of wind turbine systems.
5. Laying a solid foundation for further study of integrated courses in Wind Power Engineering Technology.

Learning Materials

1. Corresponding PPT
2. Online Course Video
3. Simulation Question Banks

Recognized By

Benefits of Learning

1. Being able to master the structure and operating principles of wind turbine systems, and to understand the installation procedures and technical standards of major components.
2. Capable of completing the installation and commissioning of mechanical systems in wind power equipment, including blades, hubs, gearboxes, and generators, in accordance with process requirements.
3. Being proficient in installing electrical systems of wind turbines, including wiring, parameter configuration, and functional testing of converters, control systems, and sensors.
4. Being familiar with the commissioning procedures of wind turbines and able to perform startup, grid connection testing, and operational monitoring according to standard operating procedures.
5. Knowing common fault diagnosis methods and being able to perform preliminary analysis and handling of mechanical, electrical, or control system faults based on technical manuals.
6. Being equipped with a strong sense of safety awareness and strictly complying with safety regulations for working at heights, hoisting operations, and electrical procedures.

Courses Videos
1.1.1 Structure and Principle of Electric Pitch System.mp4play1.2.1 Installation Process of pitch bearings.mp4play1.2.2 Pitch Bearing Installation - Practical Operation.mp4play1.3.1 Installation process of pitch reducer and pitch drive gear.mp4play1.3.2 Pitch Drive Assembly Installation - Practical Operation.mp4play1.4.1 Working Principle of Pitch Encoder.mp4play1.4.2 Installation of Pitch encoder.mp4play1.5.1 Structure and Working Principle of Slip Rings.mp4play1.5.2 Hoisting Slip Ring - Practical Operation.mp4play1.6.1 Electrical System of Pitch Cabinet.mp4play1.6.2 Reading the schematic diagram of the variable pitch electrical cabinet.mp4play1.7.1 Installation of electrical circuits for pitch cabinet.mp4play1.8.1 Manual debugging of the pitch system.mp4play1.8.2 Typical Faults and Handling of Pitch System.mp4play1.8.3 Pitch System Debugging - Practical Operation.mp4play1.9.1 Installation of the Deflector - Practical Operation.mp4play2.1.1 Structure and Principle of Yaw System.mp4play2.2.1 Installation of Yaw bearings.mp4play2.2.2 Yaw Bearing Installation - Practical Operation.mp4play2.3.1 Yaw system braking device.mp4play2.3.2 Yaw Brake System Installation - Practical Operation.mp4play2.4.1 Installation of Yaw reducer.mp4play2.5.1 Yaw motor installation.mp4play2.5.2 Yaw Drive Assembly Installation - Practical Operation.mp4play2.6.1 Yaw electrical System.mp4play2.7.1 Connection and Installation of yaw electrical control circuits.mp4play2.7.2 Cabin Cabinet Wiring - Practical Operation.mp4play2.8.1 Yaw system debugging.mp4play2.9.1 Installation of the cabin hood body components.mp4play2.9.2 Installation of factory components in the cabin.mp4play3.1.1 Safety Operation Specifications for Fan Hoisting.mp4play3.1.2 Preparations before Installation.mp4play3.2.1 Unloading and storage of tower cylinders.mp4play3.2.2 Tower Installation.mp4play3.2.3 Tower Cylinder Hoisting - Practical Operation.mp4play3.2.4 Middle (Part 1) Tower Cylinder Hoisting - Practical Operation.mp4play3.3.1 Cabin Overview.mp4play3.3.2 Engine room hoisting.mp4play3.3.3 Engine Room Hoisting - Practical Operation.mp4play3.4.1 Overview of the Impeller.mp4play3.4.2 Impeller Hoisting.mp4play3.4.3 Wind Turbine Hoisting - Practical Operation.mp4play3.4.4 Blade Hoisting - Practical Operation.mp4play4.1.1 Preparation of tower cable.mp4play4.2.1 Commissioning of the wind turbine complete machine workshop.mp4play4.2.2 On-site commissioning of wind turbine units as a whole.mp4play

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