风力涡轮机模拟器Wind-turbine simulator（WFD800PLUS）

Wind-turbine simulator（WFD800PLUS）风力涡轮机模拟器（valenian）

WFD800plus风力涡轮机故障测试平台专为模拟和测试风力发电系统中各种常见的机械和电气故障而开发。该平台可进行并联齿轮箱、行星齿轮箱、滚动轴承、发电机故障、传感器故障等模拟，帮助研究人员和技术开发人员更深入地了解故障特征和影响。The WFD800plus wind turbine fault testing platform is developed for simulating and testing various common mechanical and electrical faults in wind power generation systems. Parallel gearboxes, planetary gearboxes, rolling bearings, generator fault simulation, sensor faults, etc. can be conducted to enable researchers and technical developers to gain a deeper understanding of fault characteristics and impacts.

故障诊断研究：为故障诊断技术研究提供实验平台，通过采集试验台在故障条件下的各种数据，例如电信号、机械振动信号、温度信号等，开发和验证故障诊断算法和方法。

维护培训：可用于培训风电运维人员，使其在模拟故障环境中进行操作实践，熟悉故障诊断和维护流程，提高维护技能和应对实际故障的能力。

优化设计：通过模拟不同的故障情况，分析系统的薄弱环节，为风力发电系统的优化设计提供依据，改进系统结构和控制策略，提升系统的可靠性和容错能力。

教学演示：在教学中，帮助学生直观地了解风力发电系统的工作原理、故障产生机理及处理方法，提升学生的实践能力和专业知识的掌握。

功能

针对常见的转子机械故障，例如轴不对中、转子不平衡、机械基础松动等进行模拟实验。

可选配激光对中装置，用于精确的轴对中和对中测试。

平行轴齿轮箱失效机理研究：直齿的不同失效形式，例如点蚀、磨损、裂纹和断裂。

可根据具体需求定制缺齿、缺齿等常见故障。

滚动轴承故障研究：齿轮箱内部轴承及支撑轴承的各种故障形式，例如轴承内圈故障、轴承外圈故障、轴承保持架故障、轴承滚动体故障以及轴承综合故障。

行星齿轮箱故障研究：太阳轮、行星轮、大齿圈故障类型：缺齿、磨损、断齿、裂纹；

发电机故障研究：此外，还可以选择不同类型的故障发电机，并结合电流和电压传感器，研究发电机转子故障、发电机转子不平衡故障、发电机轴承故障、发电机转子断条故障、发电机匝间短路故障。

The WFD800plus wind turbine fault testing platform is developed for simulating and testing various common mechanical and electrical faults in wind power generation systems. Parallel gearboxes, planetary gearboxes, rolling bearings, generator fault simulation, sensor faults, etc. can be conducted to enable researchers and technical developers to gain a deeper understanding of fault characteristics and impacts.

Research on Fault Diagnosis: Providing an experimental platform for the study of fault diagnosis technology, developing and verifying fault diagnosis algorithms and methods by collecting various data from the test bench under fault conditions, such as electrical signals, mechanical vibration signals, temperature signals, etc.

Maintenance training: It can be used to train wind power operation and maintenance personnel, allowing them to practice operations in simulated fault environments, familiarize themselves with fault diagnosis and maintenance processes, improve maintenance skills and the ability to respond to actual faults.

Optimization design: By simulating different fault situations, analyzing the weak links of the system, providing a basis for the optimization design of wind power generation systems, improving the system's structure and control strategies, and enhancing the system's reliability and fault tolerance.

Teaching demonstration: In teaching, help students intuitively understand the working principle, fault generation mechanism, and handling methods of wind power generation systems, enhance their practical ability and mastery of professional knowledge.

function

Conduct simulation experiments on common rotor mechanical faults, such as shaft misalignment, rotor imbalance, and loose mechanical foundations.

An additional optional laser centering device is used for precise axis alignment and alignment testing.

Research on the Failure Mechanism of Parallel Shaft Gearboxes: Different Failure Forms of Straight Teeth, such as pitting, wear, cracks, and breakage

Common faults such as missing teeth and missing teeth can be customized according to specific needs.

Research on Rolling Bearing Faults: Different forms of faults in the internal bearings and supporting bearings of gearboxes, such as bearing inner ring faults, bearing outer ring faults, bearing cage faults, bearing rolling element faults, and comprehensive bearing faults.

Research on planetary gearbox faults: sun gear, planetary gear, large ring gear, fault types, missing teeth, wear, broken teeth, cracks;

Generator fault research: In addition, different types of faulty generators can be selected and combined with current and voltage sensors to study generator rotor, generator rotor imbalance faults, generator bearing faults, generator rotor bar breakage faults, generator turn to turn short circuit faults