Wind turbine control using a gearless epicyclic transmission

2010 1st International Conference on Applied Robotics for the Power Industry Pub Date : 2010-11-09 DOI:10.1109/CARPI.2010.5624423

X. Ma, V. Chopra, S. Zargarbashi, J. Angeles

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引用次数: 1

Abstract

A recurrent problem in energy production by means of wind turbines is how to keep a constant angular velocity at the shaft driving the alternator in the presence of a randomly varying turbine angular velocity. The latter is caused by the random nature of the wind velocity. Proposed in this paper is an innovative two-degree-of-freedom mechanism, with the morphology of a differential gear train, but without gears. The latter are replaced by cam-roller pairs, which offer many advantages over gears: low friction, low backlash and much higher stiffness. The mechanism, dubbed pitch-roll wrist, was originally developed as a robotic wrist for pitch-roll generation. It is shown in the paper that the mechanism can effectively control its pitch velocity in the presence of a randomly varying angular velocity, which emulates that produced by wind on the shaft of a wind turbine. The pitch velocity, in turn, emulates that of the shaft driving the alternator. The control algorithm, based on a PID controller, was tested on an experimental testbed. Results show an effective angular velocity control.

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风力涡轮机控制采用无齿轮周转传动

在风力发电机发电中，一个反复出现的问题是如何在随机变化的涡轮角速度下保持驱动交流发电机轴的恒定角速度。后者是由风速的随机性引起的。本文提出了一种创新的两自由度机构，具有差动轮系的形态，但没有齿轮。后者被凸轮滚子副所取代，凸轮滚子副提供了许多优于齿轮的优点:低摩擦，低齿隙和更高的刚度。该机构被称为俯仰-翻滚腕，最初是作为俯仰-翻滚产生的机器人腕而开发的。仿真结果表明，在随机变化的角速度下，该机构可以有效地控制其俯仰速度，模拟了风力机轴上风产生的角速度。俯仰速度，反过来，模拟驱动交流发电机的轴。基于PID控制器的控制算法在实验台上进行了验证。结果表明，角速度控制是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 1st International Conference on Applied Robotics for the Power Industry

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