@inproceedings{ca93a5d69eda47f4badf78988e7b96fc,
title = "Experimental verification of the speed-stabilizing and power-splitting transmission mechanism for wind turbines",
abstract = "The main purpose of this article is to develop a new type transmission system that is based on a parallel-type independently controllable transmission (PT-ICT) and capable of increasing, stabilizing speed, and splitting power in a wind turbine system. The transmission system includes an input shaft, a controller shaft, a prime generator output shaft, and a buffer generator output shaft. The controller can independently manipulate the speed of prime generator output shaft that is not affected by the variation of the input speed. To perform kinematic and dynamic experiments, a prototype of PI-ICT is built. The experimental results show the consistency with the design values and the reduction of torque supply in the controller while applying the two excitation generators as a prime generator and a buffer generator. It is expected that applying the transmission system to variable speed wind turbines can obtain high quality electricity without using frequency converters and available wind speed range can be extended.",
keywords = "Parallel-type independently controllable transmission (PT-ICT), Planetary gear train, Power-splitting, Speed-increasing, Speed-stabilizing",
author = "Lin, {C. L.} and Tsay, {D. M.} and Perng, {J. W.} and Kuang, {J. H.} and Hwang, {G. S.} and Lin, {B. J.}",
year = "2015",
doi = "10.6567/IFToMM.14TH.WC.OS16.002",
language = "English",
series = "2015 IFToMM World Congress Proceedings, IFToMM 2015",
publisher = "National Taiwan University",
booktitle = "2015 IFToMM World Congress Proceedings, IFToMM 2015",
address = "台灣",
note = "14th International Federation for the Promotion of Mechanism and Machine Science World Congress, IFToMM 2015 ; Conference date: 25-10-2015 Through 30-10-2015",
}