97 / 2016-03-20 04:19:24
NEW INDIRECT/INVERSE FORCE ESTIMATION METHOD AND LAB SIMULATION METHOD FOR SMALL WIND TURBINE MOUNTED, BUILDING VIBRATION PREDICTION
Keywords: Lab simulation, RPM control, building vibration prediction, FEMs, validation, small wind turbine mounted, contact/excitation force.
Draft Accepted
bo ren / Coventry University
For turbine generated building vibration used in wind power industry, estimation of excitation/contact force at the connecting point between turbine and building structure is one of main concerns for Lab simulation of turbine. However the Lab simulation method aiming at achieving both accurate simulation of working environment of turbine and the corresponding vibration level prediction/quantification of building response is not available so far. The direct force measurement method was investigated and found to be practical impossible in terms of operational accessibility. In this paper a method for indirectly determining interface contact force is proposed for Lab simulated, motor replaced, free stand wall mounted building vibration prediction. Power supply for driving the turbine and rotational speed automatic control of turbine for Lab simulation were determined by the proposed method. Furthermore, the establishments of suitable FEMs with their validation achieved good prediction results within acceptable error scales.
Important Date
  • Conference Date

    May 21

    2016

    to

    May 22

    2016

  • Oct 30 2015

    Early Bird Registration

  • Mar 21 2016

    Draft paper submission deadline

  • Apr 01 2016

    Draft Paper Acceptance Notification

  • Apr 10 2016

    Final Paper Deadline

  • May 22 2016

    Registration deadline

Sponsored By
亚利桑那州立大学
查尔斯特大学
重庆环球联合科学技术研究院
韦洛尔理工大学
阿尔托大学
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