Gudrun Mikota, Rainer Haas, Rudolf Scheidl,
"Sensor Placement in a Hydraulic Drive System"
: Proceedings of the 2022 BATH/ASME Symposium on Fluid Power and Motion Control FPMC 2022 September 14-16, 2022, University of Bath, Bath, UK., 9-2022
Original Titel:
Sensor Placement in a Hydraulic Drive System
Sprache des Titels:
Englisch
Original Buchtitel:
Proceedings of the 2022 BATH/ASME Symposium on Fluid Power and Motion Control FPMC 2022 September 14-16, 2022, University of Bath, Bath, UK.
Original Kurzfassung:
Hydraulic drive systems consist of hydraulic and mechanical components, whose dynamic behavior is coupled by fluid-structure interaction. The validation of hydraulic drive models relies on an appropriate placement of pressure and vibration sensors. Based on a vibroacoustical approximation of the model, this question can be treated by potential and kinetic energy related modal assurance criteria (POTMAC and KINMAC). In this paper, the KINMAC criterion is applied for the sensor placement problem in a hydraulic drive system. The system consists of a valve block, a pipeline with fluid-structure interaction, a double-acting cylinder, and a mass attached to the piston. Modal analysis of a distributed parameter model is carried out for theoretical assessment of the sensor placement along the pipeline. The resulting mode shapes are used to calculate the auto-KINMAC matrix, which is expected to be diagonal. The same type of assessment is made with mode shapes from a modal test. Under the limitations of the given sensor placement, the distributed parameter model is validated by the KINMAC matrix of mode shapes from theory and experiment. Based on the model, alternative sensor distributions with different sensor locations are investigated.