Tilting pad journal bearing performance is strongly affected by film pressure, thickness, temperature, and by variations in pad clearance due to thermomechanical deformations. An accurate characterization of the bearing should include multiple measurements of such quantities. In this work, the optimal positioning of sensors for film pressure, film thickness, pad temperature and pad deformations is discussed. The optimal placement is proposed by targeting the largest absolute value of each signal, considering several operating conditions of a 5-pad flooded rocker pivot bearing [1] within a virtual computational framework (Fig. 1). The proposed measurement setup aims to monitor essential quantities in the bearing while using a limited amount of sensors.
Optimal pad sensor position in a Tilting Pad Journal Bearing
Alberto Betti
Primo
;Paola Forte;Enrico Ciulli
2025-01-01
Abstract
Tilting pad journal bearing performance is strongly affected by film pressure, thickness, temperature, and by variations in pad clearance due to thermomechanical deformations. An accurate characterization of the bearing should include multiple measurements of such quantities. In this work, the optimal positioning of sensors for film pressure, film thickness, pad temperature and pad deformations is discussed. The optimal placement is proposed by targeting the largest absolute value of each signal, considering several operating conditions of a 5-pad flooded rocker pivot bearing [1] within a virtual computational framework (Fig. 1). The proposed measurement setup aims to monitor essential quantities in the bearing while using a limited amount of sensors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
