Abstract
The structure displacement of the raft of vibration isolation for ships is an important factor that affects shafting alignment accuracy and the safety of the equipment on the raft. In order to realize real-time monitoring of the raft structure displacement, which is the uncertain loadings and complex in shape, a measuring point placement strategy and an online monitoring method based on the displacement parameters to identify the displacement of the raft are proposed. FEM-based simulations for a prototyped raft have been conducted to obtain the displacement contour map. According to the displacement contour map based on displacement gradient and index evaluation, the measuring points have been combined and optimized. Displacement reconstruction principle based on a surface spline interpolation function method has been elaborated and derived. Structure displacement at any point can be obtained by a few measuring points. Finally, a case study of a certain type of floating raft is analyzed by the simulation analysis, and experimental research. The simulation and experimental results verify the validity of the measuring point placement strategy and the average of relative error with a value of less than 4% under different uncertain loadings. This method can effectively solve the problem of online monitoring of floating raft structure displacement under different changing loadings.
Highlights
The raft vibration isolating device is widely used in the ship to achieve efficient vibration isolation of Marine power plant.[1]
This paper proposes a fitness function as an evaluation index for the layout of measuring points
The response value of the unplaced measuring points is obtained through spline interpolation, and the ability of sensors in each optimized layout to sense structural deformation is evaluated
Summary
The raft vibration isolating device is widely used in the ship to achieve efficient vibration isolation of Marine power plant.[1]. Keywords Optimal layout of measuring points, floating raft, structural displacement, different loads, online monitoring
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