Optimisation of sensor position for maximum phase shift OF CU TWIN-S shape CMFS

Abstract

Modeling and simulation of twin S-shape Coriolis mass flow sensor (CMFS) for copper twin tube has been done in which phase shift is optimized. The CMFS works on the Coriolis principle in which copper tube is fitted inside the sensor. Due to vibration of tube at natural frequency, the phase shift is observed during fluid flow. Phase shift is calculated at various sensor locations and the optimized positions are being identified. Phase shift are helpful in calibrating the accurate mass flow rate and to find the optimal sensor position. Simulation is performed using ANSYS 16.2 on a model of CMFS which is modeled in CATIA V5. During this study tube material is copper and working fluid is selected as water.