Positional optimisation of twin-S shape CMFS in stainless steel tube

Abstract

Modelling and simulation of atwin S-shape coriolis mass flow sensor within a stainless tube to determine the optimum phase-shift is the main focus of this study. The mass flow sensor is positioned inside a stainless steel tube. To measure the mass flow rate CMFS is placed inside the tube. The interlinkage within the fluid flow and vibration results in phase shift owing to the twist shape. Optimized sensor position is obtained by computing the mass flow rate and calculating phase shift at varied sensor arrangements within the tube. The modelling of the Coriolis mass flow sensor is done using version 5 of CATIA and ANSYS version 16.2 was used for simulation. The simulation for the System coupling is run for the material with flow velocities taken as 20 m/sec. The displacement is calculated at the different sensor positions. ThE optimized design can be further tested under different suitable conditions and improves the efficiency of the product.