Journal of Innovation in Mechanical Engineering
  • Year: 2019
  • Volume: 2
  • Issue: 1

CFD Method of Prediction and Validation of Operating Torque for Butterfly Valves with Various Disc Profiles

  • Author:
  • Prakash S Naragund, Veeranna B Nasi
  • Total Page Count: 5
  • Page Number: 1 to 5

Department of Mechanical Engineering, Ramaiah Institute of Technology, Bangalore, India

*pakusn@rediffmail.com

**vbnasi@msrit.edu

Online published on 27 September, 2019.

Abstract

Butterfly valves are commonly used in large municipal water supply schemes, industrial applications such as cooling water systems in thermal power stations, hydro-electric power stations etc. to control the internal flow of both compressible and incompressible fluids. A butterfly valve usually includes a metallic disc fashioned around a imperative shaft, which act as its axis of rotation. As the valve#s starting attitude, e, is improved from 0 degrees (absolutely closed) to 90 degrees (completely open), fluid is able to more simply waft beyond the valve. Characterizing a valve's overall performance elements, such as stress drop, hydrodynamic torque and hydrodynamic torque coefficient, is important for fluid system designers to account for system requirements to correctly operate the valve and save you everlasting harm from taking place. Another technique in which butterfly valve overall performance factors may be received is via the usage of Computational Fluid Dynamics (CFD) software to simulate the physics of fluid waft in a piping machine round a butterfly valve. This observe sought to evaluate experimental and simulated CFD overall performance elements of a 1400mm diameter butterfly valve for diverse valve openings and waft situations in an effort to decide the validity of using CFD to predict butterfly valve performance factors. For the assessment of the adequacy of valve operation capacity and the actuator sizing, the desired torque estimation is necessary. Since the major contributing issue of the specified torque within the mid-stroke position is hydrodynamic torque, it is necessary to expect the torque properly beneath the actual flow situations. During commencing of the butterfly valve, the fluid flows through the valve, a force is carried out to the disc through the fluid. In fashionable, as the drift charge will increase via the valve, greater force is exerted upon the disc through the fluid. These increased dynamic forces require extra torque to rotate the disc. The quantity of torque required to rotate the disc at some stage in operation varies relying on form of fluid flowing thru the valve, the velocity, the form of the disc and the position or orientation of the disc. It is high quality to lower the torque in given software. Lower torque requires a smaller actuator to operate the valve thereby saving physical size and further reducing cost. In this proposed work, the 3 important torques seating/unseating, bearing friction and hydrodynamic torque is found for disc with double offset by carrying out the experiment on a 150 NB Butterfly valve and the total torque obtained is compared using CFD simulation software and is validated. Further the double offset disc is changed to single, triple, bi-lattice and Tri-lattice and CFD analysis is carried out. Finally a correlation is established between the experimental value and the CFD values and based on this finally an empirical formula has to be arrived to find the total torque for different disc profile without carrying out experiment or CFD. Based on the correlations established between the experimental and CFD values, the Valve industry can make use of this Data for optimum selection of Gear box and Actuator.

Keywords

Pressure drop, Hydrodynamic torque, Hydrodynamic torque co-efficient, Seating/unseating, Bearing friction torque