Vidya Chandran scite author profile

Vidya Chandran

5Publications

3Citation Statements Received

46Citation Statements Given

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PSG INSTITUTE OF TECHNOLOGY AND APPLIED RESEARCH, Karunya University

Publications

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Numerical Study on the Influence of Mass and Stiffness Ratios on the Vortex Induced Motion of an Elastically Mounted Cylinder for Harnessing Power

Chandran

Sekar²,

Janardhanan³

et al. 2018

Energies

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Harnessing the power of vortices shed in the wake of bluff bodies is indeed a boon to society in the face of fuel crisis. This fact serves as an impetus to develop a device called a hydro vortex power generator (HVPG), comprised of an elastically mounted cylinder that is free to oscillate in the cross-flow (CF) direction even in a low velocity flow field. The oscillatory motions in turn can be converted to useful power. This paper addresses the influence of system characteristics viz. stiffness ratio (k*) and mass ratio (m*) on the maximum response amplitude of the elastically mounted cylinder. Computational fluid dynamics (CFD) simulations have been used here to solve a two way fluid–structure interaction (FSI) problem for predicting the trend of variation of the non-dimensional amplitude Y/D with reduced velocity Ur through a series of simulations. Maximum amplitude motions have been attributed to the lowest value of m* with Ur = 8. However, the maximum lift forces correspond to Ur = 4, providing strong design inputs as well as indicating the best operating conditions. The numerical results have been compared with those of field tests in an irrigation canal and have shown reasonable agreement.

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Numerical analysis on bending and contact stress of single and double start worm drive

Mohanraj

Elangovan

Chandran

et al. 2021

Materials Today: Proceedings

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Optimization of a Hydro Kinetic Power Generator Using Genetic Algorithm

Viswanath¹,

Chandran²,

Janardhanan³

2023

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Numerical Study on Domain Independency for Prediction of Vortex Shedding Parameters of a Circular Cylinder

Chandran¹,

Janardhanan

Sekar³

2022

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Comparison of Various Turbulence Models for Efficacy in Predicting Force Coefficients and Shedding Frequency

Chandran¹,

Janardhanan²,

Villoth³

et al. 2017

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Vidya Chandran

Numerical Study on the Influence of Mass and Stiffness Ratios on the Vortex Induced Motion of an Elastically Mounted Cylinder for Harnessing Power

Numerical analysis on bending and contact stress of single and double start worm drive

Optimization of a Hydro Kinetic Power Generator Using Genetic Algorithm

Numerical Study on Domain Independency for Prediction of Vortex Shedding Parameters of a Circular Cylinder

Comparison of Various Turbulence Models for Efficacy in Predicting Force Coefficients and Shedding Frequency

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