An Adaptively-damped Compressible-liquid Model for Non-cavitating Hydraulic Surges

Chandran, R. Jishnu; Raju, Reni; Salih, A.

doi:10.5829/ije.2020.33.10a.23

IJE

2020

DOI: 10.5829/ije.2020.33.10a.23

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An Adaptively-damped Compressible-liquid Model for Non-cavitating Hydraulic Surges

R. Jishnu Chandran

Reni Raju

A. Salih

Abstract: This research presents a compact and computationally-efficient two-equation compressible-liquid model. The model is specifically developed for the numerical computation of hydraulic surges in pipes under high fluid pressure where cavitation is absent. The proposed model aims to simplify the threeequation model of Neuhaus et al. for two-phase cavitational hammers. Compressible effects in liquid during the transients are considered by including a suitable equation of state into the model. A tunable function of t… Show more

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2021

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The Adaptive Damping Technique: Improving the Simulation Accuracy of Hydraulic Transients

Salih

2021

Int J Math, Eng, Manag Sci

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Hydraulic surges are transient events frequently observed in various industrial and laboratory flow situations. Understanding surge physics and its accurate numerical prediction is crucial to the safety of flow systems. The maximum accuracy achievable for transient surge simulations is limited by the inefficiencies in the mathematical models used. In this work, we propose a mathematical model that incorporates an adaptive damping technique for the accurate prediction of hydraulic surges. This model also takes the compressibility effects in the liquid during the surge process into account. The novel approach of using the local pressure fluctuation data from the flow to adjust the unsteady friction for controlling the dissipation is introduced in this paper. The adaptive-dissipation is actualized through a unique 'variable pressure wave damping coefficient' function definition. Numerical simulation of three different valve-induced surge experiments demonstrates the reliability and robustness of the mathematical model. Numerical results from the proposed model show an excellent match with the experimental data by closely reproducing both the frequency and the amplitude of transient pressure oscillations. A comparative study explains the improvement in the simulation accuracy achieved by replacing the constant damping coefficient with the proposed variable coefficient. The superiority of the new model with the adaptive damping capability over the similar models in literature and those used in commercial software packages is also well established through this study.

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The Adaptive Damping Technique: Improving the Simulation Accuracy of Hydraulic Transients

Salih

2021

Int J Math, Eng, Manag Sci

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An Adaptively-damped Compressible-liquid Model for Non-cavitating Hydraulic Surges

Cited by 1 publication

References 23 publications

The Adaptive Damping Technique: Improving the Simulation Accuracy of Hydraulic Transients

The Adaptive Damping Technique: Improving the Simulation Accuracy of Hydraulic Transients

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