Kaushik Sasmal scite author profile

Kaushik Sasmal

5Publications

66Citation Statements Received

0Citation Statements Given

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106

Affiliations

The University of Tokyo, Indian Institute of Technology Kharagpur

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An Improved Model Including Length Scale Anisotropy for the Pressure Strain Correlation of Turbulence

Panda

Warrior

Maity

et al. 2017

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In this paper, we consider the evolution of decaying homogeneous anisotropic turbulence without mean velocity gradients, where only the slow pressure rate of strain is nonzero. A higher degree nonlinear return-to-isotropy model has been developed for the slow pressure–strain correlation, considering anisotropies in Reynolds stress, dissipation rate, and length scale tensor. Assumption of single length scale across the flow is not sufficient, from which stems the introduction of length scale anisotropy tensor, which has been assumed to be a linear function of Reynolds stress and dissipation tensor. The present model with anisotropy in length scale shows better agreement with well-accepted experimental results and an improvement over the Sarkar and Speziale (SS) quadratic model.

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Climatic trends of extreme wave events caused by Arctic Cyclones in the western Arctic Ocean

et al. 2021

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An Improved Model for the Return to Isotropy of Homogeneous Turbulence

Warrior

Mathews²,

Maity

et al. 2014

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In CFD modeling, the most widely used Reynolds stress models is the Speziale, Sarkar, Gatski (SSG) model. The present formulation, though similar in structure to the SSG model, is a mathematical variation assuming homogeneity of turbulence and is an improved model for the slow pressure strain of turbulence. The basic thrust is that anisotropy of dissipation tensor is not negligible when compared to the anisotropy of turbulent kinetic energy and affects the slow pressure strain rate. After an exhaustive survey of the available experimental results on return to isotropy, graphical plots reveal that the model performs as good as the SSG model.

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On the application of a new formulation of nonlinear eddy viscosity based on anisotropy to numerical ocean models

Sasmal

Maity

Warrior

2014

Journal of Turbulence

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Effect of Atmospheric Forcing on Plume Dispersion and Study of Nuclear Effluent Trajectories for the Kalpakkam Coast, India

Sasmal

Bonthu

Maity

et al. 2015

J. Hazard. Toxic Radioact. Waste

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Kaushik Sasmal

An Improved Model Including Length Scale Anisotropy for the Pressure Strain Correlation of Turbulence

Climatic trends of extreme wave events caused by Arctic Cyclones in the western Arctic Ocean

An Improved Model for the Return to Isotropy of Homogeneous Turbulence

On the application of a new formulation of nonlinear eddy viscosity based on anisotropy to numerical ocean models

Effect of Atmospheric Forcing on Plume Dispersion and Study of Nuclear Effluent Trajectories for the Kalpakkam Coast, India

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