2D axisymmetric and 3D CFD simulations of flow over the benchmark DARPA SUBOFF submarine model - presented by Mr. H. Rahul Krishna and Dr. Manoj T. Issac and Prof. Dr. D. D. Ebenezer

2D axisymmetric and 3D CFD simulations of flow over the benchmark DARPA SUBOFF submarine model

H. Rahul Krishna, Manoj T. Issac and Dr. D. D. Ebenezer

Prof. Dr. D. D. EbenezerMr. H. Rahul KrishnaDr. Manoj T. Issac
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Find us here Numerical investigation of two-dimensional axisymmetric and three-dimensional flow simulations over a benchmark underwater vehicle Cite as: Phys. Fluids 35, 015149 (2023); https://doi.org/10.1063/5.0134985 Submitted: 15 Novel ber 2022 Accepted: 01 January 2023 Published Online: 23 January 2023 H. Rahul Krishna, ID Manoj T. Issac and I D. D. Ebenezer View Online Expect Citation CrossMark The paper discusses the accuracy of 2D axisymmetric simulation results in predicting flow physics around an axisymmetric bare hull model of a benchmark submarine model - DARPA SUBOFF by comparing them with 3D results Associated Publication Rahul Krishna, Manoj T. Issac, and D. D. Ebenezer , "Numerical investigation of two-dimensional axisymmetric and three-dimensional flow simulations over a benchmark underwater vehicle", Physics of Fluids 35, 015149 (2023) https://doi.org/10.1063/5.0134985 Department of Ship Technology Cochin University of Science and Technology - CUSAT
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References
  • 1.
    H. R. Krishna et al. (2023) Numerical investigation of two-dimensional axisymmetric and three-dimensional flow simulations over a benchmark underwater vehicle. Physics of Fluids
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Summary (AI generated)

You can find us here. This work has been published in the peer-reviewed SCI index Journal Physics of Fluid. Recently, on January 1st, 2023, a numerical investigation of two-dimensional axis-symmetric and three-dimensional flow simulation was conducted on Oma and a water vehicle.

This paper discusses the accuracy of 2D axis-symmetric simulation results in predicting the flow physics around the benchmark vehicle called ARPA SUBOFF. This is achieved by comparing the 2D axis-symmetric results with the 3D results of the present study.

The associated publication has been shown below. These are the various references used for the work. You can check out these references. Thank you.