Recent progress in CFD for naval architecture and ocean engineering

Frederick Stern; Zhaoyuan Wang; Jianming Yang; Hamid Sadat-Hosseini; Maysam Mousaviraad; Shanti Bhushan; Matteo Diez; Sung Hwan Yoon; Ping Chen Wu; Seong Mo Yeon; Timur Dogan; Dong Hwan Kim; Silvia Volpi; Michael Conger; Thad Michael; Tao Xing; Robert S. Thodal; Joachim L. Grenestedt

doi:10.1016/S1001-6058(15)60452-8

Recent progress in CFD for naval architecture and ocean engineering

Frederick Stern, Zhaoyuan Wang, Jianming Yang, Hamid Sadat-Hosseini, Maysam Mousaviraad, Shanti Bhushan, Matteo Diez, Sung Hwan Yoon, Ping Chen Wu, Seong Mo Yeon, Timur Dogan, Dong Hwan Kim, Silvia Volpi, Michael Conger, Thad Michael, Tao Xing, Robert S. Thodal, Joachim L. Grenestedt

Department of Systems and Naval Mechatronic Engineering

Research output: Contribution to journal › Review article › peer-review

61 Citations (Scopus)

Abstract

An overview is provided of CFDShip-Iowa modeling, numerical methods and high performance computing (HPC), including both current V4.5 and V5.5 and next generation V6. Examples for naval architecture highlight capability and needs. High fidelity V6 simulations for ocean engineering and fundamental physics describe increased resolution for analysis of physics of fluids. Uncertainty quantification research is overviewed as the first step towards development stochastic optimization.

Original language	English
Pages (from-to)	1-23
Number of pages	23
Journal	Journal of Hydrodynamics
Volume	27
Issue number	1
DOIs	https://doi.org/10.1016/S1001-6058(15)60452-8
Publication status	Published - 2015 Feb 1

All Science Journal Classification (ASJC) codes

Modelling and Simulation
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1016/S1001-6058(15)60452-8

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Stern, F., Wang, Z., Yang, J., Sadat-Hosseini, H., Mousaviraad, M., Bhushan, S., Diez, M., Yoon, S. H., Wu, P. C., Yeon, S. M., Dogan, T., Kim, D. H., Volpi, S., Conger, M., Michael, T., Xing, T., Thodal, R. S., & Grenestedt, J. L. (2015). Recent progress in CFD for naval architecture and ocean engineering. Journal of Hydrodynamics, 27(1), 1-23. https://doi.org/10.1016/S1001-6058(15)60452-8

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abstract = "An overview is provided of CFDShip-Iowa modeling, numerical methods and high performance computing (HPC), including both current V4.5 and V5.5 and next generation V6. Examples for naval architecture highlight capability and needs. High fidelity V6 simulations for ocean engineering and fundamental physics describe increased resolution for analysis of physics of fluids. Uncertainty quantification research is overviewed as the first step towards development stochastic optimization.",

author = "Frederick Stern and Zhaoyuan Wang and Jianming Yang and Hamid Sadat-Hosseini and Maysam Mousaviraad and Shanti Bhushan and Matteo Diez and Yoon, {Sung Hwan} and Wu, {Ping Chen} and Yeon, {Seong Mo} and Timur Dogan and Kim, {Dong Hwan} and Silvia Volpi and Michael Conger and Thad Michael and Tao Xing and Thodal, {Robert S.} and Grenestedt, {Joachim L.}",

note = "Funding Information: This work was supported by research Grants from the Office of Naval Research (ONR), with Dr. Patrick Purtell, Dr. Ki-Han Kim, Dr. Thomas Fu, Ms. Kelly Cooper, Dr. Roshdy Barsoum, and Dr. Robert Brizzolara as the program managers. The FSI studies are performed in collaboration with Dr. Joachim Grenestedt of Lehigh University. The WAM-V studies are conducted in collaboration with Dr. Mehdi Ahmadian of Virginia Technology University. The planning hull studies are conducted in collaboration with Dr. Carolyn Judge of USNA. The simulations were performed at the Department of Defense (DOD) Supercomputing Resource Centers (DSRCs) through the High Performance Computing Modernization Program (HPCMP). Publisher Copyright: {\textcopyright} 2015 Publishing House for Journal of Hydrodynamics.",

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Stern, F, Wang, Z, Yang, J, Sadat-Hosseini, H, Mousaviraad, M, Bhushan, S, Diez, M, Yoon, SH, Wu, PC, Yeon, SM, Dogan, T, Kim, DH, Volpi, S, Conger, M, Michael, T, Xing, T, Thodal, RS & Grenestedt, JL 2015, 'Recent progress in CFD for naval architecture and ocean engineering', Journal of Hydrodynamics, vol. 27, no. 1, pp. 1-23. https://doi.org/10.1016/S1001-6058(15)60452-8

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AU - Stern, Frederick

AU - Wang, Zhaoyuan

AU - Yang, Jianming

AU - Sadat-Hosseini, Hamid

AU - Mousaviraad, Maysam

AU - Bhushan, Shanti

AU - Diez, Matteo

AU - Yoon, Sung Hwan

AU - Wu, Ping Chen

AU - Yeon, Seong Mo

AU - Dogan, Timur

AU - Kim, Dong Hwan

AU - Volpi, Silvia

AU - Conger, Michael

AU - Michael, Thad

AU - Xing, Tao

AU - Thodal, Robert S.

AU - Grenestedt, Joachim L.

N1 - Funding Information: This work was supported by research Grants from the Office of Naval Research (ONR), with Dr. Patrick Purtell, Dr. Ki-Han Kim, Dr. Thomas Fu, Ms. Kelly Cooper, Dr. Roshdy Barsoum, and Dr. Robert Brizzolara as the program managers. The FSI studies are performed in collaboration with Dr. Joachim Grenestedt of Lehigh University. The WAM-V studies are conducted in collaboration with Dr. Mehdi Ahmadian of Virginia Technology University. The planning hull studies are conducted in collaboration with Dr. Carolyn Judge of USNA. The simulations were performed at the Department of Defense (DOD) Supercomputing Resource Centers (DSRCs) through the High Performance Computing Modernization Program (HPCMP). Publisher Copyright: © 2015 Publishing House for Journal of Hydrodynamics.

PY - 2015/2/1

Y1 - 2015/2/1

N2 - An overview is provided of CFDShip-Iowa modeling, numerical methods and high performance computing (HPC), including both current V4.5 and V5.5 and next generation V6. Examples for naval architecture highlight capability and needs. High fidelity V6 simulations for ocean engineering and fundamental physics describe increased resolution for analysis of physics of fluids. Uncertainty quantification research is overviewed as the first step towards development stochastic optimization.

AB - An overview is provided of CFDShip-Iowa modeling, numerical methods and high performance computing (HPC), including both current V4.5 and V5.5 and next generation V6. Examples for naval architecture highlight capability and needs. High fidelity V6 simulations for ocean engineering and fundamental physics describe increased resolution for analysis of physics of fluids. Uncertainty quantification research is overviewed as the first step towards development stochastic optimization.

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Recent progress in CFD for naval architecture and ocean engineering

Abstract

All Science Journal Classification (ASJC) codes

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