Verification and validation study for a hydrofoil mounted on a plate
Keywords:
verification and validation, error, uncertainty, flat plate, drag coefficient
Abstract
The junction flow between an hydrofoil and a plate is manifested by the generation of vortex structures as a result of the interaction between the boundary layer on the plate and the boundary layer on the profile. Two benchmark tests have been identified in the literature: one for the flat plate, and the other for the NACA 0012 profile. The Verification and Validation study for both hydrofoil and flat plate was performed by testing all turbulence model implemented in Ansys Fluent and results are compared with the experimental ones.
References
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[37]. Zou, L, Larsson, L., Orych, M., “Verification and validation of CFD predictions for a manoeuvring tanker”, 9th International Conference on Hydrodynamics, October, 11-15, 2010.
[2]. Roache, P. J., Kirti, N. G., & White, F. M., “Editorial policy statement on the control of numerical accuracy”, Journal of Fluids Engineering, 108, 2, 1986;
[3]. Freitas, C.J., “Engineering editorial policy statement on the control of numerical accuracy”. ASME editorial board, 1993;
[4]. AIAA, “Editorial Policy statement on numerical accuracy and experimental uncertainty”, American Institute of Aeronatics and Astronautics, 32, 3, 1994;
[5]. ASME, “Statement upon the Control of Numerical Accuracy, Jornal of Fluids Engineering”, ASME, 115, 339-340, 1993;
[6]. Gresho, P.M. & Taylor, C., “Editorial, International Journal of Numerical Methods in Fluids”, 19, iii, 1994;
[7]. Celik, I. B., Ghia, U., Roache, P. J., Freitas, C. J., Coleman, H.W., and Raad, P. E., , “Procedure for Estimation and Reporting of Uncertainty due to Discretization in CFD Applications”, ASME J. Fluids Eng., 130(7), p. 078001, 2008;
[8]. Oberkampf, W.L., Roy, C.J., “Verification and Validation in scientific computing”, Cambridge University Press, 2010;
[9]. Oberkampf, W.L., Trucano, T.G., Hirsch, C., “Verification, Validation, and Predictive Capability in Computational Engineering and Physics”, SAND REPORT, 2003.
[10]. Oberkampf, W.L., “Verification and Validation in Computational Simulation”, Sandia National Laboratories, 2004.
[11]. Oberkampf, W.L., “Perspectives on Verification, Validation, and Uncertainty Quantification”, SIAM Conference on Computational Science and Engineering, Miami, Florida, March 2 - 6, 2009.
[12]. Oberkampf, W.L., Roy, C.J., “Verification and Validation in scientific computing”, Cambridge University Press, 2010.
[13]. Oberkampf, W.L., “Oberkampf, W.L., “Practical and Technical Challenges in Verification and Validation”, Institute for Computing in Science, Verification, Validation and Uncertainty Quantification, August 6- 13, 2011.
[14]. Oberkampf, W.L., “Practical and Technical Challenges in Verification and Validation”, American Society of Mechanical Engineers, Verification and Validation Symposium, Las Vegas, Nevada, May 2 – 4, 2012.
[15]. Roache, P. J., “Verification and Validation in Computational Science and Engineering”, Hermosa Publishers, 1998;
[16]. Roache, P. J., “Procedure for Estimation and Reporting of Uncertainty Due to Discretization in CFD Applications”, Journal of Fluid Engineering, ASME, 2008;
[17]. Roache, P. J., “Fundamentals of Verification and Validation”, Hermosa Publishers, 2009;
[18]. Stern, F., et.al., “Verification and Validation of CFD simulations”, Report no. 407, Iowa Institute of Hydraulic Research, 1999;
[19]. Coleman, H.W., “An Overview of ASME V&V 20: Standard for Verification and Validation in Computational Fluid Dynamics and Heat Transfer”, 3rd Workshop on CFD Uncertainty Analysis, Lisbon, October, 2008;
[20]. Eça, L., Hoekstra M., Roache P.J., “Verification of Calculations: an Overview of the Lisbon Workshop”, AIAA Paper 4728, AIAA Computational Fluid Dynamics Conference, Toronto, June 2005;
[21]. Eça., L., Hoekstra, M., “On the Influenceof the Iterative Error in the Numerical Uncertainty of Ship Viscous Flow Calculations”, 26th Symposium on Naval Hydrodynamics, Rome, Italy, 17-22 September, 2006;
[22]. Eça., L., Hoekstra, M., “Testing Uncertainty Estimation and Validation Procedures in the Flow Around a Backward Facing Step”, 3rd Workshop on CFD Uncertainty Analysis, Lisbon, October, 2008;
[23]. Eça., L., Vaz, G., Hoekstra, M., “A Verification and Validation exercise for the flow over a back ward facing step”, V European Conference on Computational Fluid Dynamics, ECCOMAS CFD, Lisbon, Portugal,14- 17 June, 2010;
[24]. Eça., L., Hoekstra, M., Vaz, G., “Code Verification, Solution Verification and Validation in RANS Solvers”, OMAE Shanghai, China, June 6-11, 2010.
[25]. Eça., L. and Vaz, G., “Workshop on Verification and Validation of CFD for Offshore Flows”, OMAE Rio de Janeiro, Brasil, July 1-6, 2012.
[26]. ERCOFTAC, “Best Practice Guidelines for Industrial CFD”, 2000;
[27]. ASME V&V 20, “Standard for Verification and Validation in Computational Fluid Dynamics and Heat Transfer”, 2009;
[28]. Yang, Z., and Voke, P., “Large Eddy Simulation of Transition under Turbulence” in Engineering Turbulence Modelling and Experiments”, 2ed, W Rodi and F Martelli, Elsevier Science Amsterdam, 1993.
[29]. Ladson, C. L., Hill, A. S., and Johnson, Jr., W. G., “Pressure Distributions from High Reynolds Number Transonic Tests of an NACA 0012 Airfoil in the Langley 0.3- Meter Transonic Cryogenic Tunne”l, NASA TM 100526, 1988;
[30]. Gregory, N. and O'Reilly, C. L., “Low- Speed Aerodynamic Characteristics of NACA 0012 Aerofoil Sections, including the Effects of Upper-Surface Roughness Simulation Hoar Frost”, NASA R&M 3726, 1970;
[31]. Abbot,I.H. & von Doenhoff, A.E., “Theory of wing sections”, Dover Publications, New York, 1959;
[32]. Dennis C. Jespersen, Thomas H. Pulliam, Marissa L. Childs, “OVERFLOW /Turbulence Modeling Resource /Validation Results”, NASA ;Ames Research Center, 2016.
[33]. Stern, F., et.al., “Verification and Validation of CFD simulations”, Report no. 407, Iowa Institute of Hydraulic Research, 1999.
[34]. Stern, F., et.al., “Quantitative V&V of CFD Simulations and Certification of CFD Codes With Examples”, ICHMT International Symposium on Advances in Computational Heat Transfer, Norway, April 19-24, 2004.
[35]. Roy, C.J., “Review of code and solution verification procedures for computational simulation”, Journal of Computational Physics, 205, 131–156, 2005.
[36]. Roy, C.J., and Oberkampf, W.L., “A Complete Framework for Verification, Validation, and Uncertainty Quantification in Scientific Computing”, AIAA, 124, 2010.
[37]. Zou, L, Larsson, L., Orych, M., “Verification and validation of CFD predictions for a manoeuvring tanker”, 9th International Conference on Hydrodynamics, October, 11-15, 2010.
Published
2020-12-15
How to Cite
1.
Ungureanu C, Mocanu C. Verification and validation study for a hydrofoil mounted on a plate. Annals of ”Dunarea de Jos” University of Galati. Fascicle XI Shipbuilding [Internet]. 15Dec.2020 [cited 19Apr.2024];43:109-16. Available from: https://www.gup.ugal.ro/ugaljournals/index.php/fanship/article/view/4020
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