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PUBLICATIONS

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  1. D. Codoni, A. Bayram, M. Rajanna, C. Johansen, M.-C. Hsu, Y. Bazilevs, A. Korobenko
    Heat flux prediction for hypersonic flows using stabilized formulation, Computational Mechanics, 2023, under review

  2. B. Dalman, A. Korobenko, P. Ziade, A. Ramirez-Serrano, C. Johansen
    Validation and verification of a conceptual design tool for evaluating small-scale, supersonic, unmanned aerial vehiclesunder preparation, 2022

  3. M. R. Rajanna, E. L. Johnson, F. Xu, N. Liu, J. Lua, N. Phan, Y. Bazilevs, A. Korobenko, M.-C. Hsu
    Fluid–structure interaction modeling with non-matching interface discretizations for compressible flow problems: application to aircraft simulations, Mathematical Models and Methods in Applied Sciences, 32(12), 2497-2528, 2022

  4. D. Codoni, C. Johansen, A. Korobenko
    A Streamline-Upwind Petrov-Galerkin stabilized method for the analysis of nonionized reacting hypersonic flows in thermal nonequilibrium, Computer Methods in Applied Mechanics and Engineering, 398, 115185, 2022

  5. M. Rajanna, E. L. Johnson, D. Codoni, A. Korobenko, Y. Bazilevs, N. Liu, J. Lua, N. Phan, M.-C. Hsu
    Finite element methodology for aircraft aerodynamics: development, simulation, and validation, Computational Mechanics, 70(3), 549-563, 2022

  6. G. Doerksen, P. Ziade, A. Korobenko, C. Johansen
    A numerical investigation of recirculation in axisymmetric confined jets, Chemical Engineering Science, 254, 117603, 2022

  7. D. Codoni, G. Moutsanidis, M.-C. Hsu, Y. Bazilevs, C.T. Johansen, A. Korobenko
    Stabilized finite element formulation for high-speed compressible flows: towards hypersonic simulations Computational Mechanics, 67(3), 785-809, 2021

  8. H. H. Stoldt, C. T. Johansen, A. Korobenko, P. Ziadé
    Verification and Validation of a High-Fidelity Open-Source Simulation Tool for Supersonic Aircraft Aerodynamic AnalysisJournal of Verification, Validation and Uncertainty Quantification,6(4), 041005 (11 pages), 2021

  9. M.Ravensbergen, A.Bayram, A.Korobenko
    The actuator line method for wind turbine modelling applied in a variational multiscale frameworkComputers & Fluids, 201, 104465, 2020

  10. K.Takizawa, Y.Bazilevs, T.E.Tezduyar, A.Korobenko
    Computational Flow Analysis in Aerospace, Energy and Transportation Technologies with the Variational Multiscale MethodsJournal of Advanced Engineering and Computation
    , 4(2), 83-117, 2020

  11. A.Korobenko, Y.Bazilevs, K.Takizawa, T.E.Tezduyar
    Computer modeling of wind turbines: 1. ALE-VMS and ST-VMS aerodynamic and FSI analysisArchives of Computational Methods in Engineering
    , 26(4), 1059-1099, 2020

  12. Y.Bazilevs, J.Yan, X.Deng, A.Korobenko
    Computer Modeling of Wind Turbines: 2. Free-Surface FSI and Fatigue-DamageArchives of Computational Methods in Engineering
    , 26(4), 1101-1115, 2020

  13. A.Korobenko, J.Yan, S.M.I.Gohari, S.Sarkar, Y.Bazilevs
    FSI Simulations of Multiple Horizontal-Axis Wind Turbines Interacting with Atmospheric Boundary Layer FlowComputers & Fluids,158, 167-175, 2017

  14. J.Yan, A.Korobenko, X.Deng, Y.Bazilevs
    Computational free-surface fluid-structure interaction with application to offshore floating wind turbinesComputers & Fluids, 141, 155-174, 2016

  15. Y.Bazilevs, A.Korobenko, X.Deng, J.Yan
    Dynamically-Coupled Fluid-Structure Interaction and Isogeometric Damage Model for Fatigue Prediction in Full-Scale Wind TurbinesJournal of Applied Mechanics, 2016, 83(6), 061010

  16. Y.Bazilevs, A.Korobenko, X.Deng, J.Yan, M.Kinzel, J.O.Dabiri
    FSI Modeling of Vertical- Axis Wind TurbinesJournal of Applied Mechanics, 81(8), 2014

  17. Y.Bazilevs, A.Korobenko, X.Deng, J.Yan
    Novel Structural Modeling and Mesh Moving Techniques for Advanced FSI Simulation of Wind TurbinesInternational Journal for Numerical Methods in Engineering, 102(3-4), 766-783, 2014

  18. A.Korobenko, M.-C.Hsu, I.Akkerman, Y.Bazilevs
    Aerodynamic simulation of vertical-axis wind turbines, Journal of Applied Mechanics, 81(2), 021011, 2013

  19. A.Korobenko, M.-C.Hsu, I.Akkerman, J.Tippmann, Y.Bazilevs
    Structural mechanics modeling and FSI simulation of wind turbinesMathematical Models and Methods in Applied Science, 23, 249-272, 2013

  20. A. Bayram, M. Dhalwala, P. Oshkai, A. Korobenko
    Numerical simulations of a vertical-axis hydrokinetic turbine with different blade-strut configurations under free-surface effects, Engineering with Computers, 2022, available online https://doi.org/10.1007/s00366-022-01758-8

  21. M. Dhalwala, A. Bayram, P. Oshkai, A. Korobenko
    Performance and near-wake analysis of a vertical-axis hydrokinetic1turbine under a turbulent inflow, Ocean Engineering, 257, 111703, 2022

  22. A. Bayram, A. Korobenko
    A numerical formulation for cavitating flows around marine propellers based on variational multiscale methodComputational Mechanics, 68, 405-432, 2021

  23. A. Bayram, A. Korobenko
    Variational multiscale framework for cavitating flowsComputational Mechanics, 66, 49-67, 2020

  24. A. Bayram, C. Bear, M. Bear, A. Korobenko
    Performance analysis of two vertical-axis hydrokinetic turbines using variational multiscale methodComputers & Fluids, 200, 104432, 2020

  25. Y.Bazilevs, J.Yan, X.Deng, A.Korobenko
    Computer Modeling of Wind Turbines: 2. Free-Surface FSI and Fatigue-DamageArchives of Computational Methods in Engineering
    , 26(4), 1101-1115, 2020

  26. J.Yan, X.Deng, A.Korobenko, Y.Bazilevs
    Free-surface flow modeling and simulation of horizontal-axis tidal-stream turbinesComputers & Fluids, 158, 157-166,  2017

  27. J.Yan, A.Korobenko, X.Deng, Y.Bazilevs
    Computational free-surface fluid-structure interaction with application to offshore floating wind turbinesComputers & Fluids, 141, 155-174, 2016

  28. J.Yan, B.Augier, A.Korobenko, J.Czarnowski, G.Ketterman, Y.Bazilevs
    FSI modeling of tandem compliant hydrofoils for kayak propulsionComputers & Fluids, 141, 155-174, 2016

  29. B.Augier, J.Yan, A.Korobenko, J.Czarnowski, G.Ketterman, Y.Bazilevs
    Experimental and numerical FSI study of compliant hydrofoilsComputational Mechanics, 55(6), 1079-1090, 2015

  30. A.Korobenko, M.-C. Hsu, Y. Bazilevs A Computational Steering Framework for Large-Scale Composite Structures: Part I—Parametric-Based Design and AnalysisHandbook of Dynamic Data Driven Applications Systems, ed E. P. Blasch, F. Darema, S. Ravela, A. J. Aved. Volume 1, 163-180, 2022

  31. Y.Bazilevs, J.Yan, X.Deng, A.Korobenko Computer Modeling of Wind Turbines: 2. Free-Surface FSI and Fatigue-DamageArchives of Computational Methods in Engineering, 26(4), 1101-1115, 2020

  32. Y.Bazilevs, A.Korobenko, X.Deng, J.Yan Dynamically-Coupled Fluid-Structure Interaction and Isogeometric Damage Model for Fatigue Prediction in Full-Scale Wind TurbinesJournal of Applied Mechanics, 2016, 83(6), 061010

  33. Y.Bazilevs, X.Deng, A.Korobenko, F.Lanza di Scalea, S.G.Taylor, M.D.Todd Isogeometric Fatigue Damage Prediction in Large-Scale Composite Structures Driven by Dynamic Sensor Data, Journal of Applied Mechanics, 82(9), 2015

  34. ​​X.Deng, A.Korobenko, J.Yan and Y.Bazilevs Isogeometric Analysis of Continuum Damage in Rotation-Free Composite  shells, Computer Methods in Applied Mechanics and Engineering, 284, 349-372, 2015

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