Adri´an Lozano-Dur´an,Ph.D. Massachusetts Institute of Technology Department of Aeronautics and Astronautics E-mail: [email protected] Website: Computational Turbulence EDUCATION • Ph.D. in Aerospace Engineering (2015) Universidad Polit´ecnicaof Madrid, Spain. Dissertation: Time-resolved evolution of coherent structures in turbulent channels. Advisor: Prof. Javier Jim´enez. • MSc. in Aerospace Engineering (2012) Universidad Polit´ecnicaof Madrid, Spain. • BS. in Aerospace Engineering (2010) Universidad Polit´ecnicaof Madrid, Spain. PROFESSIONAL EXPERIENCE • Assistant Professor (Jan 2021 { now) Department of Aeronautics and Astronautics, Massachusetts Institute of Technology, USA. • Postdoctoral Research Fellow (Jan 2016 { Dec 2020) Center for Turbulence Research, Stanford University, USA. Hosted by Prof. Parviz. Moin. • Postdoctoral Research Fellow (Jun 2015 { Dec 2015) Universidad Polit´ecnicaof Madrid, Spain. Advisor: Prof. Javier Jim´enez. RESEARCH INTERESTS (link) • Causal analysis and information theory in fluid mechanics. • Reduced-order modeling and large-eddy simulation of transitional and turbulent flows for internal and external aerodynamics. • Coherent structure of turbulent boundary layers, geophysical and atmospheric flows. • Theoretical and numerical studies of laminar-to-turbulent transition, multi-phase turbulent flows, and hypersonic flows. • Machine learning and computational geometry applied to chaotic flows and extreme events prediction. 1 / 11 DISTINCTIONS AND GRANTS • APS/DFD Milton van Dyke Award, recipient, 2017. • Da Vinci Competition best European dissertation on Fluid Mechanics, finalist, 2015. • Supercomputing and Visualization Center of Madrid (CeSViMa), Grant PI, 2012{2014. • Barcelona Supercomputing Center (BSC), Grant PI, 2011{2014. PUBLICATIONS (link) Journal Publications 2021 1.A. Lozano-Dur´an, N. C. Constantinou, M.-A. Nikolaidis, and M. Karp, “Cause-and-effect of linear mechanisms sustaining wall turbulence", Journal of Fluid Mechanics, in press, 2021. 2. H. J Bae, A. Lozano-Dur´an, and B. J. McKeon, \Nonlinear mechanism of the self-sustaining process in the buffer and logarithmic layer of wall-bounded flows", Journal of Fluid Mechanics, in press, 2021. 3. M. Cho, A. Lozano-Dur´an, G. I. Park, and P. Moin, \Wall-modeled large-eddy simulation of turbulent boundary layers with mean-flow three-dimensionality", AIAA Journal, in press, 2021. 2020 4. C. Nov´e-Josserand,S. Perrard, A. Lozano-Dur´an, M. Rabaud, M. Benzaquen, and F. Moisy “Effect of a weak current on wind-generated waves in the wrinkle regime", Physical Review Fluids, 5, 124801, 2020. 5. C. Cheng, W. Li, A. Lozano-Dur´an, and H. Liu, \On the structure of streamwise wall- shearstress fluctuations in turbulent channel flows", Journal of Fluid Mechanics, 903, A29, 2020. 6. C. Cheng, W. Li, A. Lozano-Dur´an, and H. Liu, \Uncovering Townsend's wall-attached eddies in low-Reynolds-number wall turbulence", Journal of Fluid Mechanics, 889, A29, 2020. 7. S. Dong, Y. Huang, X. Yuan, and A. Lozano-Dur´an*, \The coherent structure of the energy cascade in shear turbulence", Journal of Fluid Mechanics, 892, A22, 2020. *Corresponding author. 8.A. Lozano-Dur´an, H. J. Bae, and M. P. Encinar, \Causality of energy-containing eddies in wall turbulence", Journal of Fluid Mechanics, 882, A2, 2020. 9.A. Lozano-Dur´an, M. Giometto, G. I. Park, and P. Moin, \Non-equilibrium three-dimensional boundary layers at moderate Reynolds numbers", Journal of Fluid Mechanics, 883, A20, 2020. 10. A. Towne, A. Lozano-Dur´an, and X. I. A. Yang, \Resolvent-based estimation of space-time flow statistics", Journal of Fluid Mechanics, 883, A17, 2020. 2 / 11 2019 11.A. Lozano-Dur´an and H. J. Bae, \Error scaling of large-eddy simulation in the outer region of wall-bounded turbulence", Journal of Computational Physics, 392, 532{555, 2019. 12.A. Lozano-Dur´an and H. J. Bae, \Characteristic scales of Townsend's wall-attached eddies", Journal of Fluid Mechanics, 868, 698{725, 2019. 13. C. Cheng, W. Li, A. Lozano-Dur´an, and H. Liu, \Identity of attached eddies in turbulent channel flows with bidimensional empirical mode decomposition", Journal of Fluid Mechanics, 870, 1037{1071, 2019. 14. S. Perrard, A. Lozano-Dur´an, M. Rabaud, M. Benzaquen, and F. Moisy \Turbulent wind- print on a liquid surface", Journal of Fluid Mechanics, 873, 1020{1054, 2019. 15. H. J. Bae, A. Lozano-Dur´an, S. T. Bose, and P. Moin, \Dynamic slip wall model for large- eddy simulation", Journal of Fluid Mechanics, 859, 400{432, 2019. 2018 16. H. J. Bae, A. Lozano-Dur´an, S. T. Bose, and P. Moin, \Turbulence intensities in large-eddy simulation of wall-bounded flows", Physical Review Fluids, 3, 014610, 2018. 17.A. Lozano-Dur´an, M. J. P. Hack, and P. Moin, \Modeling boundary-layer transition in direct and large-eddy simulations using parabolized stability equations", Physical Review Fluids, 3, 023901, 2018. 2017 18. X. Wu, P. Moin, J. M. Wallace, J. Skarda, A. Lozano-Dur´an, and J-P. Hickey, \Transitional- turbulent spots and turbulent-turbulent spots in boundary layers", Proceedings of the National Academy of Sciences, 114, 27, E5292{E5299, 2017. 19. X. I. A. Yang and A. Lozano-Dur´an, \A multifractal model for the momentum transfer process in wall-bounded flows", Journal of Fluids Mechanics, 824, R2, 2017. 20. S. Dong, A. Lozano-Dur´an, A. Sekimoto, and J. Jim´enez,\Coherent structures in statisti- cally stationary homogeneous shear turbulence", Journal of Fluids Mechanics, 816, 167{208, 2017. 2016 21.A. Lozano-Dur´an, M. Holzner, and J. Jim´enez,\Multiscale analysis of the topological in- variants in the logarithmic region of turbulent channels at a friction Reynolds number of 932", Journal of Fluids Mechanics, 803, 356{394, 2016. 22.A. Lozano-Dur´an and G. Borrell, \An efficient algorithm to compute the genus of discrete surfaces and applications to turbulent flows", ACM Transactions on Mathematical Software, 42, 4, Article 34, 2016. 23. B. F. Farrell, J. P. Ioannou, J. Jim´enez,N. C. Constantinou, A. Lozano-Dur´an, and M- A. Nikolaidis, \A statistical state dynamics-based study of the structure and mechanism of large-scale motions in plane Poiseuille flow", Journal of Fluids Mechanics, 809, 290{315, 2016. 3 / 11 2015 24.A. Lozano-Dur´an, M. Holzner, and J. Jim´enez,\Numerically accurate computation of the conditional trajectories of the topological invariants in turbulent flows", Journal of Compu- tational Physics, 295, 805{814, 2015. 25. C. Geng, G. He, Y. Wang, C. Xu, A. Lozano-Dur´an, and J. M. Wallace, \Taylor's hypothesis in turbulent channel flow considered using a transport equation analysis", Physics of Fluids, 27, 025111, 2015. 2014 26.A. Lozano-Dur´an and J. Jim´enez,\Time-resolved evolution of coherent structures in turbu- lent channels: characterization of eddies", Journal of Fluids Mechanics, 759, 432{471, 2014. 27.A. Lozano-Dur´an and J. Jim´enez,“Effect of the computational domain on direct simulations of turbulent channels up to Reτ = 4200", Physics of Fluids, 26, 011702, 2014. 28. R. Vinuesa, A. Noorani, A. Lozano-Dur´an, G. K. El Khoury, P. Schlatter, P. F. Fischer, and H. Nagib, \Direct numerical simulation of variable-aspect-ratio turbulent duct flows at low and moderate Reynolds numbers", Journal of Turbulence, 15, 677{706, 2014. 2012 29.A. Lozano-Dur´an and J. Jim´enez,\The three-dimensional structure of momentum transfer in turbulent channels", Journal of Fluids Mechanics, 694, 100{130, 2012. Proceedings and Conference Papers 2020 30.A. Lozano-Dur´an and H. J. Bae, \Self-critical machine-learning wall-modeled LES for ex- ternal aerodynamics", Annual Research Briefs, Center for Turbulence Research, Stanford University, 2020. 31.A. Lozano-Dur´an, S. T. Bose and and P. Moin, \Performance of wall-modeled LES for external aerodynamics in the NASA Juncture Flow", Annual Research Briefs, Center for Turbulence Research, Stanford University, 2020. 32. M. Whitmore, A. Lozano-Dur´an, P. Moin, \Requirements and sensitivity analysis of RANS- free wall-modeled LES", Annual Research Briefs, Center for Turbulence Research, Stanford University, 2020. 33. A. Elnahhas, A. Lozano-Dur´an and P. Moin, \Toward a flow-structure-based wall-modeled large-eddy simulation paradigm", Annual Research Briefs, Center for Turbulence Research, Stanford University, 2020. 34. W. H. R. Chan, A. Lozano-Dur´an and P. Moin, \Cascade-based Eulerian-to-Lagrangian subgrid-scale modeling of bubble breakup in breaking waves", Annual Research Briefs, Center for Turbulence Research, Stanford University, 2020. 35.A. Lozano-Dur´an, S. T. Bose, and P. Moin, \Prediction of trailing edge separation on the NASA Juncture Flow using wall-modeled LES", AIAA Aviation Forum, 2020. 4 / 11 2019 36. C. Cheng, W. Li, and A. Lozano-Dur´an, \Quadrant analysis of turbulent channel flows with bidimensional empirical mode decomposition (BEMD)", 11th International Symposium on Turbulence and Shear Flow Phenomena, Southampton, UK, 2019. 37. M. Atzori, R. Vinuesa, A. Lozano-Dur´an, and P. Schlatter, \Contribution of Reynolds- stress structures to the secondary flow in turbulent ducts", 11th International Symposium on Turbulence and Shear Flow Phenomena, Southampton, UK, 2019. 38. S. He, A. Lozano-Dur´an, J. He, and M. Cho, \Three dimensional transient channel flow due to a transverse pressure gradient", 11th International Symposium on Turbulence and Shear Flow Phenomena, Southampton, UK, 2019. 2018 39.A. Lozano-Dur´an and H. J. Bae, \Characteristic scales of Townsend's wall-attached eddies", Annual Research Briefs, Center for Turbulence Research, Stanford University, 183{196, 2018. 40.A. Lozano-Dur´an, M. Karp, and N. C. Constantinou, \Wall turbulence with constrained en- ergy extraction from the mean flow", Annual Research Briefs, Center for Turbulence Research, Stanford University, 209{220, 2018. 41. H. J. Bae and A. Lozano-Dur´an, \DNS-aided explicitly filtered LES of channel flow", Annual Research Briefs, Center for Turbulence Research, Stanford University, 197{207, 2018. 42. M. P. Encinar, A. Lozano-Dur´an, and J.