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Journal Publications
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    2022


  1. Wesley W. Chapman, Gabriel Montoya, Vaibhav Rajora, Terry R. Salyer, Jeffrey F. Rhoads, Carlo Scalo, Steven F. Son, Effects of embedded additively manufacturable energetic sensors within an RDX-based explosive, Joint Army Navy NASA Air Force Journal, 2022

  2. Matteo Ruggeri, Indradip Roy, Michael J. Mueterthies, Tom Gruenwald, Carlo Scalo, Neural-network-based Riemann solver for real fluids and high explosives; application to computational fluid dynamics, Physics of Fluids, 2022 [PDF] [DOI]

  3. Myungwon Hwang, Carlo Scalo, Andres F. Arrieta, High-performance large-scale simulation of multi-stable metastructures, Computer Physics Communications, 2022, Vol 277, pages 108365 [PDF] [DOI] [BIB]

  4. Timo Buschhagen, Rohan Gejii, Carlo Scalo, and Carson Slabaugh, Self-excited Instability Regimes of a Confined Turbulent Jet Flame at Elevated Pressure, Physics of Fluids, 2022, Vol 34, Issue 4. [PDF] [DOI] [BIB]

  5. Victor Sousa and Carlo Scalo, A unified Quasi-Spectral Viscosity (QSV) approach to shock capturing and large-eddy simulation, J. Comput. Phys., 2022, Vol 459, 1111139. [PDF] [DOI] [BIB]

  6. Victor Sousa and Carlo Scalo, A Legendre spectral viscosity (LSV) method applied to shock capturing for high-order flux-reconstruction schemes, J. Comput. Phys., 2022, Vol 460, 111157. [PDF] [DOI] [BIB]

    7. .

    2021


  7. Ariana Martinez, Mario Tindaro Migliorino, Carlo Scalo, and Stephen D. Heister, Experimental and numerical investigation of standing-wave thermoacoustic instability under transcritical temperature conditions, J. Acoust. Soc. Am., 2021, 150 (4). [PDF] [DOI] [BIB]

  8. Yongkai Chen and Carlo Scalo, Effects of Porous Walls on Near-wall Supersonic Turbulence, Physical Review Fluids, 2021, Vol 6, No. 8, 084607. [PDF] [DOI] [BIB]

  9. Yongkai Chen and Carlo Scalo, Trapped waves in supersonic and hypersonic turbulent channel flow over porous walls Journal of Fluid Mechanics, 2021, Vol 920, A24 [PDF] [DOI] [BIB]

  10. Xinran Zhao and Carlo Scalo, Helicity dynamics in reconnection events of topologically complex vortex flows Journal of Fluid Mechanics, 2021, Vol 920, A30 [PDF] [DOI] [BIB]

  11. Xinran Zhao, Zongxin Yu, Jean-Baptiste Chapelier and Carlo Scalo Direct-Numerical and Large-Eddy Simulation of Trefoil Knotted Vortices Journal of Fluid Mechanics, 2021, Vol 910, A31 [PDF] [DOI] [BIB]

  12. Steven Hunt, Mario Tindaro Migliorino, Carlo Scalo, and Stephen D. Heister, Onset Criteria for Bulk-Mode Thermoacoustic Instabilities in Supercritical Hydrocarbon Fuels, Journal of Fluids Engineering, 2021, 143(4): 040901 [PDF] [DOI] [BIB]

  13. Haitian Hao, Carlo Scalo, and Fabio Semperlotti, Flexural-mode solid-state thermoacoustics, Mechanical Systems and Signal Processing Vol 148, pages 107143 [PDF] [DOI] [BIB]

    14. .

    2020


  14. Shubham Thirani, Prateek Gupta, and Carlo Scalo, Knudsen number effects on the nonlinear acoustic spectral energy cascade, Physical Review E, Vol 101, No. 2 [PDF] [DOI] [BIB]

  15. Haitian Hao, Carlo Scalo, and Fabio Semperlotti, Axial-mode solid-state thermoacoustic instability: an analytical parametric study, Journal of Sound and Vibration Vol 470, pages 115159 [PDF] [DOI] [BIB]

  16. Mario Tindaro Migliorino and Carlo Scalo, Real-Fluid Effects on Standing-Wave Thermoacoustic Instability Journal of Fluid Mechanics, 2020, Vol 883, A23 [PDF] [DOI] [BIB]
    17. .

    2019


  17. Mario Tindaro Migliorino and Carlo Scalo, Heat-Induced Planar Shock Waves in Supercritical Fluids, Shock Waves , Vol 30, pages 153–167 [PDF] [DOI] [BIB]

  18. Matthew X. Yao, Zeping Sun, Carlo Scalo, Jean-Pierre Hickey, Vortical and thermal interfacial layers in wall-bounded turbulent flows under transcritical conditions, Physical Review Fluids, 2019, Vol 4, No. 8, 0846 [PDF] [DOI] [BIB]

  19. Kukjin Kim, Jean-Pierre Hickey, and Carlo Scalo, Pseudophase Change Effects in Turbulent Channel Flow under Transcritical Temperature Conditions, Journal of Fluid Mechanics, 2019, Vol. 871, pp. 52-91. [PDF] [DOI] [BIB]

  20. Haitian Hao, Carlo Scalo, and Fabio Semperlotti, Traveling and standing thermoacoustic waves in solid media, Journal of Sound and Vibration, 2019, Vol 449, pp. 30-42 [PDF] [DOI] [BIB]

  21. Jean-Baptiste Chapelier, Bono Wasistho and Carlo Scalo, Large-Eddy Simulation of temporally developing double helical vortices, Journal of Fluid Mechanics, 2019, Vol. 863, pp. 79-113. [PDF] [DOI] [BIB]

  22. Victor Sousa, Danish Patel, Jean-Baptiste Chapelier, Viola Wartemann, Alex Wagner, and Carlo Scalo, Numerical Investigation of Second Mode Attenuation over Carbon/Carbon Surfaces on a Sharp Slender Cone, Journal of Spacecraft and Rockets, 2019, Vol. 56, No. 2, pp. 319-332. [PDF] [DOI] [BIB]
    23. .

    2018


  23. Prateek Gupta and Carlo Scalo, Spectral energy transport in acoustic wave turbulence, Physical Review E, 2018, Vol. 98, Issue 3, Pages 033117. [PDF] [DOI] [BIB]

  24. Quentin Dousasbin, Carlo Scalo, Laurent Selle and Thierry Poinsot. Delayed Time-Domain Impedance Boundary Conditions, Journal of Computational Physics 2018, Vol. 371, Pages 50-66 [PDF] [DOI] [BIB]

  25. Haitian Hao, Carlo Scalo, Mihir Sen, and Fabio Semperlotti, Thermoacoustics of solids: a pathway to solid state engines and refrigerators, Journal of Applied Physics, 2018, Vol. 123, Issue 2, Pages 024903 1-9 [PDF] [DOI] [BIB]

  26. Jean-Baptiste Chapelier, Bono Wasistho and Carlo Scalo, A Coherent-vorticity preserving (CvP) eddy viscosity correction for Large-Eddy Simulation, Journal of Computational Physics, 2018, Vol. 359, pp. 164 - 182 [PDF] [DOI] [BIB]
    27. .

    2017


  27. Prateek Gupta, Guido Lodato and Carlo Scalo, Spectral Energy Cascade in Thermoacoustic Shock Waves, Journal of Fluid Mechanics, 2017, Vol. 831, pp. 358 - 393 [PDF] [DOI] [BIB]

  28. Iman Rahbari and Carlo Scalo, Linear stability of compressible channel flow over porous walls, 2017, In: Pollard A., Castillo L., Danaila L., Glauser M. (eds) Whither Turbulence and Big Data in the 21st Century?. Springer, Cham [PDF] [DOI] [BIB]

    29. .

    2010 - 2016


  29. Jeffrey Lin, Carlo Scalo and Lambertus Hesselink, High-fidelity simulations of standing-wave piezo-electric thermoacoustic engine, Journal of Fluid Mechanics, 2016, Vol. 808, pp. 19 -- 60. [PDF] [DOI] [BIB]

  30. Carlo Scalo, Sanjiva K. Lele and Lambertus Hesselink, Linear and Nonlinear Modeling of a Traveling-Wave Thermoacoustic Engine, Journal of Fluid Mechanics, 2015, Vol. 766, pp. 368 -- 404. [PDF] [DOI] [BIB]

  31. Carlo Scalo, Julien Bodart and Sanjiva K. Lele, Compressible Channel Flow with Impedance Boundary Conditions, Physics of Fluids, 2015, Vol. 27, 035107. [PDF] [DOI] [BIB]

  32. Carlo Scalo, Ugo Piomelli and Leon Boegman, Self-similar decay and mixing of a high-Schmidt-number passive scalar in a turbulent oscillating boundary layer, Journal of Fluid Mechanics, 2013, Vol. 726, pp. 338--370. [PDF] [DOI] [BIB]

  33. Carlo Scalo, Leon Boegman and Ugo Piomelli, Large-eddy simulation and low-order modeling of sediment oxygen uptake in a transitional oscillatory flow, Journal of Geophysical Research-Oceans, 2013, Vol. 118, pp. 1--14. [PDF] [DOI] [BIB]

  34. Carlo Scalo, Ugo Piomelli and Leon Boegman, High-Schmidt-number mass transport mechanisms from a turbulent flow to absorbing sediments, Physics of Fluids 2012, 24, 085103. [PDF] [DOI] [BIB]

  35. Carlo Scalo, Ugo Piomelli and Leon Boegman, Large-eddy simulation of oxygen transfer to organic sediment beds, Journal of Geophysical Research-Oceans , 2012, Vol. 117, C06005. [PDF] [DOI] [BIB]

  36. Geoffrey Lee, Carlo Scalo and Ugo Piomelli, A simple technique for the visualization of eddy kinematics in turbulent flows, International Journal of Computational Fluid Dynamics , 2012, Vol. 26, 4, pp. 263--274. [PDF] [DOI] [BIB]

  37. Ivan Langella, Carlo Scalo, Giuseppe de Felice and Carlo Meola, Loss of monotonicity and anomalous scaling behavior in the passive scalar gradient: a DNS study on causes of intermittency, International Journal of Numerical Methods for Heat & Fluid Flow, 2012, Vol. 23 Iss: 1, pp. 108 -- 123. [PDF]

  38. Valerio Grazioso, Carlo Scalo, Giuseppe de Felice, Carlo Meola, High Level Languages Implementation and Analysis of 3D Navier-Stokes Solvers, Advances in Applied Mathematics and Mechanics, 2011, 3, pp. 370-388. [PDF]

  39. Ugo Piomelli and Carlo Scalo, Subgrid-Scale Modelling in Relaminarizing Flows, Fluid Dynamic Research, 2010, 42, 45510. [PDF]
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