Publications

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Refereed journal articles

2025 + Preprints / papers in press

Mohit, A., Stolzman, J., Wooldridge, M., Capecelatro, J. (2025) Impact of turbulence on combustion performance in non-assist waste gas flares Flow, Turbulence, and Combustion. Submitted. Preprint.

Sridhar, A., Fox, R. O., Capecelatro, J. (2025) Turbulence transport in moderately dense gas–particle compressible flows. Journal of Fluid Mechanics. Submitted. Preprint.

Sridhar, A., Capecelatro, J. (2025) A coupled IBM/Euler—Lagrange framework for simulating shock-induced particle size segregation. Acta Mechanica Sinica (invited). DOI

Rubio, J.S., Rodrigues, N.S., Qi, Y., Patel, M., Gorman, M.T., Diaz-Lopez, M.X., Capecelatro, J., Danehy, P.M., Ni, R. (2025) Dusty Streaks on the Moon: Fingerprints of Multiphase Flow Instabilities. Nature Communications. 16, 6670. DOI

Sridhar, A., Capecelatro, J. (2025) Shock-induced size segregation of bidisperse particles. AIAA Journal. DOI.

2024

Patel, M., Rubio, J.S., Shekhtman, D., Parziale, N., Rabinovitch, J., Ni, R., Capecelatro, J. (2024) Experimental and numerical investigation of inertial particles in underexpanded jets. Journal of Fluid Mechanics. 1000, A60. DOI

Capecelatro, J., Wagner, J.L. (2024) Gas-particle dynamics in high-speed flows. Annual Review of Fluid Mechanics. 56. DOI

2023

Beetham, S., Capecelatro, J. (2023) Multiphase turbulence modeling using sparse regression and gene expression programming. Nuclear Technology. 209(12), 1977-1986. DOI

Kord, A., Capecelatro, J. (2023) A discrete-adjoint framework for optimizing high-fidelity simulations of turbulent reacting flows. Proceedings of the Combustion Institute. 39, 4. DOI

Pakseresht, P., Yao, Y., Fan, L., Theuerkauf, J., Capecelatro, J. (2023) A critical assessment of the Energy Minimization Multi-Scale (EMMS) model. Powder Technology. 425, 118569. DOI

Osnes, A., Vartdal, M., Khalloufi, M., Capecelatro, J., Balachandar, S. (2023) Comprehensive quasi-steady force correlations for compressible flow through random particle suspensions. International Journal of Multiphase Flow. 165, 104485. DOI

Khalloufi, M., Capecelatro, J. (2023) Drag force of compressible flows past random arrays of spheres. International Journal of Multiphase Flow. 165, 104496. DOI

Capecelatro, J. (2023) Gas-particle dynamics in high-speed flows: Insights from 18th-century cannon firings to particle-resolved simulations. Science Talks. 6, 100213. DOI

Kord, A., Capecelatro, J. (2023) Adaptive energy stable artificial dissipation for preserving scalar boundedness in turbulent flows. Computers and Fluids. 243, 105776. DOI

Wakefield, J., Lattanzi, A.M., Pecha, B., Ciesielski, P.N., Capecelatro, J. (2023) Fast estimation of reaction rates in spherical and non-spherical porous catalysts. Chemical Engineering Journal. 454, 139637. DOI

2022

Yao, Y., Huan, X., Capecelatro, J. (2022) Multi-fidelity uncertainty quantification of particle deposition in turbulent pipe flow. Journal of Aerosol Science. 166, 106065. DOI

Capecelatro, J., Longest, P.W, Boerman, C., Sulaiman, M., Sundaresan, S. (2022) Recent developments in the computational simulation of dry powder inhalers. Advanced Drug Delivery Reviews. 188, 114461. DOI

Lattanzi, A.M., Tavanashad, V., Subramaniam, S., Capecelatro, J. (2022). Fluid-mediated sources of granular temperature at finite Reynolds numbers. Journal of Fluid Mechanics. 942, A7. DOI

Tan, S., Zhang, J., Maki, K., Fidkowski, K.J., Capecelatro, J. (2022) Beyond well-mixed: a simple probabilistic model of airborne disease transmission in indoor spaces. Indoor Air. 32(3), 1-12. DOI

Capecelatro, J. (2022) Modeling high-speed gas–particle flows relevant to spacecraft landings. International Journal of Multiphase Flow. 150, 104008. DOI

Morris, S., McAtee, W., Capecelatro, J., Raghav, V. (2022) Influence of expiratory flow pulsatility on the effectiveness of a surgical mask. Journal of Exposure Science & Environmental Epidemiology. 1-9. DOI

Lo, C., Bons, J., Yao, Y., Capecelatro, J. (2022) Assessment of stochastic models for predicting particle transport and deposition in turbulent pipe flows. Journal of Aerosol Science. 162, 105954. DOI

Zhu, M., Medina, M., Nalliah, R., Kadhium, V., Bell, E., Han, T., Boehman, A., Capecelatro, J., Wooldridge, M. (2022) Experimental evaluation of aerosol mitigation strategies in large open-plan dental clinics. The Journal of the American Dental Association. 153(3). DOI

Lattanzi, A.M., Tavanashad, V., Subramaniam, S., Capecelatro, J., (2022) Stochastic model for the hydrodynamic force in Euler-Lagrange simulations of particle-laden flows. Physical Review Fluids. 7, 014301. DOI

Shallcross, G. S., Capecelatro, J. (2022) An explicit characteristic-based immersed boundary method for compressible flows. Journal of Computational Physics. 449, 110804. DOI

Beetham, S., Lattanzi, A., Capecelatro, J. (2022) On the thermal entrance length of moderately dense gas-particle flows. International Journal of Heat and Mass Transfer, 182. DOI

2021

Zhang, J., Capecelatro, J., Maki, K. (2021) On the utility of a well-mixed model for predicting disease transmission on an urban bus. AIP Advances. 11, 085229. DOI

Yao, Y., Capecelatro, J. (2021) An accurate particle-mesh method for simulating charged particles in wall-bounded flows, Powder Technology. 387, 239-250. DOI

Monroe, K., Yao, Y., Lattanzi, A., Raghav, V., Capecelatro, J. (2021) Role of pulsatility on particle dispersion in expiratory flows, Physics of Fluids. 33, 4. DOI

Beetham, S., Fox, R.O., Capecelatro, J., (2021) Sparse identification of multiphase turbulence closures for coupled fluid-particle flows. Journal of Fluid Mechanics. 914, A11. DOI

Yao, Y., Capecelatro, J., (2021) Deagglomeration of cohesive particles by turbulence. Journal of Fluid Mechanics. 911, A10. DOI

Zhang, J., Han, T., Hee Yoo, K., Capecelatro, J., Boehman, A., Maki, K. (2021) Disease transmission through expiratory aerosols on an urban bus. Physics of Fluids. 33, 1. DOI

2020

Iwashyna, T. J., Boehman, A., Capecelatro, J., Cohn, A. M., Cooke, J. M., Costa, D. K., Eakin, R. M., Prescott, H. C., Wooldridge, M. S. (2020) Variation in aerosol production across oxygen delivery devices in spontaneously breathing human subjects. medRxiv. DOI

Lattanzi, A.M., Tavanashad, V., Subramaniam, S., Capecelatro, J., (2020) Stochastic models for capturing dispersion in particle-laden flows. Journal of Fluid Mechanics. 903, A7. DOI

Beetham, S., Capecelatro, J., (2020) Formulating turbulence closures using sparse regression with embedded form invariance. Physical Review Fluids. 5, 084611. DOI

Baker, M. C., Fox, R.O., Kong, B., Capecelatro, J., Desjardins, O. (2020) Reynolds-stress modeling of cluster-induced turbulence in particle-laden vertical channel flow, Physical Review Fluids. 5, 074304. DOI

Baker, M. C., Kong, B., Capecelatro, J., Desjardins, O., Fox, R.O. (2020) Direct comparison of Eulerian–Eulerian and Eulerian–Lagrangian simulations for particle-laden vertical channel flow, AIChE Journal. 67, 1-13. DOI

Shallcross, G. S., Fox, R.O., Capecelatro, J., (2020) A volume-filtered description of compressible particle-laden flows. International Journal of Multiphase Flows. 122, 1-19. DOI

2019

Yao, Y., Capecelatro, J., (2019) Electrohydrodynamic generation of atmospheric turbulence. Physical Review Fluids. 4, 1-19. DOI

Wang, G., Fong, K. O., Coletti, F., Capecelatro, J., Richter, D. (2019) Inertial particles distribution and modification of vertical turbulent channel flow: a numerical and experimental comparison. International Journal of Multiphase Flows. 120, 1-16. DOI

Kord, A., Capecelatro, J. (2019) Optimal perturbations for controlling the growth of a Rayleigh–Taylor instability. Journal of Fluid Mechanics. 876, 150-185. DOI

Buchta, D. A., Shallcross, G., Capecelatro, J. (2019) Sound and turbulence modulation by particles in high-speed shear flows. Journal of Fluid Mechanics. 875, 254-285. DOI

Popov, P. P., Buchta, D. A., Anderson, M. J., Massa, L., Capecelatro, J., Bodony, D. J., Freund, J. B. (2019) Machine Learning-Assisted Early Ignition Prediction in a Complex Flow, Combustion and Flame. 206, 451-466. DOI

Beetham, S., Capecelatro, J. (2019) Biomass pyrolysis in fully-developed turbulent riser flow, Renewable Energy. 140, 751-760. DOI

Rao, A. A., Capecelatro, J. (2019) Coarse-grained modeling of sheared granular beds, International Journal of Multiphase Flow. 114, 258-267. DOI

Guo, L., Capecelatro, J. (2019) The role of clusters on heat transfer in sedimenting gas-solid flows, International Journal of Heat and Mass Transfer. 132, 1217-1230. DOI

2018

Capecelatro, J., Bodony, D. J., Freund, J. B. (2018) Adjoint-based sensitivity and ignition threshold mapping in a turbulent mixing layer, Combustion Theory and Modeling. 23, 2-35. DOI

Capecelatro, J., Desjardins, O., Fox, R.O. (2018) On the transition between turbulence regimes in particle-laden channel flows, Journal of Fluid Mechanics. 845, 499-519. DOI

Goyal, H., Desjardins, O., Pepiot, P., Capecelatro, J. (2018) A computational study of the effects of multiphase dynamics in catalytic upgrading of biomass pyrolysis vapor, AIChE Journal. 64, 3341-3353. DOI

Yao, Y., Capecelatro, J. (2018) Competition between drag and Coulomb interactions in turbulent particle-laden flows using a coupled-fluid-Ewald-summation based approach, Physical Review Fluids. 3, 1-20. DOI

Capecelatro, J. (2018) A purely Lagrangian method for simulating the shallow water equations on a sphere using smooth particle hydrodynamics, Journal of Computational Physics. 356, 174-191. DOI

2017

Patel, R., Kong, B.,Capecelatro, J., Desjardins, O., Fox, R.O. (2017) Verification of Eulerian-Eulerian and Eulerian-Lagrangian simulations for fluid-particle flows, AIChE Journal. 63, 5396-5412. DOI

Kong, B., Feng, H. Capecelatro, J., Patel, R., Desjardins, O., Fox, R.O. (2017) Euler-Euler anisotropic Gaussian mesoscale simulation of homogeneous cluster-induced gas-particle turbulence, AIChE Journal. 63, 2630-2643. DOI

2016

Capecelatro, J., Desjardins, O., Fox, R.O. (2016) Strongly-coupled gas-particle flows in vertical channels. Part I: Reynolds-averaged two-phase statistics, Physics of Fluids. 28, 1-22. DOI

Capecelatro, J., Desjardins, O., Fox, R.O. (2016) Strongly-coupled gas-particle flows in vertical channels. Part II: Turbulence modeling, Physics of Fluids. 28, 1-22. DOI

Capecelatro, J., Desjardins, O., Fox, R.O. (2016) Effect of domain size on fluid-particle statistics in homogeneous gravity-driven cluster-induced turbulence, Journal of Fluids Engineering. 138, 1-8. DOI

2015

Capecelatro, J., Desjardins, O., Fox, R.O. (2015) On fluid-particle dynamics in fully-developed cluster-induced turbulence, Journal of Fluid Mechanics. 780, 578-635. DOI

Capecelatro, J., Desjardins, O. (2015) Mass loading effects on turbulence modulation by particle clustering in dilute and moderately dilute channel flows, Journal of Fluids Engineering. 137, 1-8. DOI

Capecelatro, J., Pepiot, P., Desjardins, O. (2015) Numerical investigation and modeling of reacting gas-solid flows in the presence of clusters, Chemical Engineering Science. 122, 403-415. DOI

2014

Capecelatro, J., Desjardins, O., Fox, R.O. (2014) Numerical study of collisional particle dynamics in cluster-induced turbulence, Journal of Fluid Mechanics. 747, R2 1-13. DOI

Capecelatro, J., Pepiot, P., Desjardins, O. (2014) Numerical characterization and modeling of particle clustering in wall-bounded vertical risers, Chemical Engineering Journal. 245, 295-310. DOI

2013

Capecelatro, J., Desjardins, O. (2013) Eulerian-Lagrangian modeling of turbulent liquid-solid slurries in horizontal pipes, International Journal of Multiphase Flow. 55, 64-79. DOI

Capecelatro, J., Desjardins, O. (2013) An Euler-Lagrange strategy for simulating particle-laden flows, Journal of Computational Physics. 238, 1 - 31. DOI

Conference papers

2025

Sridhar, A., Capecelatro, J. (2025) High-fidelity modeling of shock-induced flow through a bidisperse particle mixture using an IBM/Euler-Lagrange framework, AIAA SciTech 2025 Forum, Orlando, FL. DOI

Bruni, L., Patel, M., Evrard, F., Capecelatro, J., Villafanem L. (2025) Data-driven Char- acterization of Crater Morphology During Plume-surface Interaction, AIAA SciTech 2025 Forum, Orlando, FL. DOI

2024

Stolzman, J., Mohit, A., Gutierrez, L., Capecelatro, J., Wooldridge, M. (2024) New challenges in waste gas flaring in upstream oil and gas, International Gas Research Conference (IGRC2024). Banff, Canada. PDF

2022

Patel, M., Capecelatro, J. (2022) A high-order low-dissipation Euler–Lagrange method for compressible gas-particle flows, 11th International Conference on Computational Fluid Dynamics (ICCFD11). Maui, HI. PDF

Patel, M., Rabinovitch, J., Capecelatro, J. (2022) Eulerian-Lagrangian Simulations of Plume-Induced Sheared Granular beds under Martian Conditions, AIAA Scitech 2022 Forum. San Diego, CA. DOI

Fontenot, R.L., Talbot, J., Gale, M., Mehta, R.S.,Capecelatro, J. (2022) Modeling Enhancements for Eulerian-Eulerian Two-Fluid Methods in Compressible Particle-Laden Flows with Plume-Surface Interaction Applications, AIAA Scitech 2022 Forum. San Diego, CA. DOI

Khalloufi, M., Capecelatro, J. (2022) Assessment of High-Order Upwind SBP Finite Difference Operators for Compressible Turbulent Flows, AIAA Scitech 2022 Forum. San Diego, CA. DOI

2020

Yao, Y., Shallcross, G., Ni, R., Kim, T., Mehta, M., Rabinovitch, J., Capecelatro, J. (2020) The dynamics of inertial particles in under-expanded jets: A numerical study, 58th AIAA Aerospace Sciences Meeting. Orlando, FL. DOI

Kim, T., Ni, R., Capecelatro, J., Yao, Y., Shallcross, G., Mehta, M., Rabinovitch, J. (2020) The dynamics of inertial particles in underexpanded jets: An experimental study, 58th AIAA Aerospace Sciences Meeting. Orlando, FL. DOI

2019

Agudelo, C., Vedula, R.T., Capecelatro, J., Wang, Q. (2019) Design of Experiments for Effects and Interactions During Brake Emissions Testing Using High-Fidelity Computational Fluid Dynamics. SAE Technical Paper. 37th Annual Brake Colloquium & Exhibition. No. 2019-01-2139. DOI

2018

Shallcross, G., Capecelatro, J. (2018) A parametric study of particle-laden shock tubes using an Eulerian-Lagrangian framework, 56th AIAA Aerospace Sciences Meeting, Kissimmee, FL. DOI

2017

Capecelatro, J., Buchta, D. (2017) Direct numerical simulation of noise suppression by water injection in high-speed flows. 55th AIAA Aerospace Sciences Meeting, Grapevine, TX. DOI

Capecelatro, J., Bodony, D. J., Freund, J. B. (2017) Adjoint-based sensitivity analysis of ignition in a turbulent reactive shear layer. 55th AIAA Aerospace Sciences Meeting, Grapevine, TX. DOI

2016

Capecelatro, J., Vishnampet, R., Bodony, D. J., Freund, J. B. (2016) Adjoint-based sensitivity analysis of localized ignition in a non-premixed hydrogen–air mixing layer. 54th AIAA Aerospace Sciences Meeting, San Diego, CA. DOI

2014

Capecelatro, J., Desjardins, O., Fox, R.O. (2014) Investigating multiphase turbulence statistics of large-scale two-way coupled gravity-driven flows, Proceedings of the ASME 2014 4th Joint US-European Fluids Engineering Division Summer Meeting, August 3-7, 2014, Chicago, Illinois, USA.

Capecelatro, J., Desjardins, O. (2014) Turbulence modulation by particle clustering in dilute and moderately dilute channel flows, Proceedings of the ASME 2014 4th Joint US-European Fluids Engineering Division Summer Meeting, August 3-7, 2014, Chicago, Illinois, USA.

Books and book chapters

Fluid Mechanics

7th Edition - August 6, 2024
Authors: Pijush K. Kundu, Ira M. Cohen, David R Dowling, Jesse Capecelatro
Language: English
Paperback ISBN: 9780128198070
eBook ISBN: 9780128198087

Description

The classic textbook from Pijush Kundu, Fluid Mechanics, has been once again revised and updated by Dr. David Dowling and Dr. Jesse Capecelatro to better illustrate this important subject for modern students. With expanded topics and concepts presented more clearly in a revised didactic sequence, Fluid Mechanics, Seventh Edition guides students from the fundamentals to the analysis and application of fluid mechanics, including turbulence, gravity waves, compressible flow and such diverse applications as aerodynamics and geophysical fluid mechanics. Its broad and deep coverage, provided by 15 Chapters, 4 Appendices, 144 examples, and 568 exercises, continues to be ideal for both a first or second course in fluid mechanics at the graduate or advanced undergraduate level, and is well-suited to the needs of modern scientists, engineers, mathematicians, and others seeking fluid mechanics knowledge.

Modeling Approaches and Computational Methods for Particle-laden Turbulent Flows

1st Edition - October 20, 2022
Editors: Shankar Subramaniam, S. Balachandar
Contribution: Chapter 11—Volume-filtered Euler–Lagrange method for strongly coupled fluid–particle flows
Language: English
Paperback ISBN: 9780323901338
eBook ISBN: 9780323901345

Description

Modelling Approaches and Computational Methods for Particle-laden Turbulent Flows introduces the principal phenomena observed in applications where turbulence in particle-laden flow is encountered while also analyzing the main methods for analyzing numerically. The book takes a practical approach, providing advice on how to select and apply the correct model or tool by drawing on the latest research. Sections provide scales of particle-laden turbulence and the principal analytical frameworks and computational approaches used to simulate particles in turbulent flow. Each chapter opens with a section on fundamental concepts and theory before describing the applications of the modelling approach or numerical method.

Featuring explanations of key concepts, definitions, and fundamental physics and equations, as well as recent research advances and detailed simulation methods, this book is the ideal starting point for students new to this subject, as well as an essential reference for experienced researchers.

Popular press

Capecelatro, J. (2020) School bus safety during the COVID-19 pandemic: 8 recommendations, The Conversation.

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