Publications
D.P. Willen and A.J. Sierakowski, Resolved particle simulations using the Physalis method on many GPUs, Comput. Phys. Comm. 250 (2020) 107071, doi.org/10.1016/j.cpc.2019.107071
D.P. Willen and A.J. Sierakowski, Resolved particle simulations using the Physalis method on many GPUs, Comput. Phys. Comm. 250 (2020) 107071, doi.org/10.1016/j.cpc.2019.107071
Y. Wang, A.J. Sierakowski, A. Prosperetti, Rotational dynamics of a particle in a turbulent stream, Phys. Rev. Fluids 4 (2019) 064304, doi.org/10.1103/PhysRevFluids.4.064304
Y. Wang, A.J. Sierakowski, A. Prosperetti, Rotational dynamics of a particle in a turbulent stream, Phys. Rev. Fluids 4 (2019) 064304, doi.org/10.1103/PhysRevFluids.4.064304
D.P. Willen, A.J. Sierakowski, G. Zhou, and A. Prosperetti, Continuity waves in resolved-particle simulations of fluidized beds, Phys. Rev. Fluids 2 (2017) 114305, doi.org/10.1103/PhysRevFluids.2.114305
D.P. Willen, A.J. Sierakowski, G. Zhou, and A. Prosperetti, Continuity waves in resolved-particle simulations of fluidized beds, Phys. Rev. Fluids 2 (2017) 114305, doi.org/10.1103/PhysRevFluids.2.114305
Y. Wang, A.J. Sierakowski, and A. Prosperetti, Fully resolved simulation of particulate flows with particles-fluid heat transfer, J. Comput. Phys. 350 (2017) 638-656, doi.org/10.1016/j.jcp.2017.07.044
Y. Wang, A.J. Sierakowski, and A. Prosperetti, Fully resolved simulation of particulate flows with particles-fluid heat transfer, J. Comput. Phys. 350 (2017) 638-656, doi.org/10.1016/j.jcp.2017.07.044
A.J. Sierakowski, GPU-centric resolved-particle disperse two-phase flow simulation using the Physalis method, Comput. Phys. Comm. 207 (2016) 24-34, doi.org/10.1016/j.cpc.2016.05.006
A.J. Sierakowski, GPU-centric resolved-particle disperse two-phase flow simulation using the Physalis method, Comput. Phys. Comm. 207 (2016) 24-34, doi.org/10.1016/j.cpc.2016.05.006
A.J. Sierakowski, Numerical simulation of disperse particle flows on a graphics processing unit, Ph.D. thesis (2016), download
A.J. Sierakowski, Numerical simulation of disperse particle flows on a graphics processing unit, Ph.D. thesis (2016), download
A.J. Sierakowski and A. Prosperetti, Resolved-particle simulation by the Physalis method: Enhancements and new capabilities, J. Comput. Phys. 309 (2016) 164-184, doi.org/10.1016/j.jcp.2015.12.057
A.J. Sierakowski and A. Prosperetti, Resolved-particle simulation by the Physalis method: Enhancements and new capabilities, J. Comput. Phys. 309 (2016) 164-184, doi.org/10.1016/j.jcp.2015.12.057
Presentations and Posters
A.J. Sierakowski, Crædl: Collaborative Research Administration Environment and Data Library, 2017 Research Data Management Implementations Workshop, Arlington, VA, 14-15 September 2017
A.J. Sierakowski, Crædl: Collaborative Research Administration Environment and Data Library, 2017 Research Data Management Implementations Workshop, Arlington, VA, 14-15 September 2017
A.J. Sierakowski and L.J. Lukassen, Closing the reduced position-space Fokker-Planck equation for shear-induced diffusion using the Physalis method, American Physical Society Division of Fluid Dynamics Meeting, Portland, OR, 20-22 November 2016
A.J. Sierakowski and L.J. Lukassen, Closing the reduced position-space Fokker-Planck equation for shear-induced diffusion using the Physalis method, American Physical Society Division of Fluid Dynamics Meeting, Portland, OR, 20-22 November 2016
Y. Wang, A.J. Sierakowski, and A. Prosperetti, Fully-resolved simulation of particle rotation in a turbulent flow, American Physical Society Division of Fluid Dynamics Meeting, Portland, OR, 20-22 November 2016
Y. Wang, A.J. Sierakowski, and A. Prosperetti, Fully-resolved simulation of particle rotation in a turbulent flow, American Physical Society Division of Fluid Dynamics Meeting, Portland, OR, 20-22 November 2016
D. Willen, A.J. Sierakowski, and A. Prosperetti, Continuity waves in fully resolved simulations of settling particles, American Physical Society Division of Fluid Dynamics Meeting, Portland, OR, 20-22 November 2016
D. Willen, A.J. Sierakowski, and A. Prosperetti, Continuity waves in fully resolved simulations of settling particles, American Physical Society Division of Fluid Dynamics Meeting, Portland, OR, 20-22 November 2016
A.J. Sierakowski, Numerical simulation of disperse particle flows on a graphics processing unit, Center for Compressible Multiphase Turbulence, University of Florida, 14 March 2016
A.J. Sierakowski, Numerical simulation of disperse particle flows on a graphics processing unit, Center for Compressible Multiphase Turbulence, University of Florida, 14 March 2016
A.J. Sierakowski, Numerical simulation of disperse particle flows on a graphics processing unit, Ph.D. thesis defense, Baltimore, MD, 10 March 2016
A.J. Sierakowski, Numerical simulation of disperse particle flows on a graphics processing unit, Ph.D. thesis defense, Baltimore, MD, 10 March 2016
A.J. Sierakowski, Validation of a Hertzian contact model with nonlinear damping, American Physical Society Division of Fluid Dynamics Meeting, Boston, MA, 22-24 November 2015
A.J. Sierakowski, Validation of a Hertzian contact model with nonlinear damping, American Physical Society Division of Fluid Dynamics Meeting, Boston, MA, 22-24 November 2015
D. Willen, A.J. Sierakowski, and A. Prosperetti, Fully resolved simulations of 2,000 fluidized particles, American Physical Society Division of Fluid Dynamics Meeting, Boston, MA, 22-24 November 2015
D. Willen, A.J. Sierakowski, and A. Prosperetti, Fully resolved simulations of 2,000 fluidized particles, American Physical Society Division of Fluid Dynamics Meeting, Boston, MA, 22-24 November 2015
A.J. Sierakowski, Experimental validation of particle-resolved computational fluid dynamics simulations, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 24 April 2015
A.J. Sierakowski, Experimental validation of particle-resolved computational fluid dynamics simulations, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 24 April 2015
A.J. Sierakowski, Leveraging GPUs for high-fidelity disperse particle flows, Linné FLOW Centre, Department of Mechanics, KTH Royal Institute of Technology, Stockholm, Sweden, 22 January 2015
A.J. Sierakowski, Leveraging GPUs for high-fidelity disperse particle flows, Linné FLOW Centre, Department of Mechanics, KTH Royal Institute of Technology, Stockholm, Sweden, 22 January 2015
A.J. Sierakowski and A. Prosperetti, Fully resolved simulations of particle sedimentation, American Physical Society Division of Fluid Dynamics Meeting, San Francisco, CA, 23-25 November 2014
A.J. Sierakowski and A. Prosperetti, Fully resolved simulations of particle sedimentation, American Physical Society Division of Fluid Dynamics Meeting, San Francisco, CA, 23-25 November 2014
A.J. Sierakowski, Particle interactions in particle-resolved computational simulations, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 3 October 2014
A.J. Sierakowski, Particle interactions in particle-resolved computational simulations, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 3 October 2014
A.J. Sierakowski and A. Prosperetti, Making Physalis viable: Lessons in GPU computing, Second International Conference on Numerical Methods in Multiphase Flows, Darmstadt, Germany, 30 June – 2 July 2014
A.J. Sierakowski and A. Prosperetti, Making Physalis viable: Lessons in GPU computing, Second International Conference on Numerical Methods in Multiphase Flows, Darmstadt, Germany, 30 June – 2 July 2014
A. Prosperetti and A.J. Sierakowski, Physalis: A method for fully resolved particulate flows, Second International Conference on Numerical Methods in Multiphase Flows, Darmstadt, Germany, 30 June – 2 July 2014
A. Prosperetti and A.J. Sierakowski, Physalis: A method for fully resolved particulate flows, Second International Conference on Numerical Methods in Multiphase Flows, Darmstadt, Germany, 30 June – 2 July 2014
L. Lukassen, A.J. Sierakowski, and M. Oberlack, Numerical parameter determinatoion for a new Fokker-Planck approach for shear-induced diffusion of non-Brownian particles using particle DNS, Second International Conference on Numerical Methods in Multiphase Flows, Darmstadt, Germany, 30 June – 2 July 2014
L. Lukassen, A.J. Sierakowski, and M. Oberlack, Numerical parameter determinatoion for a new Fokker-Planck approach for shear-induced diffusion of non-Brownian particles using particle DNS, Second International Conference on Numerical Methods in Multiphase Flows, Darmstadt, Germany, 30 June – 2 July 2014
A.J. Sierakowski and A. Prosperetti, Fully resolving particulate flows, CEAFM-Burgers Research Symposium, University of Maryland College Part, 28 May 2014
A.J. Sierakowski and A. Prosperetti, Fully resolving particulate flows, CEAFM-Burgers Research Symposium, University of Maryland College Part, 28 May 2014
A.J. Sierakowski and A. Prosperetti, Harnessing GPUs to overcome conventional fluid-particle interaction simulation limitations, GPU Technology Conference, San Jose, CA, 24-27 March 2014
A.J. Sierakowski and A. Prosperetti, Harnessing GPUs to overcome conventional fluid-particle interaction simulation limitations, GPU Technology Conference, San Jose, CA, 24-27 March 2014
A.J. Sierakowski and A. Prosperetti, The effect of particle rotation in multi-particle flow simulations, American Physical Society Division of Fluid Dynamics Meeting, Pittsburgh, PA, 24-26 November 2013
A.J. Sierakowski and A. Prosperetti, The effect of particle rotation in multi-particle flow simulations, American Physical Society Division of Fluid Dynamics Meeting, Pittsburgh, PA, 24-26 November 2013
A.J. Sierakowski and A. Prosperetti, Working towards disperse two-phase flow ensemble averaging, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 8 November 2013
A.J. Sierakowski and A. Prosperetti, Working towards disperse two-phase flow ensemble averaging, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 8 November 2013
A.J. Sierakowski and A. Prosperetti, GPU-centric parallelization of particle-laden flow using the Physalis method, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 15 March 2013
A.J. Sierakowski and A. Prosperetti, GPU-centric parallelization of particle-laden flow using the Physalis method, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 15 March 2013
A.J. Sierakowski and A. Prosperetti, Gerris: The groundwork for Physalis and turbulent disperse two-phase flows, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 28 October 2011
A.J. Sierakowski and A. Prosperetti, Gerris: The groundwork for Physalis and turbulent disperse two-phase flows, Mechanical Engineering Graduate Student Fluids Seminar Series, Johns Hopkins University, 28 October 2011
Peer Reviewed Journal Service
American Society of Mechanical Engineers IMECE Conference, June 2016
American Society of Mechanical Engineers IMECE Conference, June 2016
International Journal of Multiphase Flow, January 2015
International Journal of Multiphase Flow, January 2015
Journal of Computational Physics, August 2014, January 2016, October 2016 (2)
Journal of Computational Physics, August 2014, January 2016, October 2016 (2)