Director Of Fluids, Simulia R&D
CurrentLead the worldwide fluids R&D organization in the development and deployment of our Lattice-Boltzmann and Navier-Stokes based CFD technologies.
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Gregory Laskowski is listed as Director of Fluid Mechanics at Dassault Systèmes at Dassault Systèmes, based in Greater Boston, United States. AeroLeads shows a work email signal at 3ds.com and a matched LinkedIn profile for Gregory Laskowski.
Gregory Laskowski previously worked as Director of Fluids, SIMULIA R&D at Dassault Systèmes and Director of Fluid Mechanics at Dassault Systèmes. Gregory Laskowski holds Phd, Aerospace Engineering from Stanford University.
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Within the SIMULIA brand of Dassault Systèmes I lead an exceptionally talented team of computer scientists, physicists, engineers and application managers in the development of world class CFD products. Our portfolio is purpose built for our customer base powered by our state-of-the-art Lattice-Boltzmann and/or Navier-Stokes simulation technologies. We provide a comprehensive CFD workflow solution that can deliver value at every stage of product development. Our solutions have the right degree of accuracy, efficiency and robustness depending on the needs of our customer base including designers, engineers and analysts. Our proven technology enables reduction in product development cycles, product development cost while achieving desired product performance goals. Connected to 3DEXPERIENCE, we enable users to evaluate design iterations with our ‘MODSIM’ approach turning Digital Twin and Digital Thread from vision to reality. Explore what Dassault Systèmes’ SIMULIA CFD solutions are and how they can help bring physical insight into product development. If you are interested in being part of this exceptional team, look at our career page (https://www.3DS.com/careers) to see what we have but if you are looking for a link that provides an overview of our solutions please navigate here: https://www.3DS.com/products
Listed skills include Cfd, Fluid Dynamics, Heat Transfer, Propulsion Systems, and 19 others.
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Vélizy-Villacoublay, Fr
Lead the worldwide fluids R&D organization in the development and deployment of our Lattice-Boltzmann and Navier-Stokes based CFD technologies.
Vélizy-Villacoublay, Fr
Manage a technical team supporting development and deployment of SIMULIA fluids products across all industries including Aerospace & Defense, Transportation & Mobility, Industrial Equipment, Energy & Materials, High Tech, Life Sciences, Marine & Offshore, Consumer Packaging & Goods, Home & Lifestyle.SELECT PUBLICATIONSParmar, B., Jammalamadaka, A., Sacks, M. and Laskowski, G. M. (2023) "Optimization of the ERCOFTAC pump diffuser to improve pump performance", GT2023-102951, Boston, MA.Trapani G. and Laskowski, G. M. (2023) "CFD validation and parametric design exploration of a small quadcopter UAV", AIAA 2023-3377 AIAA Aviation, San Diego CA.Duda, B. and Laskowski, G. M. (2022) "Unsteady flow simulations of an axial compressor cascade subjected to free stream wakes", GT2022-78007, Rotterdam, Netherlands.Konig, B., Duda, B. M. and Laskowski, G. M. (2022) "Lattice Boltzmann simulations for the 4th AIAA high-lift prediction workshop using PowerFLOW", AIAA 2022-3433.
Vélizy-Villacoublay, Fr
SELECT PUBLICATIONSDuda, B. M. and Laskowski, G. M. (2020) "Lattice Boltzmann Very Large Eddy Simulations of the NASA juncture flow model", AIAA SciTech, AIAA 2020-1778, Orlando, FL.
Cincinnati, Oh, Us
Led strategic development, demonstration and deployment of high fidelity CFD tools for turbomachinery and combustion applications supporting the GE Aviation and GE Power businesses.SELECT PUBLICATIONSAkolekar, H. D., Weatheritt, J, Sandberg, R. D., Laskowski, G. M., and Michelassi, V. (2018) “Machine learning for RANS based wake predictions of LPTs”, ISUAAAT 15, University of Oxford.Laskowski, G. M., Kopriva, J., Michelassi, V., Shankaran, S., Paliath, U., Bhaskaran, R., Wang, Q., Talnikar, C., Wang, Z. J., and Jia, F. (2016) “Future directions of high-fidelity CFD for aero-thermal turbomachinery research, analysis and design”, 46th AIAA Fluid Dynamics Conference, AIAA 2016-3322, Washington DC.
Cincinnati, Oh, Us
Responsible for high-fidelity CFD across the enterprise. Owner of technical roadmap for high fidelity CFD development and application in support of engine technology development and product design.SELECT PUBLICATIONSTalnikar, C., Laskowski, G. M. and Wang, Q. (2016) “Unsteady adjoint pressure loss over a gas turbine inlet guide vane”, GT2016-56689, Seoul, South Korea.Pichler, R., Kopriva, J., Michelassi, V., Sandberg, R. and Laskowski, G. M. (2016) “Highly resolved LES of a linear HPT vane cascade using structured and unstructured codes”, GT2016-57189, Seoul, South Korea.
Cincinnati, Oh, Us
CFD Heat Transfer Technology LeaderSELECT PUBLICATIONSIvanova, E. And Laskowski, G. M. (2014) "LES and RANS/LES of a Fundamental Trailing Edge Slot", GT2014-25906, Dusseldorf.Duggleby, A., Camp, J., and Laskowski, G. (2013) “Evaluation of Massively-Parallel Spectral Element Algorithm for LES of film-cooling”, ASME GT2013-94281, San Antonio.
Cincinnati, Oh, Us
CFD Technology Development
Niskayuna, New York, Us
SELECT PUBLICATIONSBenson, M., Laskowski, G., Elkins, C. and Eaton, J. (2013) "Film Cooloed Trailing Edge Measurements: 3D Velocity and Scalar Fields"' J. Turbomachinery.Dees, J., Bogard, D., Ledezma, G. Laskowski, G., and Tolpadi, A. (2012) "Experimental Measurements and Computational Predictions for an Internally Cooled Simulated Turbine Vane With 90 Degree Rib Turbulators", J. Turbomachinery.Laskowski, G. M. and Felten, F. N. (2010) “Steady and unsteady CFD simulations of transonic turbine vane wakes with trailing edge cooling”, ECCOMAS CFD 2010, Lisbon, PortugalBunker, R. S., Laskowski, G. M., Kapetanovic, S., Bailey, J. C., Palafox, P., Itzel, G. M., Sullivan, M. A. and R. Farrell, T (2009) “An investigation of turbine wheelspace cooling flow interactions with a transonic hot gas path – Part 1: Experimental measurements”, accepted for publication, J. Turbomachinery.Laskowski, G. M., Bunker, R. S., Kapetanovic, S., Bailey, J. C., Palafox, P., Itzel, G. M., Sullivan, M. A. and R. Farrell, T (2009) “An investigation of turbine wheelspace cooling flow interactions with a transonic hot gas path – Part 2: Numerical simulations”, accepted for publication, J. Turbomachinery.Laskowski, G. M., Ledezma, G., Tolpadi, A. K., and Ostrowski, M. C. (2008) “CFD simulations and conjugate heat transfer analysis of a high pressure turbine vane utilizing different cooling configurations”, ISROMAC12- 2008-20065, Honolulu, Hawaii.Laskowski, G. M., Tolpadi, A. K. and Ostrowski, M. C. (2007) “Internal and external heat transfer predictions of film cooled stationary turbine blades”, GT2007-27497, Montreal.
Niskayuna, New York, Us
SELECT PUBLICATIONS"Experimental and Modelling Studies of Pressurised Coal Gasification Behaviour" Daniel G. Roberts, San Shwe Hla, David J Harris, AUSTRALIA; JS Ravichandra, Jayesh Jain, GE Global Research, INDIA; Tian Fengguo, Lv Jing, GE Global Research, CHINA; Greg Laskowski, GE Global Research, USA, Pittsburgh Coal Conference, Sept 12-15, 2011, Pittsburgh, PA.
Niskayuna, New York, Us
Temporary assignment focused on team building while developing new research activities for energy applications and product development.
Albuquerque, Nm, Us
Research focused on CFD validation and verification of turbulent mixed convection heat transfer with applications to pool fires.SELECT PUBLICATIONSLaskowski, G. M., Kearney, S. P., Evans, G., and Greif, R., (2007) “Mixed convection heat transfer to and from a horizontal cylinder in cross-flow with heating from below”, Int. J. Heat and Fluid Flow, vol. 28(3):454-468.
Livermore, Ca, Us
Research focused on massively separated flow predictions of bluff bodies by developing detatched eddy simulation capabilities of an in house code for applications to tractor trailer trucks.SELECT PUBLICATIONSLaskowski, G., McCallen, R. C., Dunn, T., and Salari, K., “Detached Eddy Simulations of Incompressible Turbulent Flows Using the Finite Element Method”, UCRL-JC-144973, 54th APS Meeting, San Diego, CA, Nov. 2001.
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Gregory Laskowski works for Dassault Systèmes.
Gregory Laskowski is listed as Director of Fluid Mechanics at Dassault Systèmes at Dassault Systèmes.
AeroLeads has found 2 work email signals at @3ds.com for Gregory Laskowski at Dassault Systèmes.
Gregory Laskowski is based in Greater Boston, United States while working with Dassault Systèmes.
Gregory Laskowski has worked for Dassault Systèmes, Ge Aviation, Ge Global Research, Sandia National Laboratories, and Lawrence Livermore National Laboratory.
You can use AeroLeads to view verified contact signals for Gregory Laskowski at Dassault Systèmes, including work email, phone, and LinkedIn data when available.
Gregory Laskowski holds Phd, Aerospace Engineering from Stanford University.
Gregory Laskowski is listed with skills including Cfd, Fluid Dynamics, Heat Transfer, Propulsion Systems, Turbomachinery, Aerodynamics, Thermal System Design, and Product Development.
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