Exa Corporation

3 Burlington Woods Drive
Burlington, MA 01803

SBIR Award Summary

Total Number of Awards 9
Total Value of Awards $2MM
First Award Date 01/01/01
Most Recent Award Date 01/01/08

Key Personnel

Last Name Name Awards Contact
Chen Hudong Chen 3 Message
Remondi Stephen Remondi 1 Message
Staroselsky Ilya Staroselsky 8 Message

9 Awards Won

Phase 2 SBIR

Agency: National Science Foundation
Topic: 2008
Budget: 01/01/08 - 12/31/08

This Small Business Innovation Research (SBIR) Phase II project will develop an engineering design level simulation tool for non-Newtonian fluid systems used in advanced materials engineering/process design. The project will implement innovative physics modeling of rheological properties and will leverage the full computational strength of the c...

Phase 1 SBIR

Agency: National Science Foundation
Topic: 2007
Budget: 01/01/07 - 12/31/07

This Small Business Innovative Research Phase I project will develop an engineering design level simulation tool for non-Newtonian flow systems, such as polymers and suspensions used in advanced materials engineering and process design. Recently developed innovative modeling of rheological properties at a mesoscopic level, using a rate-of-strain...

Phase 2 STTR

Institution: Iowa State University

Agency: National Science Foundation
Topic: 2006
Budget: 01/01/06 - 12/31/06

This Small Business Innovation Research (SBIR) Phase II project will produce a novel parallel dynamic rule-based software tool for simulating high Mach number flows of interest for the ground transportation, aerospace and power generation markets. This work couples a multi-disciplinary interplay between algorithm design, modern cluster/grid comp...

Phase 1 STTR

Institution: Iowa State University

Agency: National Science Foundation
Topic: 2005
Budget: 01/01/05 - 12/31/05

This Small Business Technology Transfer (STTR) Phase I project will produce an advanced parallel computational tool for unified prediction of continuum and rarefied flow over reusable launch vehicles of real world complexity. The technology will be an enhancement of the Digital Physics technology based on Lattice Boltzmann Methods (LBM). The p...

Phase 2 SBIR

Agency: National Science Foundation
Topic: 2003
Budget: 01/01/03 - 12/31/03

This Small Business Innovation Research (SBIR) Phase II project will produce a unique computational tool for heat transport prediction in industrial devices by hybridizing our Digital Physics technology based on Lattice Boltzmann Methods (LBM) for hydrodynamics with efficient partial differential equation (PDE) solution for heat transfer. The pr...

Phase 1 STTR

Institution: University of Arizona

Agency: National Science Foundation
Topic: 2003
Budget: 01/01/03 - 12/31/03

This Small Business Technology Transfer (STTR) Phase I project addresses the need for low-cost manufacturing of fuel cell components, by the development of a reel-to-reel electrodeposition process to maximize catalyst dispersion and utilization at loadings of 0.1 mg/cm2. In Phase I, 1) The feasibility of plating 0.1 mg Pt/cm2 loadings of highly ...

Phase 1 SBIR

Agency: National Science Foundation
Topic: 2003
Budget: 01/01/03 - 12/31/03

This Small Business Innovation Research (SBIR) Phase II project will produce a unique computational tool for heat transport prediction in industrial devices by hybridizing our Digital Physics technology based on Lattice Boltzmann Methods (LBM) for hydrodynamics with efficient partial differential equation (PDE) solution for heat transfer. The pr...

Phase 1 SBIR

Agency: National Science Foundation
Topic: 2002
Budget: 01/01/02 - 12/31/02

This Small Business Innovation Research (SBIR) Phase I project will produce a unique computational tool for heat transport prediction. The novel approach to be used here will hybridize the Digital Physics technology based on Lattice Boltzmann Methods (LBM) for hydrodynamics with efficient partial differential equation (PDE) solution methods for ...

Phase 1 SBIR

Agency: Department of Energy
Topic: 2001
Budget: 01/01/01 - 12/31/01

65016 The design of safer, more efficient boiling water reactor (BWR) fuel assemblies requires a computational tool that is capable of accurately predicting the dynamics of three-dimensional (3-D) multiphase flow and heat transfer phenomena in the fuel bundles. This project will extend the Lattice Boltzmann Method for multiphase flows with em...