Terascale High-Fidelity Simulations of Turbulent Combustion with Detailed Chemistry

The objective of this program is to develop a high fidelity direct numerical simulation (DNS) software package for the simulation of turbulent reactive flows. The focus is on including extensive new developments in an existing software package at Sandia National Laboratories named S3D to address more realistic combustion features and geometries while exploiting Terascale computational possibilities. The proposed program promises to significantly advance the state-of-the-art of DNS of turbulent reacting flows.

Project Information

• Participating Institutions
• Project Summary
• Members Only Section (Restricted Access)

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Papers

• Ramanan Sankaran and Hong G. Im (Dept. of Mechanical Engineering, Univ of Wisconsin),
  Evatt R. Hawkes and Jacqueline H. Chen (Combustion Research Facility, Sandia National Labs),
  ``The Effects of Nonuniform Temperature Distribution on the Ignition of a Lean Homogeneous Hydrogen-Air Mixture'', submitted for publication to 30th Intl. Symposium on Combustion, Chicago, July 2004.. PDF file.

• Y. Wang and C.J. Rutland (Dept. of Mechanical Engineering, Univ of Wisconsin),
  ``Effects of temperature and equivalence ratio on the ignition of n-heptane fuel droplets in turbulent flow'', submitted for publication to 30th Intl. Symposium on Combustion, Chicago, July 2004.. PDF file.

• Chun Sang Yoo and Hong G. Im (Dept. of Mechanical Engineering, Univ of Michigan),
  ``Transient Dynamics of Edge Flames in a Laminar Nonpremixed Hydrogen-Air Counterflow'', submitted for publication to 30th Intl. Symposium on Combustion, Chicago, July 2004.. PDF file.

• Jacqueline H. Chen, Evatt R. Hawkes, and John C. Hewson (Combustion Research Facility, Sandia National Labs),
  Ramanan Sankaran, and Hong G. Im (Dept. of Mechanical Engineering, Univ of Michigan),
  Scott D. Mason (Lockheed Martin Corporation)
  ``Ignition Front Propagation In a Constant Volume With Temperature Inhomogeneities'', submitted for publication to 30th Intl. Symposium on Combustion, Chicago, July 2004.. PDF file.

• Yi Wang and Arnaud Trouv�é (Dept. of Fire Protection Engineering, Univ of Maryland),
  ``Artificial Acoustic Stiffness Reduction in Fully Compressible, Direct Numerical Simulation of Combustion'', submitted for publication to Combustion, Theory and Modelling. PDF file.

Meetings/Posters/Presentations

• "A General Approach to Creating FORTRAN Interface for C++ Application Libraries", presentation given at the International High Performance Computing and Applications Conference, Aug 8-10, 2004, Shanghai, China, by Y. Wang, PSC

• Presentations at the 10th SIAM Intl. Conference on Numerical Combustion, May 9-12, 2004, Sedona, AZ, by:

  A. Trouve and Y. Wang (U. of Maryland)	C. Rutland and Y. Wang (U. of Wisconsin)
  C.S. Yoo and H. Im (U. of Michigan)	C.S. Yoo, H. Im (U. of Mich), Y. Wang and A. Trouve (U. of Maryland)

  
  

• The SciDAC PI meeting, Charleston, SC, Mar 22-24, 2004.
  PI Meeting Presentation (pdf)

• The DOE SciDAC PI meeting, in Napa, CA, March 10-11, 2003. Poster presentation.

• Presentations at the 3rd Joint Meeting of the US Sections of the Combustion Institute, March 16-19, 2003, Chicago, IL, by: 

  S. Liu and J.H. Chen	C. Yoo and H.G. Im (U. of Mich)	Y. Wang and C. J. Rutland (U. of Wisc)
  J.C. Sutherland, P.J. Smith and J.H. Chen	Y. Wang and A. Trouve (U. of Maryland)	E. R. Hawkes and J.H. Chen (CRF, Sandia National Labs, CA)

  
  

• The BES SciDAC PI meeting, at Argonne National Labs, Argonne, IL, Jun 13-15, 2002.
  Poster (pdf)
  
• The SciDAC PI meeting, Reston, VA, Jan 15-16, 2002.
  PI Meeting Presentation (pdf)
  

Related SciDAC Projects

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