Title: Temporally developing H2/O2 mixing layer simulation at 100 atm

Description: Direct numerical simulation of a non-reacting, temporally developing, hydrogen-oxygen shear layer at a pressure of 100 atm and a Reynolds number of 2,000. The simulation was run on 512 processing cores on Clemson's Palmetto cluster using 384 x 384 x 232 grid points. The video shows the hydrogen mass fraction as a function of time along the centerline plane.

Credits: NSF Grant CBET-0965624; Clemson University's Palmetto cluster

References: [1] J.W. Foster and Miller, R.S., ``A Priori Analysis of Subgrid Statistics from Direct Numerical Simulations of High Pressure Hydrogen-Oxygen Flames: I Subgrid Mass Flux Vectors,'' Proceedings of the 7th U.S. National Technical Meeting of the Combustion Institute, Atlanta Georgia, March 20-23, 2011.

[2] A. Korucu, J.W. Foster, and R.S. Miller, ``A Priori Analysis of Subgrid Statistics from Direct Numerical Simulations of High Pressure Hydrogen-Oxygen Flames: II Subgrid Heat Flux Vector,'' Proceedings of the 7th U.S. National Technical Meeting of the Combustion Institute, Atlanta Georgia, March 20-23, 2011.

[3] Z. Ma, J.W. Foster, and R.S. Miller, ``A Priori Analysis of Subgrid Statistics from Direct Numerical Simulations of High Pressure Hydrogen-Oxygen Flames: III Subgrid Pressure,'' Proceedings of the 7th U.S. National Technical Meeting of the Combustion Institute, Atlanta Georgia, March 20-23, 2011.

Web Page: http://myweb.clemson.edu/~rm/

Contributed By: Justin W. Foster and Richard S. Miller