People NSF ITR Project |
This project focuses on dimension reduction and storage/retrieval methodologies for combustion chemistry; and LES/FDF/ISAT simulation of turbulent combustion.
This reseach is supported by the National Science Foundation under grant No. CBET-0426787.
People Computational Combustion Modules These modules use Chemkin IV (for laminar flames) and Fluent (for turbulent flames). They provide instruction in the use of the software and also provide insights into the physics and chemistry involved. The focus is on: the thermochemistry and kinetics of ideal gas mixtures; laminar premixed and nonpremixed flames; and turbulent non-premixed flames. These modules may be used by instructors in similar courses, or by students for independent study.
x2f_mpi: A PACKAGE FOR PARALLEL FUNCTION EVALUATION
ice-pic: A library of Fortran 90 routines for using the dimension reduction methods RCCE and ICE-PIC with ISAT Papers |
S.B. Pope and Z. Ren, (2008) ``Efficient implementation of chemistry in computational combustion'', Flow, Turbulence and Combustion, (submitted). |
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L. Lu, S.R. Lantz, Z. Ren, and S.B. Pope, (2007) ``Computationally efficient implementation of combustion chemistry in parallel PDF calculations," Cornell University report FDA 07--02. |
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L. Lu and S.B. Pope, (2007) ``A systematic investigation of in situ adaptive tabulation for combustion chemistry," Cornell University report FDA 07--01. |
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Z. Ren and S.B. Pope, (2007) ``Second-order splitting schemes for a class of reactive systems'', Journal of Computational Physics (submitted). |
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Z. Ren and S.B. Pope, (2007) ``Reduced description of complex dynamics in reactive systems'', Journal of Physical Chemistry A 111 (34), 8464 -8474. |
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R. McDermott and S.B. Pope, (2006) ``A particle formulation for treating differential diffusion in filtered density function methods'', Journal of Computational Physics (submitted). |
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B. Panda, M. Riedewald, S.B. Pope, J. Gehrke, and L.P.Chew (2006) "Indexing for function approximation", Very Large Data Bases, ACM 1-59593-385-9/06/09. |
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A. Vladimirsky (2006) Static PDEs for Time-Dependent Control Problems", Interfaces and Free Boundaries, 8, 281-300. |
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Z. Ren and S.B. Pope, (2007) ``Transport-chemistry coupling in the reduced description of reactive flows'', Combustion Theory and Modelling 11(5), 715-739. |
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Z. Ren and S.B. Pope, (2006) ``The use of slow manifold in reactive flows'', Combustion and Flame 147, 243-261. |
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Z. Ren, S.B. Pope, A. Vladimirsky and J.M. Guckenheimer (2007) ``Application of the ICE-PIC method for the dimension reduction of chemical kinetics coupled with transport'', Proceedings of the Combustion Institute , 31 473-481. |
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Z. Ren and S.B. Pope, (2005) ``Application of the ICE-PIC method for the dimension reduction of chemical kinetics,'' Fall Technical Meeting of the Eastern States Section of the Combustion Institute, University of Central Florida, Orlando, FL, November 13-15, 2005. |
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Z. Ren, S.B. Pope, A. Vladimirsky and J.M. Guckenheimer (2006) ``The ICE-PIC method for the dimension reduction of chemical kinetics,'' Journal of Chemical Physics 124, 114111. |
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Z. Ren and S.B. Pope (2005) ``Species reconstruction using pre-image curves,'' Proceeding of the Combustion Institute, 30, 1293-1300. |
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Z. Ren and S.B. Pope (2006) ``The geometry of reaction trajectories and attracting manifolds in composition space,'' Combustion Theory and Modelling , 10 (3), 361-388. |
Presentations  |
NSF-ITR meeting, Oct. 18, 2004 |
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NSF-ITR meeting, Feb. 1, 2005 |
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Group research meeting, Feb. 24, 2005 |
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Group research meeting, Mar. 29, 2005 |
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NSF-ITR meeting, April 11, 2005 |
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NSF-ITR meeting, June 24, 2005 |
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NSF-ITR meeting, September 14, 2005 |
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NSF-ITR meeting, October 26, 2005 |
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NSF-ITR meeting, January 25, 2007 |
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PaSR data for ANN, January 29, 2007 |