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Centre of basic and applied research specialized in modelling and numerical simulation, Cerfacs, through its facilities and expertise in high-performance computing, deals with major scientific and technical research problems of public and industrial interest.

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Sparse Days Meeting 2019 at Cerfacs, Toulouse

Brigitte Yzel |  12 May 2019

The annual Sparse Days meeting will be held at CERFACS in Toulouse on 11th and 12th July 2019.

Registration for the Sparse Days is free but we ask people who are coming to register as soon as possible although the deadline is June 14th. Please complete...

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The Telemac-Mascaret User Conference 2019 will be held in Toulouse on October 15-17th

superadmin |  2 May 2019

The conference  is organized by the European Center for Advanced Research and Training for Computational Science (CERFACS), on the Météo-France campus, in the conference room CIC. The conference will start with a one-day technical workshop (October 15th 2019), followed by a two-day conference...Read more

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CALENDAR

No event has been found

Tue

28

May

The 28 May 2019 at 14h00

PhD defense - Felix COLLIN BASTIANI :

PhD defense - Felix COLLIN BASTIANI : "Modeling and Large-Eddy Simulations of Two-Phase Ignition in Gas Turbines"

CERFACS, Toulouse (France) conference room J.-C. André |  Phd Thesis

Fri

07

Jun

From 7 June 2019 at 09h00 to 28 June 2019 at 17h30

Workshop on coding standards

Workshop on coding standards

 Training

Mon

17

Jun

From 17 June 2019 to 19 June 2019

Data assimilation

Data assimilation

 Training

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RESEARCH PUBLICATIONS

Lapeyre, C., Misdariis, A., Cazard, N., Veynante, D. and Poinsot, T. (2019) Training convolutional neural networks to estimate turbulent sub-grid scale reaction rates, Combustion and Flame, 203 (May), pp. 255-264, doi:10.1016/j.combustflame.2019.02.019

[url] [doi]

@ARTICLE{AR-CFD-19-76, author = {Lapeyre, C. and Misdariis, A. and Cazard, N. and Veynante, D. and Poinsot, T. }, title = {Training convolutional neural networks to estimate turbulent sub-grid scale reaction rates}, year = {2019}, number = {May}, volume = {203}, pages = {255-264}, doi = {10.1016/j.combustflame.2019.02.019}, journal = {Combustion and Flame}, abstract = {This work presents a new approach for premixed turbulent combustion modeling based on convolutional neural networks (CNN).1 We first propose a framework to reformulate the problem of subgrid flame surface density estimation as a machine learning task. Data needed to train the CNN is produced by direct numerical simulations (DNS) of a premixed turbulent flame stabilized in a slot-burner configuration. A CNN inspired from a U-Net architecture is designed and trained on the DNS fields to estimate subgrid-scale wrinkling. It is then tested on an unsteady turbulent flame where the mean inlet velocity is increased for a short time and the flame must react to a varying turbulent incoming flow. The CNN is found to efficiently extract the topological nature of the flame and predict subgrid-scale wrinkling, outperforming classical algebraic models.}, url = {https://www.sciencedirect.com/science/article/abs/pii/S0010218019300835}}

Foltz, G. R., Brandt, P., Richter, I., Rodrìguez-Fonseca, B., Hernandez, F., Dengler, M., Rodrigues, R. R., Schmidt, J. O., Yu, L., Lefevre, N., Cotrim Da Cunha, L., McPhaden, M. J., Araujo, M., Karstensen, J., Hahn, J., Martin-Rey, M., Patricola, C. M., Poli, P., Hummels, R., Perez, R. C., Hatje, V., Lübbecke, J. -F., Polo, I., Lumpkin, R., Bourles, B., Asuquo, F. E., Lehodey, P., Conchon, A., Chang, P., Dandin, P., Schmid, C., Sutton, A., Giordani, H., Xue, Y., Illig, S., Losada, T., Grodsky, S. A., Gasparin, F., Lee, T., Mohino, E., Nobre, P., Wanninkhof, R., Keenlyside, N., Garcon, V., Sanchez-Gomez, E., Nnamchi, H. C., Drévillon, M., Storto, A., Remy, E., Lazar, A., Speich, S., Goes, M., Dorrington, T., Johns, W. E., Moum, J. N., Robinson, C., Perruche, C., de Souza, R. B., Gaye, A. T., Lopez-Parages, J., Monerie, P. A., Castellanos, P., Benson, N. U., Hounkonnou, M. N., Trotte Duha, J., Laxenaire, R. and Reul, N. (2019) The tropical atlantic observing system, Frontiers in Marine Science, 6 (206), doi:10.3389/fmars.2019.00206

[pdf] [doi]

@ARTICLE{AR-CMGC-19-81, author = {Foltz, G.R. and Brandt, P. and Richter, I. and Rodrìguez-Fonseca, B. and Hernandez, F. and Dengler, M. and Rodrigues, R.R. and Schmidt, J.O. and Yu, L. and Lefevre, N. and Cotrim Da Cunha, L. and McPhaden, M.J. and Araujo, M. and Karstensen, J. and Hahn, J. and Martin-Rey, M. and Patricola, C.M. and Poli, P. and Hummels, R. and Perez, R.C. and Hatje, V. and Lübbecke, J.-F. and Polo, I. and Lumpkin, R. and Bourles, B. and Asuquo, F.E. and Lehodey, P. and Conchon, A. and Chang, P. and Dandin, P. and Schmid, C. and Sutton, A. and Giordani, H. and Xue, Y. and Illig, S. and Losada, T. and Grodsky, S.A. and Gasparin, F. and Lee, T. and Mohino, E. and Nobre, P. and Wanninkhof, R. and Keenlyside, N. and Garcon, V. and Sanchez-Gomez, E. and Nnamchi, H.C. and Drévillon, M. and Storto, A. and Remy, E. and Lazar, A. and Speich, S. and Goes, M. and Dorrington, T. and Johns, W.E. and Moum, J.N. and Robinson, C. and Perruche, C. and de Souza, R.B. and Gaye, A.T. and Lopez-Parages, J. and Monerie, P.A. and Castellanos, P. and Benson, N.U. and Hounkonnou, M.N. and Trotte Duha, J. and Laxenaire, R. and Reul, N. }, title = {The tropical atlantic observing system}, year = {2019}, number = {206}, volume = {6}, doi = {10.3389/fmars.2019.00206}, journal = {Frontiers in Marine Science}, pdf = {https://cerfacs.fr/wp-content/uploads/2019/05/GLOBC-Foltz_etal_2019_TAOS_Frontiers.pdf}}

Malé, Q., Staffelbach, G., Vermorel, O., Misdariis, A., Ravet, F. and Poinsot, T. (2019) Large Eddy Simulation of pre-chamber ignition in an internal combustion engine, Flow Turbulence and Combustion, doi:10.1007/s10494-019-00026-y

[doi]

@ARTICLE{AR-CFD-19-60,author = {Malé, Q. and Staffelbach, G. and Vermorel, O. and Misdariis, A. and Ravet, F. and Poinsot, T. },title = {Large Eddy Simulation of pre-chamber ignition in an internal combustion engine}, year = {2019}, doi = {10.1007/s10494-019-00026-y}, journal = {Flow Turbulence and Combustion}, abstract = {Using homogeneous lean mixtures is an efficient way to reduce fuel consumption and pollutant emissions in internal combustion engines. However, lean combustion requires breakthrough technologies to induce reliable ignition and fast combustion. One of these technologies uses pre-chamber to create multiple hot turbulent jets and provide ignition sites for the lean mixture. In this paper, the behaviour of a pre-chamber ignition system used to ignite the main chamber of a real engine is studied using large eddy simulation with direct integration of analytically reduced chemistry using the dynamic thickened flame model. The large eddy simulation allows to analyze the flow entering and leaving the pre-chamber, to measure the cooling and quenching effects introduced by the hot gas passages through the ducts connecting pre- and main chambers and to analyze the ignition and combustion sequences. For the case studied here, small amount of flame kernels are exhausted from the pre-chamb er. Hot products penetrate the main chamber, disperse and mix with the fresh reactants and lead to ignition. The combustion in the main chamber starts in a distributed reaction mode before reaching a flamelet propagation mode.}, keywords = {Pre-chamber ignition, Turbulent jet ignition, Internal combustion engines, Large eddy simulation}}

Eyring, V., Cox, P. M., Flato, G. M., Gleckler, P. J., Abramowitz, G., Caldwell, P., Collins, W. D., Gier, B. K., Hall, A. D., Hoffman, F. M., Hurt, G. C., Jahn, A., Jones, C. D., Klein, S. A., Krasting, J. P., Kwiatkowski, L., Lorentz, R., Maloney, E., Meehl, G. A., Pendergrass, A., Pincus, R., Ruane, A. C., Russel, J. L., Sanderson, B. M., Santer, B. D., Sherwood, S. C., Simpson, I. R., Stouffer, R. J. and Williamson, M. S. (2019) Taking climate model evaluation to the next level, Nature Climate Change, 9, pp. 102-110, doi:10.1038/s41558-018-0355-y

[pdf] [doi]

@ARTICLE{AR-CMGC-19-66, author = {Eyring, V. and Cox, P.M. and Flato, G.M. and Gleckler, P.J. and Abramowitz, G. and Caldwell, P. and Collins, W.D. and Gier, B.K. and Hall, A.D. and Hoffman, F.M. and Hurt, G.C. and Jahn, A. and Jones, C.D. and Klein, S.A. and Krasting, J.P. and Kwiatkowski, L. and Lorentz, R. and Maloney, E. and Meehl, G.A. and Pendergrass, A. and Pincus, R. and Ruane, A.C. and Russel, J.L. and Sanderson, B.M. and Santer, B.D. and Sherwood, S.C. and Simpson, I.R. and Stouffer, R.J. and Williamson, M.S. }, title = {Taking climate model evaluation to the next level}, year = {2019}, volume = {9}, pages = {102-110}, doi = {10.1038/s41558-018-0355-y}, journal = {Nature Climate Change}, pdf = {https://cerfacs.fr/wp-content/uploads/2019/04/GlobcArticle-Sanderson-2019Taking-climate-model-evaluation-Nature-Climate-Change.pdf}}

Wobus, C., Zarakas, C., Malek, P., Sanderson, B. M., Crimmins, A., Kolian, M., Sarofim, M. C. and Weaver, C. P. (2018) Reframing Future Risks of Extreme Heat in the United States, Earths Future, 6, pp. 1323–1335, doi:10.1029/2018EF000943

[pdf] [doi]

@ARTICLE{AR-CMGC-18-237, author = {Wobus, C. and Zarakas, C. and Malek, P. and Sanderson, B.M. and Crimmins, A. and Kolian, M. and Sarofim, M.C. and Weaver, C.P. }, title = {Reframing Future Risks of Extreme Heat in the United States}, year = {2018}, volume = {6}, pages = {1323–1335}, doi = {10.1029/2018EF000943}, journal = {Earths Future}, pdf = {https://cerfacs.fr/wp-content/uploads/2019/04/Reframing-Future-Risks-of-2019-Earths-Future.pdf}}

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APPLICATION DOMAINS

EnergySpaceAeronautics and AutomotiveEnvironment and climate

JOBS OFFERS

Model reduction in presence of atmospheric uncertainties for pollutant dispersion simulation

 PhD thesis

Summary The objective of the PhD thesis is to design a methodology to give access to more accurate numerical simulations of plume dynamics, which...Read more

Physics informed Deep Learning for Fast Well Production Forecasting

 PhD thesis

Cerfacs is looking for Ph.D. candidates for a CIFRE contract proposed by Total. This Ph.D. will be primarily based at Total (Pau, France) and...Read more

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