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    <p><strong><span style="font-size:32px">2019</span></strong></p><p><a href="/static/files/6/2019_Fire_Modeling_Workshop_Program_2__1570122758127.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/list__1570125268081.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/attendees_cropped__1570124949480.png" alt="" width="751" height="356" /></span></p><p><span style="font-size:24px">Presentations</span></p><table border="0" style="height:774px;width:100%;border-collapse:collapse;border-style:none"><tbody><tr style="height:36px"><td style="width:100%;height:36px">Hamins, A., Bundy, M., Chen, J., Falkenstein-Smoth, R. Frenandez, M., Kim, K., Sung, K., Tam, A., Wang, Z.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/01_Hamins_NIST__1570122905779.pdf" target="_blank" rel="noopener">Characterization of medium-scale pool fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zeng, D., Xiong, G., Ren, X., Gollner, M., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/02_Zeng_FM_Global__1570123083873.pdf" target="_blank" rel="noopener">Effect of oxygen index on the characteristics of buoyant turbulent flames - a CFD dataset</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Mohaddes, D., Ihme, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/03_Mohaddes_Stanford__1570123147594.pdf" target="_blank" rel="noopener">Resolution requirements for LES modeling of a methanol pool fire</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ahmed, M., Verma, S., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/04_Ahmed_UMD__1570123151942.pdf" target="_blank" rel="noopener">A numerical and theoretical study of the effects of wind and slope on the structure of a turbulent line fire</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Xu, R., Le, V., Marchand, A., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/05_Xu_UMD__1570123156514.pdf" target="_blank" rel="noopener">Simulations of a turbulent line fire with an unsteady flamelet combustion model coupled with models for non-local and local gas radiation effects</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ren, N., Zeng, D., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/06_Ren_FM_Global__1570123161587.pdf" target="_blank" rel="noopener">A convective wall heat transfer model for LES fire modeling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Tao, J., Ren, N., Wang, H.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/07_Wang_Purdue__1570123165603.pdf" target="_blank" rel="noopener">Advanced modeling of turbulent vertical wall fire with LES and transported PDF model</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Schuhler, E., Coppalle, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/08_Schuhler_CORIA__1570123169871.pdf" target="_blank" rel="noopener">LES and conjugate heat transfer in a fire jet impinging a reactive material</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Hewson, J., Kurzawski, A., Scott, S., Knaus, R., Voskuilen, T., Koo, H.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/09_Hewson_Sandia__1570123174431.pdf" target="_blank" rel="noopener">Modeling soot radiation interactions in buoyant fire plumes and wall-bounded fire plumes</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">McDermott, R., McGrattan, K.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/10_McDermott_NIST__1570123178378.pdf" target="_blank" rel="noopener">A simple two-zone subgrid temperature model for improved prediction of radiant emissions from fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Chatterjee, P., Meredith, K., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/11_Chatterjee_FM_Global__1570123181951.pdf" target="_blank" rel="noopener">Numerical modeling of radiant emission from wall-attached diffusion flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Wu, B., Zhao, X., Roy, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/12_Wu_UConn__1570123186582.pdf" target="_blank" rel="noopener">Detailed simulation of a small-scale pool fire with soot and thermal radiation</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zeng, D., Xiong, G., Agarwal, G., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/13_Zeng_FM_Global__1570123189354.pdf" target="_blank" rel="noopener">Wall-fire burner and diagnostics development: experimental results</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Oluwole, O., Meredith, K., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/14_Oluwole_FM_Global__1570123193694.pdf" target="_blank" rel="noopener">FireFOAM non-gray models for radiation with multiple participating media</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Agarwal, G., Zeng, D., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/15_Agarwal_FM_Global__1570123198908.pdf" target="_blank" rel="noopener">Material flammability and fire dynamics of cavity wall façade system</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Fukumoto, K., Wang, C., Wen, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/16_Wen_Warwick__1570123202435.pdf" target="_blank" rel="noopener">Analysis of heat flux components on PMMA wall fires and upward flame spread configuration</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Krisman, A., Xiong, G., Zeng, D., Meredith, K., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/17_Krisman_FM_Global__1570123205957.pdf" target="_blank" rel="noopener">Towards modeling fire growth of plastic pallets in FireFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Kurzawski, A., Lamb, J., Torres-Castro, L., Hewson, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/18_Kurzawski_Sandia__1570123210421.pdf" target="_blank" rel="noopener">Predicting and mitigating cascading failure of thermal runaway in stacks of Li-ion pouch cells</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Hu, Z., He, X., Restuccia, F., Rein, G.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/19_Hu_Imperial_College__1570123217173.pdf" target="_blank" rel="noopener">Self-heating ignition of lithium ion batteries during storage</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ditch, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/20_Ditch_FM_Global__1570123221342.pdf" target="_blank" rel="noopener">Lithium ion fire test data for modeling efforts</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Nishino, R., Ren, N., Noda, Y., Tanaka, F.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/21_Nishino_UFukui__1570123225493.pdf" target="_blank" rel="noopener">LES of smoke behavior in reduced-scale tunnel fires</a></td></tr></tbody></table><p><span style="font-size:24px">Posters</span></p><table border="0" style="height:144px;width:100%;border-collapse:collapse;border-style:none"><tbody><tr style="height:18px"><td style="width:100%;height:18px">Gopala, Y., D'Aniello, S., Sienkiewicz</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/P02_Gopala_FM_Global__1570124510038.pdf" target="_blank" rel="noopener">Equivalence between different K-factor sprinklers</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Kostka, S., Gopala, Y., Xin, Y., Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/P03_Kostka_FM_Global__1570124514442.pdf" target="_blank" rel="noopener">An experimental study of SMART sprinkler protection of high rack storage with reduced water demand</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">White, J., Xin, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/P04_White_FM_Global__1570124518262.pdf" target="_blank" rel="noopener">Impact of fuel packaging arrangement on fire growth and suppression in rack storage of cartoned commodities</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zhou, X., Xin, Y., Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/P05_Zhou_FM_Global__1570124523036.pdf" target="_blank" rel="noopener">Evaluation of automatic water cannon for fire protection of low-pile storage in high-clearance facilities</a></td></tr></tbody></table><p><strong><span style="font-size:32px">2018</span></strong></p><p><a href="/static/files/6/2018_Fire_Modeling_Workshop_Program_2__1569955829568.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/list__1571404928486.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/attendees_cropped__1570125344051.png" alt="" width="752" height="420" /></span></p><p><span style="font-size:24px">Presentations</span><span style="font-size:24px"></span></p><table border="0" style="height:450px;width:99.8521%;border-collapse:collapse;border-style:none"><tbody><tr style="height:18px"><td style="width:99.8521%;height:18px">Verma, S. & Trouvé, A.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/01_Verma_UMD__1569958855819.pdf" target="_blank" rel="noopener">An LES study of the structure of a turbulent line fire subjected to cross-flow</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Han, C. & Wang, H.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/02_Wang_Purdue__1569958982261.pdf" target="_blank" rel="noopener">LES transported PDF modeling of vertical turbulent wall fires</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">McDermott, R., Henderson, B., Vanella, M.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/03_McDermott_NIST__1569959290542.pdf" target="_blank" rel="noopener">A temperature wall function for LES of natural convection based on Rayleigh number scaling</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Rahmati, M., Shen, C., Butler, M., Harper, C., Fletcher, T.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/06_Fletcher_BYU__1569959458280.pdf" target="_blank" rel="noopener">Investigation of flame merging in horizontal and vertical geometries</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Lapointe, C., Wimer, N., Hamlington, P.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/07_Hamlington_UCBoulder__1569959889147.pdf" target="_blank" rel="noopener">Progress towards DNS of fire using AMR</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Zhang, Y., Mukut, K., Roy, S., Wu, B., Zhao, X.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/08_Roy_Marquette__1569960033763.pdf" target="_blank" rel="noopener">Predictive but affordable soot modeling in practical combustion systems</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Koo., H, Hewson, J., Knaus, R.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/09_Koo_Sandia__1569960212621.pdf" target="_blank" rel="noopener">A non-adiabatic flamelet model for LES soot-radiation predictions</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Marchand, A., Le, V., Verma, S., Xu, R., White, J., Marshall, W., Rogaume, T., Richard, F., Luche, J., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/11_Marchand_UMD__1569961159443.pdf" target="_blank" rel="noopener">LES of a turbulent line fire using asteady laminar flamelet combustion model coupled to a non-gray gas radiation model</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Ren, N., Yu., H., Meredith, K., Zeng, D., Wang, Y., Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/12_Ren_FMGlobal__1569961338848.pdf" target="_blank" rel="noopener">Water mist suppression modeling of rack-storage fires in open space</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Wu, B., Zhao, X., Roy, S.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/14_Wu_UConn__1569961448937.pdf" target="_blank" rel="noopener">Detailed modeling of turbulent fire systems</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Sikic, I., Wen, J., Dembele, S.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/15_Sikic_Warwick__1569961501933.pptx" target="_blank" rel="noopener">Two-phase radiation modeling for fire suppression in FireFOAM</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Oluwole, O., Gupta, A., Meredith, K., Wang, Y.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/16_Oluwole_FMGlobal__1569961581735.pdf" target="_blank" rel="noopener">FireFOAM radiation models for water-based fire suppression</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Karthikeyan, R., Kumar, A., Satyanarayanan, D., Chakravarthy, R.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/17_Rajasekar_IIT__1570112024898.pdf" target="_blank" rel="noopener">Experimental studies on the suppression of buoyant diffusion methane flame by downward directed water mist</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Meredith, K., Vuko Vukčević</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/18_Meredith_FMGlobal_placeholder__1570112201667.pdf" target="_blank" rel="noopener">Progress towards atomization modeling of fire sprinklers</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Bruns, M., McDermott, R.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/19_Bruns_NIST__1570112261095.pdf" target="_blank" rel="noopener">Development of 3D pyrolysis in FDS</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Scott, S., Kury, M., Keedy, R., Brunini, V.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/21_Scott_Sandia__1570112324292.pdf" target="_blank" rel="noopener">Thermally decomposing polyurethane foam in sealed containers</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Ding, Y., Stoliarov, S., Kraemer, R.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/22_Ding_UMD__1570112398009.pdf" target="_blank" rel="noopener">Development of pyrolysis models for multi-component flame retardant materials</a></td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px">Truchot, B., Marlair, G., Lecocq, A.</td></tr><tr style="height:18px"><td style="width:99.8521%;height:18px"><a href="/static/files/6/23_Truchot_INERIS__1570112540644.pdf" target="_blank" rel="noopener">FireFOAM to model inside battery thermal disorder propagation</a></td></tr></tbody></table><p><span style="font-size:24px"><span style="font-size:32px">2017</span></span><span style="font-size:32px"></span></p><p><a href="/static/files/6/2017_Fire_Modeling_Workshop_Program_Final__1570114596105.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/Fire_modeling_workshop_2017_participants_final__1570114614923.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/FMG-workshop-2017-groupPhoto_cropped__1569958561447.jpg" alt="" width="747" height="425" />Presentations</span></p><table border="0" style="width:100%;border-collapse:collapse"><tbody><tr style="height:18px"><td style="width:100%;height:18px">Wu, B., Zhao, X., Roy, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/01._Bifen_Wu_-_The_Radiative_Interactions_Between_Nongrey_Gas,_Soot,_Water_Mist_and_Turbulence_-_a_Monte_Carlo_Ray_Tracing_Study__1570114709909.pdf" target="_blank" rel="noopener">The radiative interactions between nongrey gas, soot, water mist and turbulence: an MC ray tracing study</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Sikic, I., Wen, J., Dembele, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/02._Ivan_Sikic_-_WSGG_and_Wide_Band_Gas_Radiation_Models_for_Pool_Fires_in_FireFOAM__1570114794441.pdf" target="_blank" rel="noopener">WSGG and wide band gas radiation models for pool fires in FireFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Josephson, A., Linn, R., Lignell, D.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/03._Alexander_J._Josephson_-_Detailed_Modeling_of_Soot_Formation_from_Solid_Fuels__1570114875128.pdf" target="_blank" rel="noopener">Detailed modeling of soot formation from solid fuels</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Gupta, A., Meredith, K., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/04._Ankur_Gupta_-_Modeling_of_Radiation_Attenuation_by_Water_Droplets_in_Fire_Suppression_Scenarios__1570114957325.pdf" target="_blank" rel="noopener">Modeling of radiation attenuation by water droplets in fire suppression scenarios</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Cao, C., Corn, M., Sankaran, V.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/05._Changmin_Cao_-_Large-Scale_Diesel_Pool_Fire_Suppression_Modeling__1570115011451.pdf" target="_blank" rel="noopener">Large-scale diesel pool fire suppression modeling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Marchand, A., Verma, S., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/06._Alexis_Marchand_-_Large_Eddy_Simulations_of_a_Turbulent_Line_Burner_using_FireFOAM__1570115069905.pdf" target="_blank" rel="noopener">LES of a turbulent line burner using FireFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Floyd, J., McDermott, R.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/07._Jason_Floyd_-_A_Critical_Flame_Temperature_Extinction_Model_for_Multiple_Fast_Reactions__1570115125811.pdf" target="_blank" rel="noopener">A critical flame temperature extinction model for multiple fast reactions</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ren, N., Meredith, K., Wang, Y., Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/08._Ning_Ren_-_Update_on_Flame_Extinction_Model_Development__1570115188024.pdf" target="_blank" rel="noopener">Update on flame extinction model development</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zeng, D., Agarwal, G., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/09._Dong_Zeng_-_Radiative_Characteristics_and_Extinction_of_Buoyant_Turbulent_Non-premixed_Flames_in_Reduced_Oxygen_Atmospheres__1570115820556.pdf" target="_blank" rel="noopener">Radiative characteristics and extinction of buoyant turbulent non-premixed flames in reduced oxygen atmospheres</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Link, E., Myers, T., Trouvé, A., Marshall, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/10._Eric_D._Link_-_Measurements,_Modeling,_and_Analysis_of_Spray-Plume_Interaction__1570115901785.pdf" target="_blank" rel="noopener">Measurements, modeling, and analysis of spray-plume interaction</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Meredith, K., Zhou, X., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/11._Karl_V._Meredith_-_VOF_Simulation_of_Atomization_for_an_Idealized_Sprinkler_Geometry_%28sm2%29__1570115950135.pdf" target="_blank" rel="noopener">VOF simulation of atomization for an idealized sprinkler geometry</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Koo, H., Hewson, J., Brown, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/12._Heeseok_Koo_-_SIERRA-Fuego_Validation_Works_for_DNS,_LES,_and_Solid_Pyrolysis_Models__1570116039935.pdf" target="_blank" rel="noopener">SIERRA/Fuego validation works for DNS, LES, and solid pyrolysis models</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Leventon, I., Stoliarov, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/13._Isaac_T._Leventon_-_Modeling_of_Flame_Heat_Feedback_from_Ignition_through_the_Early_Stages_of_Upward_Flame_Spread__1570116087252.pdf" target="_blank" rel="noopener">Modeling of flame heat feedback from ignition through the early stages of upward flame spread</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zhou, B., Yoshioka, H., Noguchi, T., Ando, T.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/14._Biao_Zhou_-_Application_of_FireFOAM_in_Numerical_Simulation_of_JIS_A1310_Fac%CC%A7ade_Fire_Calibration_Test__1570116238612.pdf" target="_blank" rel="noopener">Application of FireFOAM in numerical simulation of JIS A 1310 façade fire calibration test</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Tang, F., Zhang, J., Wen, J. & Alam, M., Dembele, S., Chandra, Wen, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/15._Fei_Tang_-_Simulating_Fac%CC%A7ade_Fires_using_FireFOAM__1570116338375.pdf" target="_blank" rel="noopener">Simulating façade fires using FireFOAM/Predicting transient burning rates of liquid pool fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Richter, F., Guillermo, R.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/16._Franz_Richter_-_Fire_and_Timber_-_Finding_the_Optimal_Complexity_for_Condense-Phase_Chemistry__1570116394344.pdf" target="_blank" rel="noopener">Fire and timber: Finding the optimal complexity for condense-phase chemistry</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Verma, S., Tang, W., Miller, C., Gollner, M., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/17._Salman_Verma_-_Use_of_Large_Eddy_Simulation_for_Understanding_the_Structure_and_Dynamics_of_Wildland_Fire_Flames__1570116468488.pdf" target="_blank" rel="noopener">Use of LES for understanding the structure and dynamics of wildland fire flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zeng, D., Agarwal, G., Panda, P., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/18._Dong_Zeng_-_Wall-fire_Burner_and_Diagnostics_Development_%E2%80%93_Preliminary_Experimental_Results__1570116519475.pdf" target="_blank" rel="noopener">Wall-fire burner and diagnostics development: preliminary experimental results</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Kozhumal, S., Cristina, G., Skowronski, N., Simeoni, A., Im, S. Rangwala, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/19._Shijin_P._Kozhumal_-_Numerical_Investigation_of_Fire_Dynamics_in_the_Presence_of_Burning_Obstacles_under_a_Unidirectional_Wind__1570116621878.pdf" target="_blank" rel="noopener">Numerical investigation of fire dynamics in the presence of burning obstacles under a unidirectional wind</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Meredith, K., Zhou, X., Ren, N., Chatterjee, P., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/20._Karl_V._Meredith_-_Suppression_Modeling_of_Roll-Paper_Storage_-_Validation_and_Prediction_%28sm%29__1570116696213.pdf" target="_blank" rel="noopener">Suppression modeling of roll-paper storage: validation and prediction</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Chatterjee, P., Geiman, J., Meredith, K.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/21._Prateep_Chatterjee_-_Numerical_Simulations_of_Ceiling_Jets_below_Obstructed,_Sloped_Ceilings__1570116750362.pdf" target="_blank" rel="noopener">Numerical simulations of ceiling jets below obstructed, sloped ceilings</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">White, J., Keller, S., Sunderland, P., Trouvé, A., Marshall, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/22._James_P._White_-_Water-Mist_Suppression_Effects_and_Measured_Temperature_Statistics_in_a_Buoyant,_Turbulent_Line_Flame__1570116862281.pdf" target="_blank" rel="noopener">Water-mist suppression effects and measured temperature statistics in a buoyant, turbulent line flame</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Sezer, H., Arsava, K., Arava, S., Rangwala, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/23._Hayri_Sezer_-_A_Computational_Study_of_Combustion_Induced_Crude_Oil_Migration_in_Porous_Media__1570116937437.pdf" target="_blank" rel="noopener">A computational study of combustion induced crude oil migration in porous media</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zhou, X.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/24._Xiangyang_Zhou_-_An_Experimental_Study_of_Complex_Fuel_Suppression__1570117090216.pdf" target="_blank" rel="noopener">An experimental study of complex fuel suppression</a></td></tr></tbody></table><p><span style="font-size:32px">2016</span></p><p><a href="/static/files/6/2016_Fire_Modeling_Workshop_Program4__1570118099854.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/Fire_modeling_workshop_2016_participants_final__1570118168174.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/cropped_2016_attendence_copy__1570117864898.png" alt="" width="748" height="424" /></span></p><p><span style="font-size:24px">Presentations</span></p><table border="0" style="width:100%;border-collapse:collapse"><tbody><tr style="height:18px"><td style="width:100%;height:18px">White, J., Vilfayeau, S., Verma, S., Trouvé, A., Sunderland, P., Marshall, A</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/01._James_P._White_-_Fire_Suppression_Analysis_of_a_Buoyant,_Turbulent_Line_Flame__1571406648685.pdf" target="_blank" rel="noopener">Fire suppression analysis of a buoyant, turbulent line flame</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Grange, N., Chetehouna, K., Gascoi, N.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/02._N._Grange_-_Numerical_study_of_a_NexGen_Burner_diffusion_flame__1571406705809.pdf" target="_blank" rel="noopener">Numerical study of nexgen burner diffusion flame</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Yu, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/03._Bert_Yu_-_An_Algorithm_for_Determining_Turbulent_Flame_Extinction_by_Water_Mist_in_Fires__1571406751132.pdf" target="_blank" rel="noopener">An algorithm for determining flame extinction by water mist in fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/04._Sergey_Dorofeev_-_Thermal_Quenching_of_Mixed_Eddies_in_Non-Premixed_Flames__1571406790655.pdf" target="_blank" rel="noopener">Thermal quenching of mixed eddies in non-premixed flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ren, N., Yu, H., Sheikhi, R., Meredith, K., Wang, Y., Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/05._Ning_Ren_-_Flame_Extinction_Modeling_for_Water_Mist_Suppression__1571406842440.pdf" target="_blank" rel="noopener">Flame extinction modeling for water mist suppression</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zhao, X.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/06._Xinyu_Zhao_-_Monte_Carlo_Ray_Tracing_Method_for_Fire_Radiation_Modeling__1571406880800.pdf" target="_blank" rel="noopener">Monte Carlo ray tracing method for fire radiation modeling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zeng, D., Chaos, M., Wang, Yi</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/07._Dong_Zeng_-_Radiative_Characteristics_of_Fires_with_Different_Sooting_Propensities__1571406913947.pdf" target="_blank" rel="noopener">Radiative characteristics of fires with different sooting propensities</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Sikic, I., Wen, J., Dembele, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/08._Ivan_Sikic_-_Improvement_of_Gas_Radiation_Treatment_in_FireFOAM__1571406946667.pdf" target="_blank" rel="noopener">Improvement of gas radiation treatment in FireFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Gupta, A., Chaos, M., Meredith, K., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/09._Ankur_Gupta_-_Modeling_of_Radiative_Heat_Transfer_in_Water-Mist_Environment__1571406983390.pdf" target="_blank" rel="noopener">Modeling of radiative heat transfer in water-mist environment</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Vanella, M.., McDermott, R., Forney, G.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/10._Marcos_Vanella_-_Advances_on_complex_geometry_simulation_capability_for_the_Fire_Dynamics_Simulator__1571407051530.pdf" target="_blank" rel="noopener">Advances on complex geometry simulation capability for the Fire Dynamics Simulator</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Lattimer, A., Borggaard, J., Gugercin, S., Luxbacher, K., Lattimer, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/11._Alan_Lattimer_-_Reduced_Order_Models_for_Fire_Plumes__1571407229071.pdf" target="_blank" rel="noopener">Reduced order models for fire plumes</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ping, P., Chung, Y., Wang, Q., Wen, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/12._Ping_Ping_-_Simulating_the_electro-thermal_response_of_lithium-ion_battery_under_aggravating_conditions_with_OpenFOAM__1571407287324.pdf" target="_blank" rel="noopener">Simulating the electro-thermal response of lithium-ion battery under aggravating conditions with OpenFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Gollner, M., Miller, C., Tang, W., Finney, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/13._Michael_J._Gollner_-_An_Investigation_of_Hydrodynamic_Instabilities_in_Wind-Driven_Flames__1571407378621.pdf" target="_blank" rel="noopener">An investigation of hydrodynamic instabilities in wind-driven flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Delichatsios, M., Zhang, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/14._M_Delichatsios_-_Wind_Induced_Near_Ground_by_Large_Area_Fires__1571407418233.pdf" target="_blank" rel="noopener">Wind induced near ground by large area fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Xin, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/15._Yibing_Xin_-_Water_Transport_on_Burning_Surfaces_in_Roll_Paper_Fires__1571407452601.pdf" target="_blank" rel="noopener">Water transport on burning surfaces in roll paper fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Myers, T., Marshall, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/16._Taylor_M._Myres_-_FireFOAM_Sprinkler_Spray_Modeling__1571407483254.pdf" target="_blank" rel="noopener">FireFOAM sprinkler spray modeling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Link, E., Myers, T., Sunderland, P., Trouvé, A., Marshall, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/17._Eric_Link_-_FireFOAM_Sprinkler_Spray_Modeling__1571407526674.pdf" target="_blank" rel="noopener">Spray penetration analysis in a sprinkler array</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Chatterjee, P., Meredith, K., Jamison, K., Ren, N., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/18._Prateep_Chatterjee_-_Analysis_of_Roll-Paper_Fire_Plume_with_Application_to_Suppression__1571407571900.pdf" target="_blank" rel="noopener">Analysis of the roll-paper fire plume with application to suppression</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Meredith, K., Chatterjee, P., Jamison, K., Ren, N., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/19._Karl_Meredith_-_Simulating_Roll-Paper_Suppression_with_Application_to_High_Storage__1571407636738.pdf" target="_blank" rel="noopener">Simulating roll-paper suppression with application to high storage</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Agarwal, G., Chaos, M., Wang, Y., Zeinali, D., Merci, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/20._Karl_V._Meredith_-_Suppression_Modeling_of_Roll-Paper_Storage_-_Validation_and_Prediction_%28sm%29__1570116696213.pdf" target="_blank" rel="noopener">Pyrolysis model properties of engineered wood products and validation in transient heating scenarios</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Liao, Y., Li, C., Zhao, X., T'ien, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/21._Ya-Ting_T._Liao_-_Development_of_Test-Based_Solid_Pyrolysis_Model__1571407739252.pdf" target="_blank" rel="noopener">Development of test-based solid pyrolysis model</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Huang, X., Li, K.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/22._Xinyan_Huang_-_Modelling_the_Bench-Scale_Fire_on_MDF_-_Effects_of_Flame_and_Physicochemical_Properties__1571407793558.pdf" target="_blank" rel="noopener">Modeling the bench-scale fire on MDF: effects of flame and physiochemical properties</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Rein., G., Hadden, R.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/23._Izabella_Vermesi_-_Study_of_Pyrolysis_and_Ignition_of_PMMA_and_MDF_Samples_Subjected_to_Transient_Irradiation__1571407832572.pdf" target="_blank" rel="noopener">Study of pyrolysis and ignition of PMMA and MDF samples subjected to transient irradiation</a></td></tr></tbody></table><p><span style="font-size:32px">2015</span></p><p><a href="/static/files/6/2015_Fire_Modeling_Workshop_Program_4__1570129623932.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/attendees__1571405519446.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px">Presentations</span></p><table border="0" style="width:100%;border-collapse:collapse"><tbody><tr style="height:18px"><td style="width:100%;height:18px">Zhou, X.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/1.a_Xiangyang_Zhou_-_Velocity_Fields_of_Three_Hot_Air_Jet_Plumes_Impinging_on_a_Horizontal_Ceiling__1572616507191.pdf" target="_blank" rel="noopener">Velocity fields of three hot air jet plumes impinging on a horizontal ceiling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zadeh, S., Maragkos, G., Beji, T., Merci, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/1.b_S._Ebrahim_Zadeh_-_Large_Eddy_Sim_of_Ceiling-Jet_Induced_by__Impingement_of_Turbulent_Hot_Air_Plume_on_Horizontal_Ceiling__1572616581518.pdf" target="_blank" rel="noopener">LES of a ceiling-jet induced by the impingement of a turbulent hot air plume on a horizontal ceiling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Meredith, K., Zhou, X., Zadeh, E., Merci, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/1.c_K._Meredith_-_Numerical_Simulation_of_Spray-Plume_Interactions__1572616633872.pdf" target="_blank" rel="noopener">Numerical simulation of spray-plume interactions</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Öztekin, E.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/2._E._Oztekin_-_Buoyancy_driven_flows_under_inclined_surfaces__1572616714591.pdf" target="_blank" rel="noopener">Buoyancy-driven flows under inclined surfaces</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Myers, T., Link, E., Jordan, S., Souvandy, S., Sunderland, P., Trouvé, A., Marshall, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/3._Taylor_Mayers_-_Predicting_Fire_Sprinkler_Spray_Dispersion_in_FireFOAM__1572616810223.pdf" target="_blank" rel="noopener">Predicting fire sprinkler spray dispersion in FireFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Meredith, K.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/4._K._Meredith_-_VOF_Modeling_of_Fire_Sprinkler_Injection_Patterns__1572616854972.pdf" target="_blank" rel="noopener">VOF modeling of fire sprinkler injection patterns</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">White, J., Vilfayeau, S., Link, E., Marshall, A., Sunderland, P., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/5._Arnaud_Trouve_-_Suppression_Measurements_in_a_buoyant_turbulent_line_flame_for_CFD_model_validation__1572616976228.pdf" target="_blank" rel="noopener">Suppression measurements in a boutant, turbulent line flame for CFD model validation</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Hewson, J., Lignell, D., Kearney, S., Guildenbecher, D., Lansinger, V.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/6._John_Hewson_-_One-dimensional_turbulence_simulation_of_soot_and_enthalpy_evolution_in_ethylene_jet_flames__1572617178455.pdf" target="_blank" rel="noopener">1D turbulence simulation of soot and enthalpy evolution in ethylene jet flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">McDermott, R., Weinschenk, C., Floyd, J., Sankaran, V.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/7._Randall_McDermott_-_Extension_of_the_FDS_Turbulent_Batch_Reactor_Model_to_Premixed_Combustion__1572617255177.pdf" target="_blank" rel="noopener">Extension of the FDS turbulent batch reactor model to premixed combustion</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ren, N., Zeng, D., Meredith, K., Zhou, X., Chaos, M., Wang, Y., Dorofeev, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/8._Ning_Ren_-_Roll_paper_fire_modeling__1572617309352.pdf" target="_blank" rel="noopener">Roll-paper fire growth modeling</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Talalov, V., Stepanov, V., Tsoy, A., Kokovina, E.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/9._Alexander_Snegirev_-_Generalized_approach_to_model_pyrolysis_of_flammable_materials_and_volatile_oxidation__1572617378726.pdf" target="_blank" rel="noopener">Generalized approach to model pyrolysis of flammable materials and volatile oxidation</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Coppalle, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/10._A._Coppalle_-_Influence_of_the_position_of_vents_in_the_case_of_naturally-ventilated_fires__1572617420792.pdf" target="_blank" rel="noopener">Influence of the position of vents in the case of naturally-ventilated fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Le, D., Devaud, C., Weckman, B., Bounagui, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/11._Duy_Le_-_Large_Eddy_Simulation_%28LES%29_of_a_large_scale_fire_in_confined_and_ventilated_compartments__1572617506807.pdf" target="_blank" rel="noopener">LES of a large scale fire in confined and ventilated compartments</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Braennstroem, F.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/12._Fabian_Braennstroem_-_Industrial_applications_of_fireFoam_%E2%80%93_Special_Topic_hybrid_divergence_schemes__1572617578108.pdf" target="_blank" rel="noopener">Industrial applications of FireFOAM - Special Topic: hybrid divergence schemes</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Wang, Q.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/13._Qiqi_Wang_-_Design_Optimization_with_LES__1572617608748.pdf" target="_blank" rel="noopener">Design optimization with LES</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Drzycimski, K., Arnold, L.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/15._Kevin_Drzycimski_-_Towards_Smoke_and_Fire_Simulations_with_adaptive_FEM__1572617674662.pdf" target="_blank" rel="noopener">Towards smoke and fire simulations with adaptive FEM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Sikic, I., Wen, J., Dembele, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/16._Ivan_Sikic_-_Evaluation_of_Different_Schemes_of_the_Weighted-Sum-of-Grey-Gases-Model_for_Fire_Simulations__1572617757763.pdf" target="_blank" rel="noopener">Evaluation of different schemes of the weighted-sum-of-grey-gases-model for fire simulations</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">McKinnon, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/17._Mark_McKinnon_-_A_Standard_Methodology_to_Characterize_Composite_Materials_for_Pyrolysis_Models__1572617804902.pdf" target="_blank" rel="noopener">A standard methodology to characterize composite materials for pyrolysis models</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Vermesi, I., Roenner, N., Rein, G., Pironi, P., Hadden, R.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/18._Izabella_Vermesi_-_Pyrolysis_of_PMMA_and_ignition_criteria_for_transient_irradiation_conditions__1572617852420.pdf" target="_blank" rel="noopener">Pyrolysis of PMMA and ignition criteria for transient irradiation conditions</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Richard, F., Batiot, B., Rogaume, T., Luche, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/19._F._RICHARD_-_Modeling_of_plywood_pyrolysis_under_cone_calorimeter_conditions__1572617932920.pdf" target="_blank" rel="noopener">Modeling of pine wood pyrolysis under cone calorimeter conditions</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Wang, C., Ding, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/20._Changjian_Wang_-_Modeling_the_Pyrolysis_of_Wet_Wood_Using_FireFOAM__1572617974412.pdf" target="_blank" rel="noopener">Modeling the pyrolysis of wet wood using FireFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Agarwal, G., Chaos, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/21.a_Gaurav_Agarwal_-_Unit_Cell_Approach_to_Investigate_the_Burning_Behavior_of_Cartoned_Unexpanded_Plastic_%28CUP%29_Commodity__1572618040483.pdf" target="_blank" rel="noopener">Unit cell approach to investigate the burning behaviour of cartoned unexpanded plastic (CUP) commodity</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Xin, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/21.b_Yibing_Xin_-_Complex_Fuel_Experiments_using_Characteristic_Fuel_Unit_%28CFU%29_Approach_for_Cartoned_Commodities__1572618080418.pdf" target="_blank" rel="noopener">Complex fuel experiments of cartoned commodities using the CFU approach</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Gupta, A., Meredith, K., Agarwal, G., Thumuluru, S., Xin, Y., Chaos, M., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/21.c_Ankur_Gupta_-_CFD_MOdeling_of_Fire_Growth_in_Rack-Storages_of_Cartoned_Unexpanded_Plastic_%28CUP%29_commodity__1572618265893.pdf" target="_blank" rel="noopener">CFD modeling of fire growth in rack storages of cartoned unexpanded plastic (CUP) commodity</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Gollner, M., Singh, A., Trouvé, A., Gorham, D., Verma, S., Tang, W., Miller, C.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/22._Michael_Gollner_-_Probing_the_Structure_of_Wall-Bounded_Flames__1572618382859.pdf" target="_blank" rel="noopener">Probing the structure of wall-bounded flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Houssami, M., Lamorlette, A., Morvan, D., Simeoni, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/23._M._Houssami_-_LES_Modeling_of_Porous_Fuel_Burning_in_the_Fire_Propagation_Apparatus__1572618444556.pdf" target="_blank" rel="noopener">LES modeling of porous fuel burning in the fire propagation apparatus</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Vouros, A., Delichatsios, M., Zhang, J., Fardis, M., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:17px"><a href="/static/files/6/24._Michael_Delichatsios_-_Towards_evaluation_of_structural_fire_resistance_owing_to_localised_fires_a_hybrid_approach__1572618510734.pdf" target="_blank" rel="noopener">Towards evaluation of structural fire resistance owing to localized fires: a hybrid approach</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Brown, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/25._Alexander_Brown_-_Composite_Fire_Rubble_Test_Results_Implications_for_Models__1572618558137.pdf" target="_blank" rel="noopener">Composite fire rubble test results: implications for models</a></td></tr></tbody></table><p><span style="font-size:32px">2014</span></p><p><a href="/static/files/6/2014_Fire_Modeling_Workshop_Program_1__1570130897883.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/workshop_2014_participants_2__1570130950119.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/attendence_cropped__1570131050898.png" alt="" width="349" height="215" /></span></p><p><span style="font-size:32px">2013</span></p><p><a href="/static/files/6/2013_Fire_Modeling_Workshop_Program_4__1570131314046.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/attendence__1571405925320.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/group_photo__1570131342348.png" alt="" width="349" height="202" /></span></p><p><span style="font-size:24px">Presentations</span></p><table border="0" style="width:100%;border-collapse:collapse"><tbody><tr><td style="width:100%">Gollner, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/AnExperimentalModelUpwardFlameSpreadThroughPorousFuels__1572618884422.pdf" target="_blank" rel="noopener">An experimental model of upward flame spread through porous fuels</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">McDermott, R., Forney, G., Luo, C., Lattimer, B.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/AnImmersedBoundaryMethod__1572618967284.pdf" target="_blank" rel="noopener">A progress report on the development of an immersed boundary method for low-Mach flows</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Wang, Y., Meredith, K., Zhou, X., Xin, Y., Chatterjee, P., Chaos, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/CFDModelingRackStorageFireSuppressionSprinklers__1572619018728.pdf" target="_blank" rel="noopener">CFD modeling of rack storage fire suppression with sprinklers</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zhou, X.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/CharacterizationInteractionsBetweenHotAirPlumesWaterSprays__1572619058827.pdf" target="_blank" rel="noopener">Characterization of interactions between hot air plumes and water sprays for sprinkler protection</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Li, J/, McKinnon, M., Liu, X., Semmes, M., Stoliarov, S.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/DevelopmentPhysicallyMeaningfulPyrolysisModels__1572619122439.pdf" target="_blank" rel="noopener">Development of physically meaningful pyrolysis models using milligram- and bench-scale tests</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Chaos, M., Boardman, A., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/DoubleWallCorrugatedCardboard__1572619173619.pdf" target="_blank" rel="noopener">Double-wall corrugated cardboard pyrolysis and flame spread experiments</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Vilfayeau, S., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/ExtinctionDiffusionFlames__1572619213098.pdf" target="_blank" rel="noopener">Extinction of diffusion flames in fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Rein, G.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/ForecastingFireDynamicsUsingInverseCFD__1572619243051.pdf" target="_blank" rel="noopener">Forecasting fire dynamics and smart infrastructure</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Puttock, J., Chakraborty, D., Farmayan, W.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/GasExplosionModellingUsingPdrfoam__1572619308376.pdf" target="_blank" rel="noopener">Gas explosion modelling with PDRFOAM</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Wang, C., Wen, J., Yanming, D., Chen, Z.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/LESBlendedFuelPoolFire__1572619371325.pdf" target="_blank" rel="noopener">LES of blended-fuel pool/jet fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Ren., N., Wang, Y., Vilfayeau, S., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/LESModelingTurbulentWallFires__1572619411806.pdf" target="_blank" rel="noopener">LES of vertical turbulent wall fires</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Wang, Y., Chaos, M., Ren, N.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/ModelingFlameSpreadDoubleWallCorrugatedCardboard__1572619459642.pdf" target="_blank" rel="noopener">Modeling flame spread over double-wall corrugated cardboard</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Spagnolo, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/MultidisciplinaryApproachFireHazardAssessment__1572619505371.pdf" target="_blank" rel="noopener">Multidisciplinary approach for fire hazard assessment</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">de Vries, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/MultiSpectralAnalysisVerticalFlameSpreadCorrugatedCardboard__1572619556101.pdf" target="_blank" rel="noopener">Multi-spectral analysis of vertical flam spread on corrugated cardboards with and without external radiation</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Chen, Z.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/NuclearPowerPlantFireResearchINEST__1572619589012.pdf" target="_blank" rel="noopener">Nuclear power plant fire research program at INEST</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Chatterjee, P., Meredith, K., Wang, Y., Yu, H., Tamanini, F.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/NumericalSimulationsCeilingLayerFlows__1572619629387.pdf" target="_blank" rel="noopener">Numerical simulations of ceiling flows</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Sankaran, R., Ren, N., Wang, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/ProfilingPerformanceAnalysisFireFOAM__1572619677968.pdf" target="_blank" rel="noopener">Profiling and perforamance analysis of FireFOAM on the Titan Cray XK7 system and Infiniband clusters</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">de Ris, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/RadiationBlockageWallFireFlames__1572619809472.pdf" target="_blank" rel="noopener">Radiation blockage of wall fire flames</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Zeng, D., Chaos, M.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/RadiationCharacteristicsCorrugatedCardboard__1572619854614.pdf" target="_blank" rel="noopener">Radiation characteristics of corrugated cardboard flame</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Myers, T., Marshall, A., Baum, H.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/SimplifiedModelingSprinklerHeadFluidMechanics__1572619904591.pdf" target="_blank" rel="noopener">Simplified modeling of sprinkler head fluid mechanics</a></td></tr><tr style="height:18px"><td style="width:100%;height:19px">Meredith, K., Chatterjee, P., Yu, B., Zhou, X.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/SimulatingFireSprinklerADD__1572619955138.pdf" target="_blank" rel="noopener">Simulations fire sprinkler actual delivered density</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Aghajani, H., Dembele, S., Wen, J.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/SprinklerSprayQuantification__1572620008298.pdf" target="_blank" rel="noopener">Sprinkler spray characterisation using a semi-empirical approach</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Link, E., Myers, T., Vilfayeau, S., White, J., Marshall, A., Sunderland, P., Trouvé, A.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/TowardsPredictingFireSuppressionPerformance__1572620104578.pdf" target="_blank" rel="noopener">Towards predicting fire suppression performance - quantifying fire-spray interactions</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Öztekin, E.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/WallResolvedLES__1572620175739.pdf" target="_blank" rel="noopener">Wall-resolved LES for buoyancy-driven flows in encolsures</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Xin, Y.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/WaterTransportRackStorageCorrugatedCardboard__1572620222199.pdf" target="_blank" rel="noopener">Water transport in rack storage of corrugated cardboard commodities</a></td></tr><tr style="height:18px"><td style="width:100%;height:18px">Thomas, J., Houssami, M., Lamorlette, A., Simeoni, A., Morvan, D.</td></tr><tr style="height:18px"><td style="width:100%;height:18px"><a href="/static/files/6/WildlandFuelBurningExperimentsCFDModeling__1572620274609.pdf" target="_blank" rel="noopener">Wildland fuel burning experiments and CFD modeling</a></td></tr></tbody></table><p><span style="font-size:32px">2012</span></p><p><a href="/static/files/6/2012_Fire_Modeling_Workshop_Program_2__1570131502486.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/attendence__1570131519382.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><a href="/images//static/files/6/group_photo__1570131522292.jpg"><span style="font-size:24px"><img src="/images//static/files/6/group_photo__1570131522292.jpg" alt="" width="350" height="197" /></span></a></p><p><span style="font-size:24px">Presentations</span></p><p><span style="font-size:32px">2011</span></p><p><a href="/static/files/6/2011_Fire_Modeling_Workshop_Program_3__1570131722103.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/attendance__1571406060860.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/Workshop2011photo%5B2%5D__1570131729995.jpg" alt="" width="349" height="262" /></span></p><p><span style="font-size:24px">Presentations</span></p><p><span style="font-size:32px">2010</span></p><p><a href="/static/files/6/2010_Fire_Modeling_Workshop_Program_2__1570131950341.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/attendance__1571406312287.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/Workshop2010%5B1%5D__1570131956921.jpg" alt="" width="349" height="259" /></span></p><p><span style="font-size:24px">Presentations</span></p><p><span style="font-size:32px">2009</span></p><p><a href="/static/files/6/Agenda_FM_Global_Open_Source_CFD_Fire_Modeling_Workshop_2__1570132068351.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Program</span></a></p><p><a href="/static/files/6/attendance__1570132071432.pdf" target="_blank" rel="noopener"><span style="font-size:24px">Attendees</span></a></p><p><span style="font-size:24px"><img src="/images//static/files/6/group_photo__1570132138506.jpg" alt="" width="350" height="218" /></span></p><p><span style="font-size:24px">Presentations</span></p>