&HEAD CHID = 'pallet_33_16p', TITLE = 'Room experiments - Test 14' / IT - Simulazione basata su "Experimental study of the localized room fires" (S. Hostikka, M. Kokkala e J. Vaari), paper di riferimento. EN - Simulation based on "Experimental study of the localized room fires" (S. Hostikka, M. Kokkala and J. Vaari), reference paper. Test 14: IT - Incendio di un pallet di legno, innescato utilizzando una vasca contenente n-eptano, all'interno di una stanza 10 x 7 x 5 m. Comparazione dei risultati della simulazione con i dati forniti nel paper di riferimento (o versioni successive). Descrizioni dettagliate possono essere trovate nelle rispettive sezioni. EN - Fire of a wood pallet, ignited using a pool containing n-heptane, inside a 10 x 7 x 5 m room. Comparison between the results of the simulation and the data provided in the reference paper (or subsequent releases). Detailed descriptions can be found in the respective sections. Dott.Ing. Battaggia Enrico IPSIP - Politecnico di Milano ************************************************************************************************************************************ IT - Tempo di simulazione e salvataggio EN - Simulation time and saving ************************************************************************************************************************************ IT - Tempo totale di simulazione in secondi EN - Total simulation time in seconds &TIME T_BEGIN = 0.0, T_END = 2500.0 / IT - Frequenza di scrittura dei file di output. La scrittura avviene ogni TWFIN/NFRAMES secondi. La simulazione viene salvata ogni DT_RESTART secondi simulati. EN - Writing frequency of output files. Writing occurs every TWFIN/NFRAMES seconds. The simulation is saved every DT_RESTART simulated seconds. &DUMP NFRAMES = 2500 DT_RESTART = 100 / IT - TRUE: La simulazione continua dal time step dove è stata interrotta o dove è stato praticato l'ultimo salvataggio (vedere guida al punto 7.3) FALSE: La simulazione si avvia da capo, sovrascrivendo i dati eventualmente presenti nella stessa cartella EN - TRUE: The simulation continues from the time step where it was interrupted o where the last save was performed (see guide under point 7.3) FALSE: The simulation starts from scratch, overwriting data possibly present in the same folder &MISC RESTART = .FALSE. / ************************************************************************************************************************************ MESH IT - Le mesh sono state impostate seguendo lo schema suggerito al punto 3.2 di "Propagation of model uncertainty in the stochastic simulations of a compartment fire" (D. Paudel, S. Hostikka), in cui si fa riferimento agli esperimenti riportati nel paper di riferimento. Si usano mesh di 5 x 5 x 5 cm nella zona più vicina al fuoco e di 10 x 10 x 10 cm nel resto del dominio. Le mesh sono separate in altezza in modo da favorire il calcolo parallelo. EN - The meshes have been set up following the scheme suggested under point 3.2 of "Propagation of model uncertainty in the stochastic simulations of a compartment fire" (D. Paudel, S. Hostikka), in which experiments reported in the reference paper are referred to. 5 x 5 x5 cm meshes are used in the area closer to the fire and 10 x 10 x 10 cm meshes are used in the rest of the domain. The meshes are split in height in order to favor parallel computation. ************************************************************************************************************************************ &MESH ID = 'comp 01-1' IJK = 16,18,5 XB = -0.4,2.8,-0.4,3.2,0.0,1.0, MPI_PROCESS = 0 N_THREADS = 1 / 1440 &MESH ID = 'comp 01-2' IJK = 16,18,5 XB = -0.4,2.8,-0.4,3.2,1.0,2.0, MPI_PROCESS = 0 N_THREADS = 1 / 1440 &MESH ID = 'comp 01-3' IJK = 16,18,5 XB = -0.4,2.8,-0.4,3.2,2.0,3.0, MPI_PROCESS = 0 N_THREADS = 1 / 1440 &MESH ID = 'comp 01-4' IJK = 16,18,5 XB = -0.4,2.8,-0.4,3.2,3.0,4.0, MPI_PROCESS = 0 N_THREADS = 1 / 1440 &MESH ID = 'comp 01-5' IJK = 16,18,7 XB = -0.4,2.8,-0.4,3.2,4.0,5.4, MPI_PROCESS = 1 N_THREADS = 1 / 2016 &MESH ID = 'comp 02-1' IJK = 17,6,5 XB = 2.8,6.2,-0.4,0.8,0.0,1.0, MPI_PROCESS = 1 N_THREADS = 1 / 510 &MESH ID = 'comp 02-2' IJK = 17,6,5 XB = 2.8,6.2,-0.4,0.8,1.0,2.0, MPI_PROCESS = 1 N_THREADS = 1 / 510 &MESH ID = 'comp 02-3' IJK = 17,6,5 XB = 2.8,6.2,-0.4,0.8,2.0,3.0, MPI_PROCESS = 1 N_THREADS = 1 / 510 &MESH ID = 'comp 03-1' IJK = 21,18,5 XB = 6.2,10.4,-0.4,3.2,0.0,1.0, MPI_PROCESS = 1 N_THREADS = 1 / 1890 &MESH ID = 'comp 03-2' IJK = 21,18,5 XB = 6.2,10.4,-0.4,3.2,1.0,2.0, MPI_PROCESS = 2 N_THREADS = 1 / 1890 &MESH ID = 'comp 03-3' IJK = 21,18,5 XB = 6.2,10.4,-0.4,3.2,2.0,3.0, MPI_PROCESS = 2 N_THREADS = 1 / 1890 &MESH ID = 'comp 02-4' IJK = 17,6,5 XB = 2.8,6.2,-0.4,0.8,3.0,4.0, MPI_PROCESS = 3 N_THREADS = 1 / 510 &MESH ID = 'comp 02-5' IJK = 17,6,7 XB = 2.8,6.2,-0.4,0.8,4.0,5.4, MPI_PROCESS = 3 N_THREADS = 1 / 714 &MESH ID = 'comp 03-4' IJK = 21,18,5 XB = 6.2,10.4,-0.4,3.2,3.0,4.0, MPI_PROCESS = 3 N_THREADS = 1 / 1890 &MESH ID = 'comp 03-5' IJK = 21,18,7 XB = 6.2,10.4,-0.4,3.2,4.0,5.4, MPI_PROCESS = 3 N_THREADS = 1 / 2646 &MESH ID = 'comp 04-4' IJK = 5,7,5 XB = 2.8,3.8,0.8,2.2,3.0,4.0, MPI_PROCESS = 3 N_THREADS = 1 / 175 &MESH ID = 'comp 04-5' IJK = 5,7,7 XB = 2.8,3.8,0.8,2.2,4.0,5.4, MPI_PROCESS = 3 N_THREADS = 1 / 245 &MESH ID = 'comp 04-1' IJK = 5,7,5 XB = 2.8,3.8,0.8,2.2,0.0,1.0, MPI_PROCESS = 4 N_THREADS = 1 / 175 &MESH ID = 'comp 04-2' IJK = 5,7,5 XB = 2.8,3.8,0.8,2.2,1.0,2.0, MPI_PROCESS = 4 N_THREADS = 1 / 175 &MESH ID = 'comp 04-3' IJK = 5,7,5 XB = 2.8,3.8,0.8,2.2,2.0,3.0, MPI_PROCESS = 4 N_THREADS = 1 / 175 &MESH ID = 'comp 05-1' IJK = 28,28,4 XB = 3.8,5.2,0.8,2.2,0.0,0.2, MPI_PROCESS = 4 N_THREADS = 1 / 3136 &MESH ID = 'comp 07-1' IJK = 17,5,5 XB = 2.8,6.2,2.2,3.2,0.0,1.0, MPI_PROCESS = 4 N_THREADS = 1 / 425 &MESH ID = 'comp 07-2' IJK = 17,5,5 XB = 2.8,6.2,2.2,3.2,1.0,2.0, MPI_PROCESS = 4 N_THREADS = 1 / 425 &MESH ID = 'comp 05-2' IJK = 28,28,16 XB = 3.8,5.2,0.8,2.2,0.2,1.0, MPI_PROCESS = 5 N_THREADS = 1 / 12544 &MESH ID = 'comp 05-3' IJK = 28,28,8 XB = 3.8,5.2,0.8,2.2,1.0,1.4, MPI_PROCESS = 6 N_THREADS = 1 / 6272 &MESH ID = 'comp 05-3b' IJK = 28,28,8 XB = 3.8,5.2,0.8,2.2,1.4,1.8, MPI_PROCESS = 7 N_THREADS = 1 / 6272 &MESH ID = 'comp 05-4' IJK = 14,14,12 XB = 3.8,5.2,0.8,2.2,1.8,3.0, MPI_PROCESS = 8 N_THREADS = 1 / 2352 &MESH ID = 'comp 05-5' IJK = 14,14,10 XB = 3.8,5.2,0.8,2.2,3.0,4.0, MPI_PROCESS = 8 N_THREADS = 1 / 1960 &MESH ID = 'comp 05-6' IJK = 7,7,7 XB = 3.8,5.2,0.8,2.2,4.0,5.4, MPI_PROCESS = 8 N_THREADS = 1 / 343 &MESH ID = 'comp 06-1' IJK = 5,7,5 XB = 5.2,6.2,0.8,2.2,0.0,1.0, MPI_PROCESS = 8 N_THREADS = 1 / 175 &MESH ID = 'comp 06-2' IJK = 5,7,5 XB = 5.2,6.2,0.8,2.2,1.0,2.0, MPI_PROCESS = 8 N_THREADS = 1 / 175 &MESH ID = 'comp 06-3' IJK = 5,7,5 XB = 5.2,6.2,0.8,2.2,2.0,3.0, MPI_PROCESS = 8 N_THREADS = 1 / 175 &MESH ID = 'comp 06-4' IJK = 5,7,5 XB = 5.2,6.2,0.8,2.2,3.0,4.0, MPI_PROCESS = 8 N_THREADS = 1 / 175 &MESH ID = 'comp 06-5' IJK = 5,7,7 XB = 5.2,6.2,0.8,2.2,4.0,5.4, MPI_PROCESS = 8 N_THREADS = 1 / 245 &MESH ID = 'comp 07-3' IJK = 17,5,5 XB = 2.8,6.2,2.2,3.2,2.0,3.0, MPI_PROCESS = 8 N_THREADS = 1 / 425 &MESH ID = 'comp 07-4' IJK = 17,5,5 XB = 2.8,6.2,2.2,3.2,3.0,4.0, MPI_PROCESS = 8 N_THREADS = 1 / 425 &MESH ID = 'comp 07-5' IJK = 17,5,7 XB = 2.8,6.2,2.2,3.2,4.0,5.4, MPI_PROCESS = 8 N_THREADS = 1 / 595 &MESH ID = 'comp 08-3' IJK = 16,21,5 XB = -0.4,2.8,3.2,7.4,2.0,3.0, MPI_PROCESS = 9 N_THREADS = 1 / 1680 &MESH ID = 'comp 08-4' IJK = 16,21,5 XB = -0.4,2.8,3.2,7.4,3.0,4.0, MPI_PROCESS = 9 N_THREADS = 1 / 1680 &MESH ID = 'comp 08-5' IJK = 16,21,7 XB = -0.4,2.8,3.2,7.4,4.0,5.4, MPI_PROCESS = 9 N_THREADS = 1 / 2352 &MESH ID = 'comp 08-1' IJK = 16,21,5 XB = -0.4,2.8,3.2,7.4,0.0,1.0, MPI_PROCESS = 10 N_THREADS = 1 / 1680 &MESH ID = 'comp 08-2' IJK = 16,21,5 XB = -0.4,2.8,3.2,7.4,1.0,2.0, MPI_PROCESS = 10 N_THREADS = 1 / 1680 &MESH ID = 'comp 09-1' IJK = 17,21,5 XB = 2.8,6.2,3.2,7.4,0.0,1.0, MPI_PROCESS = 10 N_THREADS = 1 / 1785 &MESH ID = 'comp 09-2' IJK = 17,21,5 XB = 2.8,6.2,3.2,7.4,1.0,2.0, MPI_PROCESS = 10 N_THREADS = 1 / 1785 &MESH ID = 'comp 09-3' IJK = 17,21,5 XB = 2.8,6.2,3.2,7.4,2.0,3.0, MPI_PROCESS = 11 N_THREADS = 1 / 1785 &MESH ID = 'comp 09-4' IJK = 17,21,5 XB = 2.8,6.2,3.2,7.4,3.0,4.0, MPI_PROCESS = 11 N_THREADS = 1 / 1785 &MESH ID = 'comp 09-5' IJK = 17,21,7 XB = 2.8,6.2,3.2,7.4,4.0,5.4, MPI_PROCESS = 11 N_THREADS = 1 / 2499 &MESH ID = 'comp 10-1' IJK = 21,21,5 XB = 6.2,10.4,3.2,7.4,0.0,1.0, MPI_PROCESS = 12 N_THREADS = 1 / 2205 &MESH ID = 'comp 10-2' IJK = 21,21,5 XB = 6.2,10.4,3.2,7.4,1.0,2.0, MPI_PROCESS = 12 N_THREADS = 1 / 2205 &MESH ID = 'comp 10-3' IJK = 21,21,5 XB = 6.2,10.4,3.2,7.4,2.0,3.0, MPI_PROCESS = 12 N_THREADS = 1 / 2205 &MESH ID = 'comp 10-4' IJK = 21,21,5 XB = 6.2,10.4,3.2,7.4,3.0,4.0, MPI_PROCESS = 13 N_THREADS = 1 / 2205 &MESH ID = 'comp 10-5' IJK = 21,21,7 XB = 6.2,10.4,3.2,7.4,4.0,5.4, MPI_PROCESS = 13 N_THREADS = 1 / 3087 &MESH ID = 'comp e01-1' IJK = 15,11,5 XB = 10.4,13.4,1.2,3.4,0.0,1.0, MPI_PROCESS = 14 N_THREADS = 1 / 825 &MESH ID = 'comp e01-2' IJK = 15,11,5 XB = 10.4,13.4,1.2,3.4,1.0,2.0, MPI_PROCESS = 14 N_THREADS = 1 / 825 &MESH ID = 'comp e01-3' IJK = 15,11,5 XB = 10.4,13.4,1.2,3.4,2.0,3.0, MPI_PROCESS = 14 N_THREADS = 1 / 825 &MESH ID = 'comp e01-4' IJK = 15,11,5 XB = 10.4,13.4,1.2,3.4,3.0,4.0, MPI_PROCESS = 14 N_THREADS = 1 / 825 &MESH ID = 'comp e01-5' IJK = 15,11,5 XB = 10.4,13.4,1.2,3.4,4.0,5.0, MPI_PROCESS = 14 N_THREADS = 1 / 825 &MESH ID = 'comp e01-6' IJK = 15,11,5 XB = 10.4,13.4,1.2,3.4,5.0,6.0, MPI_PROCESS = 14 N_THREADS = 1 / 825 &MESH ID = 'comp e02-1' IJK = 15,11,5 XB = 10.4,13.4,3.4,5.6,0.0,1.0, MPI_PROCESS = 15 N_THREADS = 1 / 825 &MESH ID = 'comp e02-2' IJK = 15,11,5 XB = 10.4,13.4,3.4,5.6,1.0,2.0, MPI_PROCESS = 15 N_THREADS = 1 / 825 &MESH ID = 'comp e02-3' IJK = 15,11,5 XB = 10.4,13.4,3.4,5.6,2.0,3.0, MPI_PROCESS = 15 N_THREADS = 1 / 825 &MESH ID = 'comp e02-4' IJK = 15,11,5 XB = 10.4,13.4,3.4,5.6,3.0,4.0, MPI_PROCESS = 15 N_THREADS = 1 / 825 &MESH ID = 'comp e02-5' IJK = 15,11,5 XB = 10.4,13.4,3.4,5.6,4.0,5.0, MPI_PROCESS = 15 N_THREADS = 1 / 825 &MESH ID = 'comp e02-6' IJK = 15,11,5 XB = 10.4,13.4,3.4,5.6,5.0,6.0, MPI_PROCESS = 15 N_THREADS = 1 / 825 98318 cells ************************************************************************************************************************************ IT - Ostacoli EN - Obstacles ************************************************************************************************************************************ &OBST ID = 'SOUTH WALL' XB = -0.3,10.3,-0.3,0.0,0.0,5.0 SURF_ID = 'LIGHTWEIGHT CONCRETE WALL' / &OBST ID = 'EAST WALL' XB = 10.0,10.3,0.0,7.0,0.0,5.0 SURF_ID = 'LIGHTWEIGHT CONCRETE WALL' / &OBST ID = 'NORTH WALL' XB = -0.3,10.3,7.0,7.3,0.0,5.0 SURF_ID = 'LIGHTWEIGHT CONCRETE WALL' / &OBST ID = 'WEST WALL' XB = -0.3,0.0,0.0,7.0,0.0,5.0 SURF_ID = 'LIGHTWEIGHT CONCRETE WALL' / &OBST ID = 'CEILING' XB = -0.3,10.3,-0.3,7.3,5.0,5.3 SURF_ID = 'LIGHTWEIGHT CONCRETE CEILING' / &OBST ID = 'FLOOR' XB = -0.3,15.3,-0.3,7.3,0.0,0.0 SURF_ID = 'CONCRETE FLOOR' / &OBST ID = 'LOAD CELL' XB = 4.30,4.75,1.25,1.70,0.00,0.15 / &OBST ID = 'ASHLAR' XB = 4.15,4.90,1.10,1.85,0.15,0.30 / &OBST ID = 'STEEL PLATE' XB = 4.05,5.00,1.00,1.95,0.30,0.35 SURF_ID = 'STEEL' / IT - Il parametro BULK_DENSITY è utilizzato per ottenere una massa totale di combustibile di 50 kg. La geometria del pallet è stata ricostruita secondo le immagini scattate durante il test 14, che evidenziano una disposizione diversa delle assi rispetto quanto riportato nel paper. EN - The parameter BULK_DENSITY is used to obtain a total combustible mass of 50 kg. The pallet geometry has been reconstructed according to the pictures taken during test 14, which show a different layout of the cribs compared to what reported in the paper. &OBST ID = 'CRIB 2x2 SOUTH' XB = 4.20,4.852,1.15,1.22,0.35,0.397 MULT_ID = 'MULT CRIB 2x2' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &OBST ID = 'CRIB 2x2 NORTH' XB = 4.20,4.852,1.75,1.82,0.35,0.397 MULT_ID = 'MULT CRIB 2x2' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &MULT ID = 'MULT CRIB 2x2' DXB = 0.00,0.00,0.00,0.00,0.05,0.05 N_LOWER = 0 N_UPPER = 1 / &OBST ID = 'CRIB 6x2 WEST' XB = 4.20,4.27,1.15,1.802,0.45,0.497 MULT_ID = 'MULT CRIB 6x2' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &OBST ID = 'CRIB 6x2 EAST' XB = 4.80,4.87,1.15,1.802,0.45,0.497 MULT_ID = 'MULT CRIB 6x2' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &MULT ID = 'MULT CRIB 6x2' DXB = 0.00,0.00,0.00,0.00,0.10,0.10 N_LOWER = 0 N_UPPER = 5 / count from SOUTH &OBST ID = 'CRIB 5x5 1' XB = 4.20,4.852,1.15,1.22,0.50,0.547 MULT_ID = 'MULT CRIB 5x5' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &OBST ID = 'CRIB 5x5 2' XB = 4.20,4.852,1.30,1.37,0.50,0.547 MULT_ID = 'MULT CRIB 5x5' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &OBST ID = 'CRIB 5x5 3' XB = 4.20,4.852,1.45,1.52,0.50,0.547 MULT_ID = 'MULT CRIB 5x5' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &OBST ID = 'CRIB 5x5 4' XB = 4.20,4.852,1.60,1.67,0.50,0.547 MULT_ID = 'MULT CRIB 5x5' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &OBST ID = 'CRIB 5x5 5' XB = 4.20,4.852,1.75,1.82,0.50,0.547 MULT_ID = 'MULT CRIB 5x5' SURF_ID = 'CRIB' BULK_DENSITY = 566 / &MULT ID = 'MULT CRIB 5x5' DXB = 0.00,0.00,0.00,0.00,0.10,0.10 N_LOWER = 0 N_UPPER = 4 / &OBST ID = 'P1 PLATE' XB = 4.45,4.55,0.00,0.00,1.30,1.40 SURF_ID = 'PT PLATE' / &OBST ID = 'P2 PLATE' XB = 4.45,4.55,0.00,0.00,2.95,3.05 SURF_ID = 'PT PLATE' / &OBST ID = 'P3 PLATE' XB = 4.45,4.55,0.00,0.00,3.95,1.05 SURF_ID = 'PT PLATE' / &OBST ID = 'P4 PLATE' XB = 0.45,0.55,0.45,0.55,5.00,5.00 SURF_ID = 'PT PLATE' / &OBST ID = 'P5 PLATE' XB = 2.45,2.55,0.65,0.75,5.00,5.00 SURF_ID = 'PT PLATE' / &OBST ID = 'P6 PLATE' XB = 6.45,6.55,0.65,0.75,0.00,0.00 SURF_ID = 'PT PLATE' / &OBST ID = 'P7 PLATE' XB = 6.45,6.55,0.65,0.75,5.00,5.00 SURF_ID = 'PT PLATE' / &OBST ID = 'P8 PLATE' XB = 4.45,4.55,1.45,1.55,5.00,5.00 SURF_ID = 'PT PLATE' / &OBST ID = 'P9 PLATE' XB = 5.45,5.55,3.45,3.55,0.00,0.00 SURF_ID = 'PT PLATE' / &OBST ID = 'P10 PLATE' XB = 4.45,4.55,7.00,7.00,3.95,4.05 SURF_ID = 'PT PLATE' / ************************************************************************************************************************************ IT - Aperture EN - Holes ************************************************************************************************************************************ &HOLE ID = 'DOOR' XB = 9.80,10.6,2.2,4.8,0.0,3.0 / ************************************************************************************************************************************ Vent ************************************************************************************************************************************ &VENT MB='XMIN', SURF_ID='OPEN' / &VENT MB='XMAX', SURF_ID='OPEN' / &VENT MB='YMIN', SURF_ID='OPEN' / &VENT MB='YMAX', SURF_ID='OPEN' / &VENT MB='ZMAX', SURF_ID='OPEN' / ************************************************************************************************************************************ IT - Materiali e superfici EN - Materials and surfaces ************************************************************************************************************************************ &MATL ID = 'LIGHTWEIGHT CONCRETE' CONDUCTIVITY = 0.08 SPECIFIC_HEAT = 1.15 DENSITY = 475. / &SURF ID = 'LIGHTWEIGHT CONCRETE WALL' MATL_ID = 'LIGHTWEIGHT CONCRETE' COLOR = 'GRAY' BACKING = 'EXPOSED' THICKNESS = 0.25 / &SURF ID = 'LIGHTWEIGHT CONCRETE CEILING' MATL_ID = 'LIGHTWEIGHT CONCRETE' COLOR = 'GRAY' BACKING = 'EXPOSED' THICKNESS = 0.30 / &MATL ID = 'CONCRETE' CONDUCTIVITY = 1.8 SPECIFIC_HEAT = 1.04 DENSITY = 2280. / &SURF ID = 'CONCRETE FLOOR' MATL_ID = 'CONCRETE' COLOR = 'GRAY' BACKING = 'EXPOSED' THICKNESS = 0.30 / &MATL ID = 'STEEL' EMISSIVITY = 0.95 DENSITY = 7850. CONDUCTIVITY = 45.8 SPECIFIC_HEAT = 0.46 / &SURF ID = 'STEEL' COLOR = 'BLACK' MATL_ID = 'STEEL' BACKING = 'EXPOSED' THICKNESS = 0.003 / IT - Per rappresentare il legno è utilizzato un combustibile fittizio, seguendo l'esempio usato nel paper "Predictive computational fluid dynamics simulation of fire spread on wood cribs" (R. Kallada Janardhan, S. Hostikka). EN - A fictitious combustible is used to represent wood, following the example used in the paper "Predictive computational fluid dynamics simulation of fire spread on wood cribs" (R. Kallada Janardhan, S. Hostikka). &REAC FUEL = 'FUEL' C = 3.4 H = 6.2 O = 2.5 CRITICAL_FLAME_TEMPERATURE = 1337. RADIATIVE_FRACTION = 0.35 HEAT_OF_COMBUSTION = 18100 SOOT_YIELD = 0.01 CO_YIELD = 0.004 / &VENT ID = 'FIRE' XB = 4.40,4.65,1.35,1.60,0.35,0.35 SURF_ID = 'FIRE' / IT - Il combustibile definito per il legno viene utilizzato anche per simulare la presenza dell'innesco costituito da una vasca di n-eptano. In questo caso viene imposta una curva HRR ottenuta simulando separatamente la vasca con il n-eptano al suo interno. EN - The combustible defined for wood is also used to simulate the presence of an ignition consisting of a n-heptane pool. In this case a HRR curve, obtained simulating separately the pool with n-heptane inside it, is imposed. &SURF ID = 'FIRE' COLOR = RED HRRPUA = 4469.344 RAMP_Q = 'FIRE' / maximum is 279.334 kW since the burner is 0.25x0.25 m &RAMP ID = 'FIRE' T = 0 F = 0.000 / &RAMP ID = 'FIRE' T = 1 F = 0.138 / &RAMP ID = 'FIRE' T = 2 F = 0.276 / &RAMP ID = 'FIRE' T = 3 F = 0.342 / &RAMP ID = 'FIRE' T = 4 F = 0.330 / &RAMP ID = 'FIRE' T = 5 F = 0.361 / &RAMP ID = 'FIRE' T = 6 F = 0.395 / &RAMP ID = 'FIRE' T = 7 F = 0.404 / &RAMP ID = 'FIRE' T = 8 F = 0.399 / &RAMP ID = 'FIRE' T = 9 F = 0.469 / &RAMP ID = 'FIRE' T = 10 F = 0.502 / &RAMP ID = 'FIRE' T = 11 F = 0.514 / &RAMP ID = 'FIRE' T = 12 F = 0.510 / &RAMP ID = 'FIRE' T = 13 F = 0.535 / &RAMP ID = 'FIRE' T = 14 F = 0.551 / &RAMP ID = 'FIRE' T = 15 F = 0.528 / &RAMP ID = 'FIRE' T = 16 F = 0.535 / &RAMP ID = 'FIRE' T = 17 F = 0.561 / &RAMP ID = 'FIRE' T = 18 F = 0.536 / &RAMP ID = 'FIRE' T = 19 F = 0.543 / &RAMP ID = 'FIRE' T = 20 F = 0.486 / &RAMP ID = 'FIRE' T = 21 F = 0.626 / &RAMP ID = 'FIRE' T = 22 F = 0.657 / &RAMP ID = 'FIRE' T = 23 F = 0.645 / &RAMP ID = 'FIRE' T = 24 F = 0.553 / &RAMP ID = 'FIRE' T = 25 F = 0.572 / &RAMP ID = 'FIRE' T = 26 F = 0.765 / &RAMP ID = 'FIRE' T = 27 F = 0.616 / &RAMP ID = 'FIRE' T = 28 F = 0.631 / &RAMP ID = 'FIRE' T = 29 F = 0.597 / &RAMP ID = 'FIRE' T = 30 F = 0.706 / &RAMP ID = 'FIRE' T = 31 F = 0.699 / &RAMP ID = 'FIRE' T = 32 F = 0.692 / &RAMP ID = 'FIRE' T = 33 F = 0.726 / &RAMP ID = 'FIRE' T = 34 F = 0.613 / &RAMP ID = 'FIRE' T = 35 F = 0.621 / &RAMP ID = 'FIRE' T = 36 F = 0.749 / &RAMP ID = 'FIRE' T = 37 F = 0.622 / &RAMP ID = 'FIRE' T = 38 F = 0.735 / &RAMP ID = 'FIRE' T = 39 F = 0.785 / &RAMP ID = 'FIRE' T = 40 F = 0.735 / &RAMP ID = 'FIRE' T = 41 F = 0.732 / &RAMP ID = 'FIRE' T = 42 F = 0.730 / &RAMP ID = 'FIRE' T = 43 F = 0.749 / &RAMP ID = 'FIRE' T = 44 F = 0.765 / &RAMP ID = 'FIRE' T = 45 F = 0.734 / &RAMP ID = 'FIRE' T = 46 F = 0.656 / &RAMP ID = 'FIRE' T = 47 F = 0.713 / &RAMP ID = 'FIRE' T = 48 F = 0.838 / &RAMP ID = 'FIRE' T = 49 F = 0.845 / &RAMP ID = 'FIRE' T = 50 F = 0.765 / &RAMP ID = 'FIRE' T = 51 F = 0.827 / &RAMP ID = 'FIRE' T = 52 F = 0.799 / &RAMP ID = 'FIRE' T = 53 F = 0.873 / &RAMP ID = 'FIRE' T = 54 F = 0.649 / &RAMP ID = 'FIRE' T = 55 F = 0.656 / &RAMP ID = 'FIRE' T = 56 F = 0.655 / &RAMP ID = 'FIRE' T = 57 F = 0.757 / &RAMP ID = 'FIRE' T = 58 F = 0.708 / &RAMP ID = 'FIRE' T = 59 F = 0.807 / &RAMP ID = 'FIRE' T = 60 F = 0.820 / &RAMP ID = 'FIRE' T = 61 F = 0.649 / &RAMP ID = 'FIRE' T = 62 F = 0.689 / &RAMP ID = 'FIRE' T = 63 F = 0.824 / &RAMP ID = 'FIRE' T = 64 F = 0.904 / &RAMP ID = 'FIRE' T = 65 F = 0.666 / &RAMP ID = 'FIRE' T = 66 F = 0.684 / &RAMP ID = 'FIRE' T = 67 F = 0.767 / &RAMP ID = 'FIRE' T = 68 F = 0.759 / &RAMP ID = 'FIRE' T = 69 F = 0.706 / &RAMP ID = 'FIRE' T = 70 F = 0.782 / &RAMP ID = 'FIRE' T = 71 F = 0.827 / &RAMP ID = 'FIRE' T = 72 F = 0.719 / &RAMP ID = 'FIRE' T = 73 F = 0.739 / &RAMP ID = 'FIRE' T = 74 F = 0.796 / &RAMP ID = 'FIRE' T = 75 F = 0.807 / &RAMP ID = 'FIRE' T = 76 F = 0.719 / &RAMP ID = 'FIRE' T = 77 F = 0.745 / &RAMP ID = 'FIRE' T = 78 F = 0.733 / &RAMP ID = 'FIRE' T = 79 F = 0.803 / &RAMP ID = 'FIRE' T = 80 F = 0.800 / &RAMP ID = 'FIRE' T = 81 F = 0.705 / &RAMP ID = 'FIRE' T = 82 F = 0.682 / &RAMP ID = 'FIRE' T = 83 F = 0.901 / &RAMP ID = 'FIRE' T = 84 F = 0.776 / &RAMP ID = 'FIRE' T = 85 F = 0.771 / &RAMP ID = 'FIRE' T = 86 F = 0.781 / &RAMP ID = 'FIRE' T = 87 F = 0.827 / &RAMP ID = 'FIRE' T = 88 F = 0.853 / &RAMP ID = 'FIRE' T = 89 F = 0.890 / &RAMP ID = 'FIRE' T = 90 F = 0.849 / &RAMP ID = 'FIRE' T = 91 F = 0.842 / &RAMP ID = 'FIRE' T = 92 F = 1.000 / &RAMP ID = 'FIRE' T = 93 F = 0.800 / &RAMP ID = 'FIRE' T = 94 F = 0.906 / &RAMP ID = 'FIRE' T = 95 F = 0.855 / &RAMP ID = 'FIRE' T = 96 F = 0.772 / &RAMP ID = 'FIRE' T = 97 F = 0.831 / &RAMP ID = 'FIRE' T = 98 F = 0.795 / &RAMP ID = 'FIRE' T = 99 F = 0.851 / &RAMP ID = 'FIRE' T = 100 F = 0.698 / &RAMP ID = 'FIRE' T = 101 F = 0.706 / &RAMP ID = 'FIRE' T = 102 F = 0.744 / &RAMP ID = 'FIRE' T = 103 F = 0.517 / &RAMP ID = 'FIRE' T = 104 F = 0.477 / &RAMP ID = 'FIRE' T = 105 F = 0.350 / &RAMP ID = 'FIRE' T = 106 F = 0.314 / &RAMP ID = 'FIRE' T = 107 F = 0.238 / &RAMP ID = 'FIRE' T = 108 F = 0.194 / &RAMP ID = 'FIRE' T = 109 F = 0.171 / &RAMP ID = 'FIRE' T = 110 F = 0.135 / &RAMP ID = 'FIRE' T = 111 F = 0.121 / &RAMP ID = 'FIRE' T = 112 F = 0.113 / &RAMP ID = 'FIRE' T = 113 F = 0.093 / &RAMP ID = 'FIRE' T = 114 F = 0.083 / &RAMP ID = 'FIRE' T = 115 F = 0.054 / &RAMP ID = 'FIRE' T = 116 F = 0.040 / &RAMP ID = 'FIRE' T = 117 F = 0.028 / &RAMP ID = 'FIRE' T = 118 F = 0.015 / &RAMP ID = 'FIRE' T = 119 F = 0.005 / &RAMP ID = 'FIRE' T = 120 F = 0.002 / &RAMP ID = 'FIRE' T = 121 F = 0.002 / &RAMP ID = 'FIRE' T = 122 F = 0.002 / &RAMP ID = 'FIRE' T = 123 F = 0.001 / &RAMP ID = 'FIRE' T = 124 F = 0.000 / &SPEC ID = 'OXYGEN' / &SPEC ID = 'WATER VAPOR' / &SPEC ID = 'CARBON DIOXIDE' / &SPEC ID = 'CARBON MONOXIDE' / &MATL ID = 'PINE' EMISSIVITY = 1 CONDUCTIVITY = 0.11 SPECIFIC_HEAT = 1.35 DENSITY = 370 HEAT_OF_COMBUSTION = 18100. / &MATL ID = 'WATER' EMISSIVITY = 1. CONDUCTIVITY = 0.53 SPECIFIC_HEAT = 4.2 DENSITY = 1000. / &SURF ID = 'CRIB' MATL_ID(1,1:2) = 'PINE','WATER' MATL_MASS_FRACTION(1,1:2) = 0.903,0.097 COLOR = 'TAN' THICKNESS = 0.05 BACKING = EXPOSED IGNITION_TEMPERATURE = 300. HRRPUA = 180. BURN_AWAY = .TRUE. / &MATL ID = 'INCONEL' EMISSIVITY = 0.85 DENSITY = 8470. CONDUCTIVITY_RAMP = 'k_inc' SPECIFIC_HEAT_RAMP = 'c_inc' / &RAMP ID = 'k_inc' T = 20. F = 14.9 / &RAMP ID = 'k_inc' T = 100. F = 15.9 / &RAMP ID = 'k_inc' T = 200. F = 17.3 / &RAMP ID = 'k_inc' T = 300. F = 19.0 / &RAMP ID = 'k_inc' T = 400. F = 20.5 / &RAMP ID = 'k_inc' T = 500. F = 22.1 / &RAMP ID = 'k_inc' T = 600. F = 23.9 / &RAMP ID = 'k_inc' T = 700. F = 25.7 / &RAMP ID = 'k_inc' T = 800. F = 27.5 / &RAMP ID = 'c_inc' T = 20. F = 0.444 / &RAMP ID = 'c_inc' T = 100. F = 0.465 / &RAMP ID = 'c_inc' T = 200. F = 0.486 / &RAMP ID = 'c_inc' T = 300. F = 0.502 / &RAMP ID = 'c_inc' T = 400. F = 0.519 / &RAMP ID = 'c_inc' T = 500. F = 0.536 / &RAMP ID = 'c_inc' T = 600. F = 0.578 / &RAMP ID = 'c_inc' T = 700. F = 0.595 / &RAMP ID = 'c_inc' T = 800. F = 0.611 / &RAMP ID = 'c_inc' T = 900. F = 0.628 / &MATL ID = 'CERABLANKET' DENSITY = 128. CONDUCTIVITY_RAMP = 'k_ins' SPECIFIC_HEAT = 1.13 / &RAMP ID = 'k_ins' T = 20. F = 0.06 / &RAMP ID = 'k_ins' T = 260. F = 0.06 / &RAMP ID = 'k_ins' T = 400. F = 0.10 / &RAMP ID = 'k_ins' T = 600. F = 0.15 / &RAMP ID = 'k_ins' T = 800. F = 0.20 / &RAMP ID = 'k_ins' T = 1000. F = 0.27 / &SURF ID = 'PT PLATE' COLOR = 'BLACK' MATL_ID = 'INCONEL','CERABLANKET' THICKNESS = 0.00079,0.0254 / ************************************************************************************************************************************ IT - Sensori e misurazione EN - Sensors and measurement ************************************************************************************************************************************ Rack di termocoppie Note: Between page 17 and 50 of the reference paper, there are discrepancies regarding the T-series sensors heights. The data from page 50 (Appendix A) is used. Vertical distribution of gas temperature (0.5 mm thermocouples) &DEVC ID = 'T1.1' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,1.00 / &DEVC ID = 'T1.2' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,1.50 / &DEVC ID = 'T1.3' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,2.00 / &DEVC ID = 'T1.4' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,2.25 / &DEVC ID = 'T1.5' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,2.50 / &DEVC ID = 'T1.6' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,2.75 / &DEVC ID = 'T1.7' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,3.00 / &DEVC ID = 'T1.8' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,3.50 / &DEVC ID = 'T1.9' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,4.00 / &DEVC ID = 'T1.10' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,4.50 / &DEVC ID = 'T2.1' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,1.00 / &DEVC ID = 'T2.2' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,1.50 / &DEVC ID = 'T2.3' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,2.00 / &DEVC ID = 'T2.4' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,2.25 / &DEVC ID = 'T2.5' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,2.50 / &DEVC ID = 'T2.6' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,2.75 / &DEVC ID = 'T2.7' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,3.00 / &DEVC ID = 'T2.8' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,3.50 / &DEVC ID = 'T2.9' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,4.00 / &DEVC ID = 'T2.10' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,4.50 / &DEVC ID = 'T3.1' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,1.00 / &DEVC ID = 'T3.2' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,1.50 / &DEVC ID = 'T3.3' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,2.00 / &DEVC ID = 'T3.4' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,2.25 / &DEVC ID = 'T3.5' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,2.50 / &DEVC ID = 'T3.6' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,2.75 / &DEVC ID = 'T3.7' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,3.00 / &DEVC ID = 'T3.8' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,3.50 / &DEVC ID = 'T3.9' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,4.00 / &DEVC ID = 'T3.10' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,4.50 / CEILING jet temperature (0.5 mm thermocouples) &DEVC ID = 'C1' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,0.2,4.9 / &DEVC ID = 'C2' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 0.5,0.5,4.9 / &DEVC ID = 'C3' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,0.5,4.9 / &DEVC ID = 'C4' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 2.5,0.5,4.9 / &DEVC ID = 'C5' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.5,0.5,4.9 / &DEVC ID = 'C6' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,0.5,4.9 / &DEVC ID = 'C7' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.5,0.5,4.9 / &DEVC ID = 'C8' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,0.5,4.9 / &DEVC ID = 'C9' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 8.5,0.5,4.9 / &DEVC ID = 'C10' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 9.5,0.5,4.9 / &DEVC ID = 'C11' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 0.5,1.5,4.9 / &DEVC ID = 'C12' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,1.5,4.9 / &DEVC ID = 'C13' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 2.5,1.5,4.9 / &DEVC ID = 'C14' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.5,1.5,4.9 / &DEVC ID = 'C15' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,1.5,4.9 / &DEVC ID = 'C16' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.5,1.5,4.9 / &DEVC ID = 'C17' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 6.5,1.5,4.9 / &DEVC ID = 'C18' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,1.5,4.9 / &DEVC ID = 'C19' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 8.5,1.5,4.9 / &DEVC ID = 'C20' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 9.5,1.5,4.9 / &DEVC ID = 'C21' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 0.5,2.5,4.9 / &DEVC ID = 'C22' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,2.5,4.9 / &DEVC ID = 'C23' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 2.5,2.5,4.9 / &DEVC ID = 'C24' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.5,2.5,4.9 / &DEVC ID = 'C25' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,2.5,4.9 / &DEVC ID = 'C26' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.5,2.5,4.9 / &DEVC ID = 'C27' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,2.5,4.9 / &DEVC ID = 'C28' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 8.5,2.5,4.9 / &DEVC ID = 'C29' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 9.5,2.5,4.9 / &DEVC ID = 'C30' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.5,3.5,4.9 / &DEVC ID = 'C31' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,3.5,4.9 / &DEVC ID = 'C32' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.5,3.5,4.9 / &DEVC ID = 'C33' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,3.5,4.9 / &DEVC ID = 'C34' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 0.5,4.5,4.9 / &DEVC ID = 'C35' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.5,4.5,4.9 / &DEVC ID = 'C36' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,4.5,4.9 / &DEVC ID = 'C37' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.5,4.5,4.9 / &DEVC ID = 'C38' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,4.5,4.9 / &DEVC ID = 'C39' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 9.5,5.5,4.9 / &DEVC ID = 'C40' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 1.5,5.5,4.9 / &DEVC ID = 'C41' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,5.5,4.9 / &DEVC ID = 'C42' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,5.5,4.9 / &DEVC ID = 'C43' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 0.5,6.5,4.9 / &DEVC ID = 'C44' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,6.5,4.9 / &DEVC ID = 'C45' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 7.5,6.5,4.9 / &DEVC ID = 'C46' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 9.5,6.5,4.9 / Door flow temperature (0.5 mm thermocouples) &DEVC ID = 'D1' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,1.0 / &DEVC ID = 'D2' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,1.5 / &DEVC ID = 'D3' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,1.75 / &DEVC ID = 'D4' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,2.0 / &DEVC ID = 'D5' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,2.25 / &DEVC ID = 'D6' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,2.5 / &DEVC ID = 'D7' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,2.75 / &DEVC ID = 'D8' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,3.5,2.9 / &DEVC ID = 'D9' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,2.5,2.5 / &DEVC ID = 'D10' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,4.5,2.5 / &DEVC ID = 'D11' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,2.5,2.9 / &DEVC ID = 'D12' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 10.3,4.5,2.9 / Fire plume temperature (0.5 mm thermocouples) &DEVC ID = 'G1' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.7,0.7,3.4 / &DEVC ID = 'G2' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.1,0.7,3.4 / &DEVC ID = 'G3' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,0.7,3.4 / &DEVC ID = 'G4' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.9,0.7,3.4 / &DEVC ID = 'G5' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.3,0.7,3.4 / &DEVC ID = 'G6' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.7,1.1,3.4 / &DEVC ID = 'G7' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.1,1.1,3.4 / &DEVC ID = 'G8' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,1.1,3.4 / &DEVC ID = 'G9' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.9,1.1,3.4 / &DEVC ID = 'G10' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.3,1.1,3.4 / &DEVC ID = 'G11' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.7,1.5,3.4 / &DEVC ID = 'G12' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.1,1.5,3.4 / &DEVC ID = 'G13' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,1.5,3.4 / &DEVC ID = 'G14' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.9,1.5,3.4 / &DEVC ID = 'G15' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.3,1.5,3.4 / &DEVC ID = 'G16' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.7,1.9,3.4 / &DEVC ID = 'G17' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.1,1.9,3.4 / &DEVC ID = 'G18' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,1.9,3.4 / &DEVC ID = 'G19' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.9,1.9,3.4 / &DEVC ID = 'G20' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.3,1.9,3.4 / &DEVC ID = 'G21' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 3.7,2.3,3.4 / &DEVC ID = 'G22' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.1,2.3,3.4 / &DEVC ID = 'G23' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,2.3,3.4 / &DEVC ID = 'G24' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.9,2.3,3.4 / &DEVC ID = 'G25' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 5.3,2.3,3.4 / Flame temperature (0.5 mm thermocouples) &DEVC ID = 'F26' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,1.5,2.40 / &DEVC ID = 'F27' PROP_ID = 'thermocouple_prop' QUANTITY = 'THERMOCOUPLE' XYZ = 4.5,1.5,1.45 / WALL temperatures (0.5 mm thermocouples) &DEVC ID = 'W1.1' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = 2 XYZ = 4.5,-0.003,1.35 / &DEVC ID = 'W1.2' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = 2 XYZ = 4.5,-0.009,1.35 / &DEVC ID = 'W1.3' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = 2 XYZ = 4.5,-0.0095,1.35 / &DEVC ID = 'W2.1' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = 2 XYZ = 4.5,-0.0045,4.0 / &DEVC ID = 'W2.2' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = 2 XYZ = 4.5,-0.006,4.0 / &DEVC ID = 'W2.3' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = 2 XYZ = 4.5,-0.010,4.0 / &DEVC ID = 'W3.1' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = -2 XYZ = 4.5,7.005,4.0 / &DEVC ID = 'W3.2' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = -2 XYZ = 4.5,7.007,4.0 / &DEVC ID = 'W3.3' PROP_ID = 'thermocouple_prop' QUANTITY = 'WALL TEMPERATURE' IOR = -2 XYZ = 4.5,7.0095,4.0 / Plate thermometers &DEVC ID = 'P1' QUANTITY = 'WALL_TEMPERATURE' IOR = 2 XYZ = 4.5,0.0,1.35 / &DEVC ID = 'P2' QUANTITY = 'WALL_TEMPERATURE' IOR = 2 XYZ = 4.5,0.0,3.00 / &DEVC ID = 'P3' QUANTITY = 'WALL_TEMPERATURE' IOR = 2 XYZ = 4.5,0.0,4.00 / &DEVC ID = 'P4' QUANTITY = 'WALL_TEMPERATURE' IOR = -3 XYZ = 0.5,0.5,5.00 / &DEVC ID = 'P5' QUANTITY = 'WALL_TEMPERATURE' IOR = -3 XYZ = 2.5,0.7,5.00 / &DEVC ID = 'P6' QUANTITY = 'WALL_TEMPERATURE' IOR = 3 XYZ = 6.5,0.7,0.00 / &DEVC ID = 'P7' QUANTITY = 'WALL_TEMPERATURE' IOR = -3 XYZ = 6.5,0.7,5.00 / &DEVC ID = 'P8' QUANTITY = 'WALL_TEMPERATURE' IOR = -3 XYZ = 4.5,1.5,5.00 / &DEVC ID = 'P9' QUANTITY = 'WALL_TEMPERATURE' IOR = 3 XYZ = 5.5,3.5,0.00 / &DEVC ID = 'P10' QUANTITY = 'WALL_TEMPERATURE' IOR = -2 XYZ = 4.5,7.0,4.00 / Heat flux gauges &DEVC ID = 'R1' QUANTITY = 'GAUGE HEAT FLUX' IOR = 2 XYZ = 4.5,0.0,1.35 / &DEVC ID = 'R2' QUANTITY = 'GAUGE HEAT FLUX' IOR = 2 XYZ = 4.5,0.0,3.00 / &DEVC ID = 'R3' QUANTITY = 'GAUGE HEAT FLUX' IOR = -3 XYZ = 2.5,0.7,5.00 / &DEVC ID = 'R4' QUANTITY = 'GAUGE HEAT FLUX' IOR = -3 XYZ = 4.5,1.5,5.00 / &DEVC ID = 'R5' QUANTITY = 'GAUGE HEAT FLUX' IOR = -3 XYZ = 6.5,0.7,5.00 / Gas velocity (bi-directional probes) &DEVC ID = 'V1' QUANTITY = 'U-VELOCITY' XYZ = 2.5,0.7,4.9 / &DEVC ID = 'V2' QUANTITY = 'U-VELOCITY' XYZ = 6.5,0.7,4.9 / &DEVC ID = 'V3' QUANTITY = 'U-VELOCITY' XYZ = 10.3,3.5,0.9 / &DEVC ID = 'V4' QUANTITY = 'U-VELOCITY' XYZ = 10.3,3.5,1.9 / &DEVC ID = 'V5' QUANTITY = 'U-VELOCITY' XYZ = 10.3,3.5,2.5 / &DEVC ID = 'V6' QUANTITY = 'U-VELOCITY' XYZ = 10.3,3.5,2.9 / &DEVC ID = 'V7' QUANTITY = 'U-VELOCITY' XYZ = 10.3,2.5,2.5 / &DEVC ID = 'V8' QUANTITY = 'U-VELOCITY' XYZ = 10.3,4.5,2.5 / Species concentration sampling &DEVC ID = 'CO' QUANTITY = 'VOLUME FRACTION' SPEC_ID = 'CARBON MONOXIDE' XYZ = 8.0,3.5,4.2 / &DEVC ID = 'CO2' QUANTITY = 'VOLUME FRACTION' SPEC_ID = 'CARBON DIOXIDE' XYZ = 8.0,3.5,4.2 / &DEVC ID = 'O2' QUANTITY = 'VOLUME FRACTION' SPEC_ID = 'OXYGEN' XYZ = 8.0,3.5,4.2 / &PROP ID = 'thermocouple_prop' DIAMETER = 0.0005 / &BNDF QUANTITY = 'GAUGE_HEAT_FLUX' / &BNDF QUANTITY = 'WALL_TEMPERATURE' / &BNDF QUANTITY = 'BURNING RATE' / &SLCF PBX = 4.5 QUANTITY = 'TEMPERATURE' VECTOR = .TRUE. / &SLCF PBY = 1.5 QUANTITY = 'TEMPERATURE' VECTOR = .TRUE. / &SLCF PBZ = 1.6 QUANTITY = 'TEMPERATURE' VECTOR = .TRUE. / &SLCF PBZ = 4.0 QUANTITY = 'TEMPERATURE' VECTOR = .TRUE. / &DEVC ID = 'MLR INTEGRAL' QUANTITY = 'BURNING RATE' XYZ = 4.5,1.5,1.0 SURF_ID = 'CRIB' STATISTICS = 'SURFACE INTEGRAL'/ &CTRL ID = 'MLR PID' FUNCTION_TYPE = 'PID' INPUT_ID = 'MLR INTEGRAL' PROPORTIONAL_GAIN = 0 DIFFERENTIAL_GAIN = 0 INTEGRAL_GAIN = 1 / &DEVC ID = 'PYROLYZATE' XYZ = 4.5,1.5,1.0 QUANTITY = 'CONTROL VALUE' CTRL_ID = 'MLR PID' / & TAIL /