#Problem constants: domainLength=5.0e-03 #in meters constantPressure=1 #1=isobaric, 0=isochoric dPdt=0.0e0 #Units: Pa/s problemType=0 #0=heatsource to ignite(premix),1=premix, 2=custom initial condition reflectProblem=0 #If 1, the initial conditions are reflected across the center of the domain. Useful for spherically imploding flames for instance. mdot=0.0 initialTemperature=300.0 #in Kelvin initialPressure=1.0 #in atmospheres gasFile=nitrogenPlasma.cti #File containing thermodynamic, kinetic, and transport info gasPhase=gas transportPhase=transport transportModel=Mix #Transport model mixtureComposition=N2:1.0 #Mole Fractions! crossFile=N2.dat metric=1 #0=planar,1=cylindrical,2=spherical heatType=1 ignTime=9e-04 #Time over which energy is supplied in seconds QDot=6.8e10 #Power supplied in units of W/m3 heatFile=discharge.csv radFile=rad.csv therCondFile=therCondAirPlasma.csv kernelSize=0.5e-03 mixingWidth=0.6e-03 #mixing layer width in m (for diffusion problem) shift=4e-03 #shift of mixing layer into domain (for diffusion problem) dirichletInner=0 #Boundary conditions for scalars (T,Y) dirichletOuter=0 wallTemperature=300.0 #Grid settings: adaptiveGrid=0 moveGrid=0 Rg=300 gridOffset=0 basePts=1000 gridDensitySlope=70.0e0 fineGridHalfWidth=8e-03 gridRefinement=1000.0e0; leftRefineFactor=0.01 rightRefineFactor=0.01 refineLeft=1 refineRight=1 position=0.0 isotherm=1000.0 #Solver settings: nSaves=100 #Save solution every nSaves timesteps writeEveryRegrid=0 writeRates=0 relativeTolerance=1e-06 radiusTolerance=1e-09 #absolute tolerance for radius temperatureTolerance=1e-09 pressureTolerance=1e-09 massFractionTolerance=1e-09 bathGasTolerance=1e-09 electronTolerance=1e-15 finalTime=1.0e0 #in seconds setConstraints=0 suppressAlg=0 nThreads=1 printYdot=0 printY=0 dryRun=0