gas = GRI30('Mix')
gas.addTransportModel('Multi')
# set its state to that of the unburned gas
gas.setState_TPX(tin, p, comp)
f = FreeFlame(gas = gas, grid = initial_grid, tfix = 600.0)
# set the upstream properties
f.inlet.set(mole_fractions = comp, temperature = tin)
f.set(tol = tol_ss, tol_time = tol_ts)
f.showSolution()
f.set(energy = 'off')
f.setRefineCriteria(ratio = 10.0, slope = 1, curve = 1)
f.setMaxJacAge(50, 50)
f.setTimeStep(1.0e-5, [2, 5, 10, 20, 50])
f.solve(loglevel, refine_grid)
f.save('ch4_adiabatic.xml','no_energy',
'solution with the energy equation disabled')
f.set(energy = 'on')
f.setRefineCriteria(ratio = 3.0, slope = 0.1, curve = 0.2)
f.solve(loglevel, refine_grid)
f.save('ch4_adiabatic.xml','energy',
'solution with the energy equation enabled')
print 'mixture-averaged flamespeed = ',f.u()[0]
gas.switchTransportModel('Multi')
gas.set(T = tin, P = p, X = comp)
f = FreeFlame(gas = gas, grid = initial_grid)
# set the properties at the inlet
f.inlet.set(mole_fractions = comp, temperature = tin)
f.set(tol = tol_ss, tol_time = tol_ts)
f.setMaxJacAge(5, 10)
f.set(energy = 'off')
#f.init()
f.showSolution()
f.solve(loglevel, refine_grid)
f.setRefineCriteria(ratio = 5.0, slope = 0.05, curve = 0.005, prune = 0.0)
f.set(energy = 'on')
f.solve(loglevel,refine_grid)
f.save('freeflame1.xml')
f.showSolution()
# write the velocity, temperature, and mole fractions to a CSV file
z = f.flame.grid()
T = f.T()
u = f.u()
V = f.V()
fcsv = open('freeflame1.csv','w')
writeCSV(fcsv, ['z (m)', 'u (m/s)', 'V (1/s)', 'T (K)', 'rho (kg/m3)']
+ list(gas.speciesNames()))
# set the properties at the inlet
f.inlet.set(mole_fractions = comp, temperature = tin)
f.set(tol = tol_ss, tol_time = tol_ts)
#f.setMaxJacAge(5, 10)
f.setMaxJacAge(100, 500)
f.setTimeStep(1.0e-6, [0.1, 1, 2, 5, 10, 20])
f.set(energy = 'off')
#f.init()
f.showSolution()
f.solve(loglevel, refine_grid)
#f.setRefineCriteria(ratio = 5.0, slope = 0.05, curve = 0.005, prune = 0.0)
f.setRefineCriteria(ratio = 1.0, slope = 0.2, curve = 0.3, prune = 0.03)
f.set(energy = 'on')
f.solve(loglevel,refine_grid)
#f.save('freeflame1.xml')
f.showSolution()
# write the velocity, temperature, and mole fractions to a CSV file
z = f.flame.grid()
T = f.T()
u = f.u()
V = f.V()
fcsv = open('freeflame1.csv','w')
writeCSV(fcsv, ['z (m)', 'u (m/s)', 'V (1/s)', 'T (K)', 'rho (kg/m3)']
+ list(gas.speciesNames()))
gas = GRI30('Mix')
gas.addTransportModel('Multi')
# set its state to that of the unburned gas
gas.setState_TPX(tin, p, comp)
f = FreeFlame(gas = gas, grid = initial_grid, tfix = 600.0)
# set the upstream properties
f.inlet.set(mole_fractions = comp, temperature = tin)
f.set(tol = tol_ss, tol_time = tol_ts)
f.showSolution()
f.set(energy = 'off')
f.setRefineCriteria(ratio = 10.0, slope = 1, curve = 1)
f.setMaxJacAge(50, 50)
f.setTimeStep(1.0e-5, [2, 5, 10, 20, 50])
f.solve(loglevel, refine_grid)
f.save('ch4_adiabatic.xml','no_energy',
'solution with the energy equation disabled')
f.set(energy = 'on')
f.setRefineCriteria(ratio = 3.0, slope = 0.1, curve = 0.2)
f.solve(loglevel, refine_grid)
f.save('ch4_adiabatic.xml','energy',
'solution with the energy equation enabled')
print 'mixture-averaged flamespeed = ',f.u()[0]
gas.switchTransportModel('Multi')
gas = GRI30('Mix')
gas.addTransportModel('Multi')
# set its state to that of the unburned gas
gas.setState_TPX(tin, p, comp)
f = FreeFlame(gas = gas, grid = initial_grid, tfix = 600.0)
# set the upstream properties
f.inlet.set(mole_fractions = comp, temperature = tin)
f.set(tol = tol_ss, tol_time = tol_ts)
#f.showSolution()
f.set(energy = 'on')
f.setRefineCriteria(ratio = 5.0, slope = 0.1, curve = 0.2,prune = 0.05)
f.setMaxJacAge(5, 10)
f.setTimeStep(1.0e-4, [1, 2, 4, 8, 16])
#f.solve(loglevel, refine_grid)
#f.save('ch4_adiabatic.xml','no_energy',
# 'solution with the energy equation disabled')
#f.set(energy = 'on')
#f.setRefineCriteria(ratio = 3.0, slope = 0.1, curve = 0.2)
#f.solve(loglevel, refine_grid)
#f.save('ch4_adiabatic.xml','energy',
# 'solution with the energy equation enabled')
gas.switchTransportModel('Mix')
