Z87, C3H8, Cantera format, cti - mechanismsforcfd.com

#################################################################
#
# Z87, Propane-air mechanism
# Developed by N. Zettervall
# FOI, Sweden, 2023-11-10

# Zettervall, N., Ibron, C., Nordin-Bates., K., (2024)

# Influence of low-temperature chemistry modelling on flame characterisics in a ducted rocket combustor
# ICCFD 12, Kobe, Japan.
#
#################################################################

units(length = “cm”, time = “s”, quantity = “mol”, act_energy = “cal/mol”)

ideal_gas(name = “gas”,
elements = ” H O C N “,
species = “”” C3H8 N-C3H7 C3H6 C3H6OOH OC3H5OOH CH2CHO
C2H6 C2H5 C2H4 C2H3 C2H2 C2H
CH4 CH3 CH3O CH2 CH2O CH HCO CO CO2
O2 N2 H2O H O OH H2 HO2 H2O2 “””,
reactions = “all”,
transport = “Mix”,
initial_state = state(temperature = 300.0,
pressure = OneAtm) )

#######################################################################################

####################################################################
#
# Thermo, Aramco 3.0
#
####################################################################

species(name=u’C3H8′,
atoms=’C:3 H:8′,
thermo=(NASA([300.00, 1390.00],
[ 2.40878470E-01, 3.39548599E-02, -1.60930874E-05,
2.83480628E-09, 2.78195172E-14, -1.40362853E+04,
2.16500800E+01]),
NASA([1390.00, 5000.00],
[ 9.15541310E+00, 1.72574139E-02, -5.85614868E-06,
9.04190155E-10, -5.22523772E-14, -1.75762439E+04,
-2.77418510E+01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.81,
well_depth=303.4,
rot_relax=1.0),
note=u’8/12/15′)

species(name=u’N-C3H7′,
atoms=’C:3 H:7′,
thermo=(NASA([298.00, 1000.00],
[-2.20120865E+00, 5.29641653E-02, -7.23640506E-05,
6.36996940E-08, -2.29332581E-11, 1.15130744E+04,
3.43669174E+01]),
NASA([1000.00, 6000.00],
[ 7.48614243E+00, 1.65769478E-02, -5.74876481E-06,
9.04103694E-10, -5.30867231E-14, 8.93710008E+03,
-1.42595379E+01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.81,
well_depth=303.4,
rot_relax=1.0),
note=u’8/12/15′)

species(name=u’C2H6′,
atoms=’C:2 H:6′,
thermo=(NASA([200.00, 1000.00],
[ 4.29142572E+00, -5.50154901E-03, 5.99438458E-05,
-7.08466469E-08, 2.68685836E-11, -1.15222056E+04,
2.66678994E+00]),
NASA([1000.00, 6000.00],
[ 4.04666411E+00, 1.53538802E-02, -5.47039485E-06,
8.77826544E-10, -5.23167531E-14, -1.24473499E+04,
-9.68698313E-01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.35,
well_depth=247.5,
rot_relax=1.5),
note=u’G8/88′)

species(name=u’C3H6′,
atoms=’C:3 H:6′,
thermo=(NASA([298.00, 1000.00],
[-1.54606737E+00, 4.36553128E-02, -5.61392417E-05,
4.98421927E-08, -1.84798923E-11, 2.07056233E+03,
2.99232495E+01]),
NASA([1000.00, 6000.00],
[ 6.59032304E+00, 1.52592866E-02, -5.30369441E-06,
8.35510888E-10, -4.91215549E-14, -2.47481113E+02,
-1.15748238E+01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.14,
well_depth=307.8,
rot_relax=1.0),
note=u’8/12/15′)

species(name=u’CH2CHO’,
atoms=’C:2 H:3 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 2.79502600E+00, 1.01099472E-02, 1.61750645E-05,
-3.10303145E-08, 1.39436139E-11, 1.62944975E+02,
1.23646657E+01]),
NASA([1000.00, 6000.00],
[ 6.53928338E+00, 7.80238629E-03, -2.76413612E-06,
4.42098906E-10, -2.62954290E-14, -1.18858659E+03,
-8.72091393E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=3.97,
well_depth=436.0,
rot_relax=2.0),
note=u’T03/10′)

####################################################################
#
# Thermo, SD 2061214
#
####################################################################

species(name=u’OC3H5OOH’,
atoms=’H:6 C:3 O:3′,
thermo=(NASA([300.00, 1000.00],
[ 7.68933034E-01, 5.46905880E-02, -4.65072405E-05,
2.03159585E-08, -3.58398999E-12, -3.63238861E+04,
2.68291637E+01]),
NASA([1000.00, 5000.00],
[ 1.70285271E+01, 1.30716784E-02, -4.59310856E-06,
7.26135156E-10, -4.26658337E-14, -4.16334217E+04,
-5.92513577E+01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.82,
well_depth=487.9,
rot_relax=1.0),
note=u’000000′)

species(name=u’C3H6OOH’,
atoms=’H:7 C:3 O:2′,
thermo=(NASA([300.00, 1000.00],
[ 1.91005011E+00, 4.11666833E-02, -2.51630217E-05,
7.11856873E-09, -6.98838732E-13, -1.79305093E+03,
2.34514457E+01]),
NASA([1000.00, 5000.00],
[ 1.46139980E+01, 1.43723015E-02, -4.88635144E-06,
7.56519620E-10, -4.38364992E-14, -6.46101457E+03,
-4.57478245E+01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.82,
well_depth=487.9,
rot_relax=1.0),
note=u’000000′)

####################################################################
#
# Thermo, Goos Burcat
#
####################################################################

species(name=’O’,
atoms=’O:1′,
thermo=(NASA([200.00, 1000.00],
[ 3.16826710E+00, -3.27931884E-03, 6.64306396E-06,
-6.12806624E-09, 2.11265971E-12, 2.91222592E+04,
2.05193346E+00]),
NASA([1000.00, 6000.00],
[ 2.54363697E+00, -2.73162486E-05, -4.19029520E-09,
4.95481845E-12, -4.79553694E-16, 2.92260120E+04,
4.92229457E+00])),
transport=gas_transport(geom=’atom’,
diam=2.75,
well_depth=80.0),
note=’L1/90′)

species(name=’H’,
atoms=’H:1′,
thermo=(NASA([200.00, 1000.00],
[ 2.50000000E+00, 0.00000000E+00, 0.00000000E+00,
0.00000000E+00, 0.00000000E+00, 2.54736600E+04,
-4.46682850E-01]),
NASA([1000.00, 6000.00],
[ 2.50000000E+00, 0.00000000E+00, 0.00000000E+00,
0.00000000E+00, 0.00000000E+00, 2.54736600E+04,
-4.46682850E-01])),
transport=gas_transport(geom=’atom’,
diam=2.05,
well_depth=145.0),
note=’L6/94′)

species(name=’OH’,
atoms=’H:1 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 3.99198424E+00, -2.40106655E-03, 4.61664033E-06,
-3.87916306E-09, 1.36319502E-12, 3.36889836E+03,
-1.03998477E-01]),
NASA([1000.00, 6000.00],
[ 2.83853033E+00, 1.10741289E-03, -2.94000209E-07,
4.20698729E-11, -2.42289890E-15, 3.69780808E+03,
5.84494652E+00])),
transport=gas_transport(geom=’linear’,
diam=2.75,
well_depth=80.0),
note=’HYDROXYLRADIIU3/03′)

species(name=’H2′,
atoms=’H:2′,
thermo=(NASA([200.00, 1000.00],
[ 2.34433112E+00, 7.98052075E-03, -1.94781510E-05,
2.01572094E-08, -7.37611761E-12, -9.17935173E+02,
6.83010238E-01]),
NASA([1000.00, 6000.00],
[ 2.93286575E+00, 8.26608026E-04, -1.46402364E-07,
1.54100414E-11, -6.88804800E-16, -8.13065581E+02,
-1.02432865E+00])),
transport=gas_transport(geom=’linear’,
diam=2.92,
well_depth=38.0,
polar=0.79,
rot_relax=280.0),
note=’REFELEMENTtpis78′)

species(name=’H2O’,
atoms=’H:2 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 4.19863520E+00, -2.03640170E-03, 6.52034160E-06,
-5.48792690E-09, 1.77196800E-12, -3.02937260E+04,
-8.49009010E-01]),
NASA([1000.00, 6000.00],
[ 2.67703890E+00, 2.97318160E-03, -7.73768890E-07,
9.44335140E-11, -4.26899910E-15, -2.98858940E+04,
6.88255000E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=2.605,
well_depth=572.4,
dipole=1.844,
rot_relax=4.0),
note=’L5/89′)

species(name=’HO2′,
atoms=’H:1 O:2′,
thermo=(NASA([200.00, 1000.00],
[ 4.30179807E+00, -4.74912097E-03, 2.11582905E-05,
-2.42763914E-08, 9.29225225E-12, 2.64018485E+02,
3.71666220E+00]),
NASA([1000.00, 5000.00],
[ 4.17228741E+00, 1.88117627E-03, -3.46277286E-07,
1.94657549E-11, 1.76256905E-16, 3.10206839E+01,
2.95767672E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=3.458,
well_depth=107.4,
rot_relax=1.0),
note=’T1/09′)

species(name=’H2O2′,
atoms=’H:2 O:2′,
thermo=(NASA([200.00, 1000.00],
[ 4.31515149E+00, -8.47390622E-04, 1.76404323E-05,
-2.26762944E-08, 9.08950158E-12, -1.77067437E+04,
3.27373319E+00]),
NASA([1000.00, 6000.00],
[ 4.57977305E+00, 4.05326003E-03, -1.29844730E-06,
1.98211400E-10, -1.13968792E-14, -1.80071775E+04,
6.64970694E-01])),
transport=gas_transport(geom=’nonlinear’,
diam=3.458,
well_depth=107.4,
rot_relax=3.8),
note=’T8/03′)

species(name=’N2′,
atoms=’N:2′,
thermo=(NASA([200.00, 1000.00],
[ 3.53100528E+00, -1.23660988E-04, -5.02999433E-07,
2.43530612E-09, -1.40881235E-12, -1.04697628E+03,
2.96747038E+00]),
NASA([1000.00, 6000.00],
[ 2.95257637E+00, 1.39690040E-03, -4.92631603E-07,
7.86010195E-11, -4.60755204E-15, -9.23948688E+02,
5.87188762E+00])),
transport=gas_transport(geom=’linear’,
diam=3.621,
well_depth=97.53,
polar=1.76,
rot_relax=4.0),
note=’REFELEMENTG8/02′)

species(name=’O2′,
atoms=’O:2′,
thermo=(NASA([200.00, 1000.00],
[ 3.78245636E+00, -2.99673416E-03, 9.84730201E-06,
-9.68129509E-09, 3.24372837E-12, -1.06394356E+03,
3.65767573E+00]),
NASA([1000.00, 6000.00],
[ 3.66096065E+00, 6.56365811E-04, -1.41149627E-07,
2.05797935E-11, -1.29913436E-15, -1.21597718E+03,
3.41536279E+00])),
transport=gas_transport(geom=’linear’,
diam=3.458,
well_depth=107.4,
polar=1.6,
rot_relax=3.8),
note=’REFELEMENTRUS89′)

species(name=’CH4′,
atoms=’H:4 C:1′,
thermo=(NASA([200.00, 1000.00],
[ 5.14825732E+00, -1.37002410E-02, 4.93749414E-05,
-4.91952339E-08, 1.70097299E-11, -1.02453222E+04,
-4.63322726E+00]),
NASA([1000.00, 6000.00],
[ 1.91178600E+00, 9.60267960E-03, -3.38387841E-06,
5.38797240E-10, -3.19306807E-14, -1.00992136E+04,
8.48241861E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=3.746,
well_depth=141.4,
polar=2.6,
rot_relax=13.0),
note=’RRHOg8/99′)

species(name=’CH3′,
atoms=’H:3 C:1′,
thermo=(NASA([200.00, 1000.00],
[ 3.65717970E+00, 2.12659790E-03, 5.45838830E-06,
-6.61810030E-09, 2.46570740E-12, 1.64227160E+04,
1.67353540E+00]),
NASA([1000.00, 6000.00],
[ 2.97812060E+00, 5.79785200E-03, -1.97558000E-06,
3.07297900E-10, -1.79174160E-14, 1.65095130E+04,
4.72247990E+00])),
transport=gas_transport(geom=’linear’,
diam=3.8,
well_depth=144.0),
note=’IU0702′)

species(name=’CH2′,
atoms=’H:2 C:1′,
thermo=(NASA([200.00, 1000.00],
[ 4.19331325E+00, -2.33105184E-03, 8.15676451E-06,
-6.62985981E-09, 1.93233199E-12, 5.03662246E+04,
-7.46734310E-01]),
NASA([1000.00, 6000.00],
[ 3.13501686E+00, 2.89593926E-03, -8.16668090E-07,
1.13572697E-10, -6.36262835E-15, 5.05040504E+04,
4.06030621E+00])),
transport=gas_transport(geom=’linear’,
diam=3.8,
well_depth=144.0),
note=’SINGLETIU3/03′)

species(name=’CH’,
atoms=’H:1 C:1′,
thermo=(NASA([200.00, 1000.00],
[ 3.48975830E+00, 3.24321600E-04, -1.68997510E-06,
3.16284200E-09, -1.40618030E-12, 7.06607550E+04,
2.08428410E+00]),
NASA([1000.00, 6000.00],
[ 2.52093690E+00, 1.76536390E-03, -4.61476600E-07,
5.92896750E-11, -3.34745010E-15, 7.09948780E+04,
7.40518290E+00])),
transport=gas_transport(geom=’linear’,
diam=2.75,
well_depth=80.0),
note=’IU3/03′)

species(name=’CH3O’,
atoms=’H:3 C:1 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 3.71180502E+00, -2.80463306E-03, 3.76550971E-05,
-4.73072089E-08, 1.86588420E-11, 1.30772484E+03,
6.57240864E+00]),
NASA([1000.00, 6000.00],
[ 4.75779238E+00, 7.44142474E-03, -2.69705176E-06,
4.38090504E-10, -2.63537098E-14, 3.90139164E+02,
-1.96680028E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=3.69,
well_depth=417.0,
dipole=1.7,
rot_relax=2.0),
note=’METHOXYRADIU1/03′)

species(name=’CH2O’,
atoms=’H:2 C:1 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 4.79372312E+00, -9.90833322E-03, 3.73219990E-05,
-3.79285237E-08, 1.31772641E-11, -1.43227879E+04,
6.02798058E-01]),
NASA([1000.00, 6000.00],
[ 3.16952665E+00, 6.19320560E-03, -2.25056366E-06,
3.65975660E-10, -2.20149458E-14, -1.44922756E+04,
6.04207898E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=3.59,
well_depth=498.0,
rot_relax=2.0),
note=’Formaldehydeg8/88′)

species(name=’HCO’,
atoms=’H:1 C:1 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 4.23754610E+00, -3.32075257E-03, 1.40030264E-05,
-1.34239995E-08, 4.37416208E-12, 3.87241185E+03,
3.30834869E+00]),
NASA([1000.00, 6000.00],
[ 3.92001542E+00, 2.52279324E-03, -6.71004164E-07,
1.05615948E-10, -7.43798261E-15, 3.65342928E+03,
3.58077056E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=3.59,
well_depth=498.0),
note=’T5/03′)

species(name=’CO’,
atoms=’C:1 O:1′,
thermo=(NASA([200.00, 1000.00],
[ 3.57953350E+00, -6.10353690E-04, 1.01681430E-06,
9.07005860E-10, -9.04424490E-13, -1.43440860E+04,
3.50840930E+00]),
NASA([1000.00, 6000.00],
[ 3.04848590E+00, 1.35172810E-03, -4.85794050E-07,
7.88536440E-11, -4.69807460E-15, -1.42661170E+04,
6.01709770E+00])),
transport=gas_transport(geom=’linear’,
diam=3.65,
well_depth=98.1,
polar=1.95,
rot_relax=1.8),
note=’RUS79′)

species(name=’CO2′,
atoms=’C:1 O:2′,
thermo=(NASA([200.00, 1000.00],
[ 2.35681300E+00, 8.98412990E-03, -7.12206320E-06,
2.45730080E-09, -1.42885480E-13, -4.83719710E+04,
9.90090350E+00]),
NASA([1000.00, 6000.00],
[ 4.63651110E+00, 2.74145690E-03, -9.95897590E-07,
1.60386660E-10, -9.16198570E-15, -4.90249040E+04,
-1.93489550E+00])),
transport=gas_transport(geom=’linear’,
diam=3.763,
well_depth=244.0,
polar=2.65,
rot_relax=2.1),
note=’L7/88′)

species(name=’C2H’,
atoms=’H:1 C:2′,
thermo=(NASA([200.00, 1000.00],
[ 2.89867676E+00, 1.32988489E-02, -2.80733327E-05,
2.89484755E-08, -1.07502351E-11, 6.70616050E+04,
6.18547632E+00]),
NASA([1000.00, 6000.00],
[ 3.66270248E+00, 3.82492252E-03, -1.36632500E-06,
2.13455040E-10, -1.23216848E-14, 6.71683790E+04,
3.92205792E+00])),
transport=gas_transport(geom=’linear’,
diam=4.1,
well_depth=209.0,
rot_relax=2.5),
note=’T5/10′)

species(name=’C2H2′,
atoms=’H:2 C:2′,
thermo=(NASA([200.00, 1000.00],
[ 8.08679682E-01, 2.33615762E-02, -3.55172234E-05,
2.80152958E-08, -8.50075165E-12, 2.64289808E+04,
1.39396761E+01]),
NASA([1000.00, 6000.00],
[ 4.65878489E+00, 4.88396667E-03, -1.60828888E-06,
2.46974544E-10, -1.38605959E-14, 2.57594042E+04,
-3.99838194E+00])),
transport=gas_transport(geom=’linear’,
diam=4.1,
well_depth=209.0,
rot_relax=2.5),
note=’acetyleneg1/91′)

species(name=’C2H3′,
atoms=’H:3 C:2′,
thermo=(NASA([200.00, 1000.00],
[ 3.36377642E+00, 2.65765722E-04, 2.79620704E-05,
-3.72986942E-08, 1.51590176E-11, 3.44749589E+04,
7.91510092E+00]),
NASA([1000.00, 6000.00],
[ 4.15026763E+00, 7.54021341E-03, -2.62997847E-06,
4.15974048E-10, -2.45407509E-14, 3.38566380E+04,
1.72812235E+00])),
transport=gas_transport(geom=’nonlinear’,
diam=4.1,
well_depth=209.0,
rot_relax=1.0),
note=’VinylRadiATcT/A’)

species(name=’C2H4′,
atoms=’H:4 C:2′,
thermo=(NASA([200.00, 1000.00],
[ 3.95920063E+00, -7.57051373E-03, 5.70989993E-05,
-6.91588352E-08, 2.69884190E-11, 5.08977598E+03,
4.09730213E+00]),
NASA([1000.00, 6000.00],
[ 3.99182724E+00, 1.04833908E-02, -3.71721342E-06,
5.94628366E-10, -3.53630386E-14, 4.26865851E+03,
-2.69081762E-01])),
transport=gas_transport(geom=’nonlinear’,
diam=3.971,
well_depth=280.8,
rot_relax=1.5),
note=’g1/00′)

species(name=’C2H5′,
atoms=’H:5 C:2′,
thermo=(NASA([200.00, 1000.00],
[ 4.24185905E+00, -3.56905235E-03, 4.82667202E-05,
-5.85401009E-08, 2.25804514E-11, 1.29690344E+04,
4.44703782E+00]),
NASA([1000.00, 6000.00],
[ 4.32195633E+00, 1.23930542E-02, -4.39680960E-06,
7.03519917E-10, -4.18435239E-14, 1.21759475E+04,
1.71103809E-01])),
transport=gas_transport(geom=’nonlinear’,
diam=4.302,
well_depth=252.3,
rot_relax=1.5),
note=’ethylradicIU1/07′)

##########################################################################################
#
# Reactions, Z87
#
##########################################################################################

############################ C3H8 ##########################

falloff_reaction(‘C3H8 (+ M) <=> CH3 + C2H5 (+ M)’,
kf=[1.100000e+17, 0.0, 84392.93],
kf0=[7.830000e+18, 0.0, 64978.01],
falloff=Troe(A=0.76, T3=1900.0, T1=38.0))
reaction(‘C3H8 + O2 <=> N-C3H7 + HO2’, [4.0e+13, 0.0, 37032.12])
reaction(‘C3H8 + H <=> N-C3H7 + H2’, [1.330000e+06, 2.54, 6761.47])
reaction(‘C3H8 + O <=> N-C3H7 + OH’, [1.900000e+05, 2.68, 3718.45])
reaction(‘C3H8 + OH <=> N-C3H7 + H2O’, [1.000000e+10, 1.0, 1599.9])
reaction(‘C3H8 + HO2 <=> N-C3H7 + H2O2’, [4.760000e+04, 2.55, 16491.4])

############################ C3 ##########################

falloff_reaction(‘N-C3H7 (+ M) => CH3 + C2H4 (+ M)’,
kf=[1.230000e+13, -0.1, 41210.33],
kf0=[5.490000e+49, -10.0, 45778.92],
falloff=Troe(A=-1.17, T3=251.0, T1=1e-15, T2=1185.0))
falloff_reaction(‘H + C3H6 (+ M) <=> N-C3H7 (+ M)’,
kf=[1.330000e+13, 0.0, 3260.04],
kf0=[6.260000e+38, -6.66, 7000.48],
efficiencies=’CO2:2.0 CO:1.5 H2:2.0 H2O:6.0 CH4:2.0 C2H6:3.0′,
falloff=Troe(A=1.0, T3=1000.0, T1=1310.0, T2=48100.0))
reaction(‘N-C3H7 + O2 => C3H6 + HO2’, [3.500000e+16, -1.6, 3500.0])
reaction(‘N-C3H7 + O2 <=> C3H6OOH’, [2.000000e+12, 0.0, 0.0])
reaction(‘C3H6 + OH => C2H5 + CH2O’, [50.0e+12, 0.0, 0.0])
reaction(‘C3H6 + O => C2H5 + HCO’, [3.500000e+07, 1.65, -972.75])
falloff_reaction(‘C2H3 + CH3 (+ M) <=> C3H6 (+ M)’,
kf=[2.500000e+13, 0.0, 0.0],
kf0=[4.270000e+58, -11.94, 9770.55],
efficiencies=’CO2:2.0 CO:1.5 H2:2.0 H2O:6.0 CH4:2.0′,
falloff=Troe(A=0.175, T3=1341.0, T1=60000.0, T2=10140.0))
reaction(‘C3H6 + H => C2H4 + CH3’, [0.3e+22, -2.39, 13185.47])
reaction(‘C3H6OOH + O2 <=> OC3H5OOH + OH’, [1.500000e+08, 0.0, -5500.0])
reaction(‘OC3H5OOH <=> CH2CHO + CH2O + OH’, [1.000000e+15, 0.0, 43000.0]) # orig

############################ C2 ##########################

reaction(‘CH2CHO + H <=> CH3 + HCO’, [5.000000e+13, 0.0, 0.0])
reaction(‘CH2CHO + O <=> CH2O + HCO’, [1.000000e+14, 0.0, 0.0])
reaction(‘CH2CHO + O2 <=> CH2O + CO + OH’, [3.000000e+10, 0.0, 0.0])
reaction(‘CH2CHO <=> CH3 + CO’, [1.170000e+43, -9.8, 43799.95])
reaction(‘C2H5 + O2 => C2H4 + HO2’, [7.500000e+14, -1.0, 7799.95])
reaction(‘C2H4 + O2 => C2H3 + HO2’, [4.220000e+13, 0.0, 57623.1])
reaction(‘C2H4 + HO2 => C2H3 + H2O2’, [6.0e+12, 0.0, 8190.0])
reaction( ‘ C2H6 + H => C2H5 + H2 ‘, [537, 3.5, 5200])
reaction( ‘CH3 + CH3 => C2H6’, [8.e12, 0, 5000])
three_body_reaction( ‘ C2H5 + M => C2H4 + H + M ‘, [2e+15, 0, 39000])
three_body_reaction( ‘ C2H4 + H + M => C2H5 + M ‘, [4.17e+10, 0, 11030])
reaction( ‘ C2H5 + H => CH3 + CH3 ‘, [5.0e+13, 0, 0])
reaction( ‘ C2H4 + O => HCO + CH3 ‘, [3.31e+12, 0, 1130])
reaction( ‘ HCO + CH3 => C2H4 + O’, [1.58e+11, 0, 31180])
reaction( ‘ C2H4 + OH => C2H3 + H2O ‘, [4.79e+12, 0, 1230])
reaction( ‘ C2H3 + H2O => C2H4 + OH’, [1.2e+12, 0, 14000])
reaction( ‘ C2H4 + CH3 => C2H3 + CH4’, [1e+13, 0, 13000])
reaction( ‘ C2H3 + CH4 => C2H4 + CH3’, [3.02e+13, 0, 12580])
three_body_reaction( ‘ C2H2 + H + M => C2H3 + M ‘, [1.23e+11, 1, 10360])
reaction( ‘ C2H3 + H => C2H2 + H2 ‘, [2e+13, 0, 2500])
three_body_reaction( ‘ C2H + H + M => C2H2 + M ‘, [1.1e+09, 1, 770])
reaction( ‘ C2H2 + H => C2H + H2 ‘, [2e+14, 0, 19000])
reaction( ‘ C2H2 + OH => C2H + H2O ‘, [6.03e+12, 0, 7000])
reaction( ‘ C2H + H2O => C2H2 + OH ‘, [5.37e+12, 0, 16360])
reaction( ‘ C2H2 + O => C2H + OH ‘, [3.24e+15, 0.6, 17000])
reaction( ‘ C2H + OH => C2H2 + O ‘, [2.95e+14, 0.6, 910])
reaction( ‘ C2H + O2 => HCO + CO ‘, [1e+13, 0, 7000])
reaction( ‘ HCO + CO => C2H + O2 ‘, [8.51e+12, 0, 138400])

############################ H/C/O ##########################

reaction( “H + O2 => OH + O”, [1.8E+14, 0, 16800])
reaction( “OH + O => H + O2”, [1.52E+13, 0, 690])
reaction( “O + H2 => OH + H”, [1.80000E+10, 1, 8826])
reaction( “OH + H => O + H2”, [8.00000E+09, 1, 6760])
reaction( “H2 + OH => H2O + H”, [1.17000E+09, 1.3, 3626])
reaction( “H2O + H => H2 + OH”, [6.0E+09, 1.3, 18200])
reaction( “OH + OH => O + H2O”, [6.00000E+08, 1.3, 0])
reaction( “O + H2O => OH + OH”, [5.0E+09, 1.3, 15000])
three_body_reaction( “H + O2 + M => HO2 + M”, [1.1E+18, -0.8, 0],
efficiencies = ” CH4:6.5 CO:0.75 CO2:1.5 H2:1 H2O:6.5 N2:0.4 O2:0.4 “)
reaction( “H + HO2 => OH + OH”, [1.50000E+14, 0, 1004])
reaction( “H + HO2 => H2 + O2”, [2.50000E+13, 0, 700])
reaction( “OH + HO2 => H2O + O2”, [2.00000E+13, 0, 1000])
reaction( “CO + OH => CO2 + H”, [1.51000E+07, 1.3, -758])
reaction( “CO2 + H => CO + OH”, [1.57000E+09, 1.3, 19000])
falloff_reaction( “CH4 (+ M) => CH3 + H (+ M)”,
kf = [6.30000E+14, 0, 104000],
kf0 = [1.00000E+17, 0, 86000],
efficiencies = ” C3H8:3 CH4:6.5 CO:0.75 CO2:1.5 H2:1 H2O:6.5 N2:0.4 O2:0.4 “)
falloff_reaction( “CH3 + H (+ M) => CH4 (+ M)”,
kf = [5.20000E+12, 0, -1310],
kf0 = [8.25000E+14, 0, -19310],
efficiencies = ” C3H8:3 CH4:6.5 CO:0.75 CO2:1.5 H2:1 H2O:6.5 N2:0.4 O2:0.4 “)
reaction( “CH4 + H => CH3 + H2”, [2.20000E+04, 3, 8750])
reaction( “CH3 + H2 => CH4 + H”, [9.57000E+02, 3, 8750])
reaction( “CH4 + OH => CH3 + H2O”, [1.60000E+06, 2.1, 2460])
reaction( “CH3 + H2O => CH4 + OH”, [3.02000E+05, 2.1, 17422])
reaction( “CH3 + O => CH2O + H”, [6.80000E+13, 0, 0])
reaction( “CH2O + H => HCO + H2”, [9.0E+13, 0, 3991])
reaction( “CH2O + OH => HCO + H2O”, [6.0E+13, 0, 1050])
reaction( “HCO + H => CO + H2”, [4.00000E+13, 0, 0])
three_body_reaction( “HCO + M => CO + H + M”, [1.60000E+14, 0, 14700])
reaction( “CH3 + O2 => CH3O + O”, [5.0E+12, 0, 25652])
reaction( “CH3O + H => CH2O + H2”, [2.00000E+13, 0, 0])
three_body_reaction( “CH3O + M => CH2O + H + M”, [2.40000E+13, 0, 28812])
reaction( “HO2 + HO2 => H2O2 + O2”, [8.0E+12, 0, 0])
three_body_reaction( “H2O2 + M => OH + OH + M”, [1.30000E+17, 0, 45500])
three_body_reaction( “OH + OH + M => H2O2 + M”, [9.86000E+14, 0, -5070])
reaction( “H2O2 + OH => H2O + HO2”, [1.00000E+13, 0, 1800])
reaction( “H2O + HO2 => H2O2 + OH”, [2.86000E+13, 0, 32790])
three_body_reaction( “OH + H + M => H2O + M”, [2.20000E+22, -2, 0])
three_body_reaction( “H + H + M => H2 + M”, [1.80000E+18, -1, 0])
reaction( ” CH3 + OH => CH2 + H2O “, [7.6E+06, 2.0, 5000])
reaction( ” CH2 + O => CO + H2 “, [6.0E+13, 0, 0])
reaction( ” CH2 + OH => CH + H2O “, [1.13E+07, 2.0, 3000])
reaction( ” CH + O => CO + H “, [5.7E+13, 0, 0])
reaction( ” CH + OH => HCO + H “, [3.0E+13, 0, 0])
reaction( ” CH + O2 => HCO + O “, [3.3E+13, 0, 0])
reaction( ” CH + CO2 => HCO + CO “, [2.5E+14, 0, 50])
three_body_reaction( “CO2 + M => CO + O + M”, [0.1E+11, 0, 45500])