cantera/data/inputs/air.xml
2003-08-09 03:25:53 +00:00

339 lines
13 KiB
XML

<ctml>
<!-- phase air -->
<phase dim="3" id="air">
<elementArray datasrc="elements.xml"> O N Ar </elementArray>
<speciesArray datasrc="#species_data"> O O2 N NO NO2 N2O N2 AR </speciesArray>
<reactionArray datasrc="#reaction_data"/>
<thermo model="IdealGas"/>
<kinetics model="GasKinetics"/>
<transport model="None"/>
</phase>
<!-- species definitions -->
<speciesData id="species_data">
<!-- species O -->
<species name="O">
<atomArray>O:1 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="200.0">
<floatArray name="coeffs" size="7">
3.168267100E+00, -3.279318840E-03, 6.643063960E-06, -6.128066240E-09,
2.112659710E-12, 2.912225920E+04, 2.051933460E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="3500.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
2.569420780E+00, -8.597411370E-05, 4.194845890E-08, -1.001777990E-11,
1.228336910E-15, 2.921757910E+04, 4.784338640E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">atom</string>
<LJ_welldepth units="K"> 80.000</LJ_welldepth>
<LJ_diameter units="A"> 2.750</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 0.000</polarizability>
<rotRelax> 0.000</rotRelax>
</transport>
</species>
<!-- species O2 -->
<species name="O2">
<atomArray>O:2 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="200.0">
<floatArray name="coeffs" size="7">
3.782456360E+00, -2.996734160E-03, 9.847302010E-06, -9.681295090E-09,
3.243728370E-12, -1.063943560E+03, 3.657675730E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="3500.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
3.282537840E+00, 1.483087540E-03, -7.579666690E-07, 2.094705550E-10,
-2.167177940E-14, -1.088457720E+03, 5.453231290E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">linear</string>
<LJ_welldepth units="K"> 107.400</LJ_welldepth>
<LJ_diameter units="A"> 3.460</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 1.600</polarizability>
<rotRelax> 3.800</rotRelax>
</transport>
</species>
<!-- species N -->
<species name="N">
<atomArray>N:1 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="200.0">
<floatArray name="coeffs" size="7">
2.500000000E+00, 0.000000000E+00, 0.000000000E+00, 0.000000000E+00,
0.000000000E+00, 5.610463700E+04, 4.193908700E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="6000.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
2.415942900E+00, 1.748906500E-04, -1.190236900E-07, 3.022624500E-11,
-2.036098200E-15, 5.613377300E+04, 4.649609600E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">atom</string>
<LJ_welldepth units="K"> 71.400</LJ_welldepth>
<LJ_diameter units="A"> 3.300</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 0.000</polarizability>
<rotRelax> 0.000</rotRelax>
</transport>
</species>
<!-- species NO -->
<species name="NO">
<atomArray>O:1 N:1 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="200.0">
<floatArray name="coeffs" size="7">
4.218476300E+00, -4.638976000E-03, 1.104102200E-05, -9.336135400E-09,
2.803577000E-12, 9.844623000E+03, 2.280846400E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="6000.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
3.260605600E+00, 1.191104300E-03, -4.291704800E-07, 6.945766900E-11,
-4.033609900E-15, 9.920974600E+03, 6.369302700E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">linear</string>
<LJ_welldepth units="K"> 97.530</LJ_welldepth>
<LJ_diameter units="A"> 3.620</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 1.760</polarizability>
<rotRelax> 4.000</rotRelax>
</transport>
</species>
<!-- species NO2 -->
<species name="NO2">
<atomArray>O:2 N:1 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="200.0">
<floatArray name="coeffs" size="7">
3.944031200E+00, -1.585429000E-03, 1.665781200E-05, -2.047542600E-08,
7.835056400E-12, 2.896617900E+03, 6.311991700E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="6000.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
4.884754200E+00, 2.172395600E-03, -8.280690600E-07, 1.574751000E-10,
-1.051089500E-14, 2.316498300E+03, -1.174169500E-01,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">nonlinear</string>
<LJ_welldepth units="K"> 200.000</LJ_welldepth>
<LJ_diameter units="A"> 3.500</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 0.000</polarizability>
<rotRelax> 1.000</rotRelax>
</transport>
</species>
<!-- species N2O -->
<species name="N2O">
<atomArray>O:1 N:2 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="200.0">
<floatArray name="coeffs" size="7">
2.257150200E+00, 1.130472800E-02, -1.367131900E-05, 9.681980600E-09,
-2.930718200E-12, 8.741774400E+03, 1.075799200E+01,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="6000.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
4.823072900E+00, 2.627025100E-03, -9.585087400E-07, 1.600071200E-10,
-9.775230300E-15, 8.073404800E+03, -2.201720700E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">linear</string>
<LJ_welldepth units="K"> 232.400</LJ_welldepth>
<LJ_diameter units="A"> 3.830</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 0.000</polarizability>
<rotRelax> 1.000</rotRelax>
</transport>
</species>
<!-- species N2 -->
<species name="N2">
<atomArray>N:2 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="300.0">
<floatArray name="coeffs" size="7">
3.298677000E+00, 1.408240400E-03, -3.963222000E-06, 5.641515000E-09,
-2.444854000E-12, -1.020899900E+03, 3.950372000E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="5000.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
2.926640000E+00, 1.487976800E-03, -5.684760000E-07, 1.009703800E-10,
-6.753351000E-15, -9.227977000E+02, 5.980528000E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">linear</string>
<LJ_welldepth units="K"> 97.530</LJ_welldepth>
<LJ_diameter units="A"> 3.620</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 1.760</polarizability>
<rotRelax> 4.000</rotRelax>
</transport>
</species>
<!-- species AR -->
<species name="AR">
<atomArray>Ar:1 </atomArray>
<thermo>
<NASA P0="100000.0" Tmax="1000.0" Tmin="300.0">
<floatArray name="coeffs" size="7">
2.500000000E+00, 0.000000000E+00, 0.000000000E+00, 0.000000000E+00,
0.000000000E+00, -7.453750000E+02, 4.366000000E+00,</floatArray>
</NASA>
<NASA P0="100000.0" Tmax="5000.0" Tmin="1000.0">
<floatArray name="coeffs" size="7">
2.500000000E+00, 0.000000000E+00, 0.000000000E+00, 0.000000000E+00,
0.000000000E+00, -7.453750000E+02, 4.366000000E+00,</floatArray>
</NASA>
</thermo>
<transport model="gas_transport">
<string title="geometry">atom</string>
<LJ_welldepth units="K"> 136.500</LJ_welldepth>
<LJ_diameter units="A"> 3.330</LJ_diameter>
<dipoleMoment units="Debye"> 0.000</dipoleMoment>
<polarizability units="A3"> 0.000</polarizability>
<rotRelax> 0.000</rotRelax>
</transport>
</species>
</speciesData>
<reactionData id="reaction_data">
<!-- reaction 0001 -->
<reaction id="0001" reversible="yes" type="threeBody">
<equation>2 O + M [=] O2 + M</equation>
<rateCoeff>
<Arrhenius>
<A units="cm6/mol2/s"> 1.200000E+17</A>
<b>-1</b>
<E units="cal/mol">0.000000</E>
</Arrhenius>
<efficiencies default="1.0"> AR:0.83 </efficiencies>
</rateCoeff>
<reactants>O:2</reactants>
<products>O2:1</products>
</reaction>
<!-- reaction 0002 -->
<reaction id="0002" reversible="yes">
<equation>N + NO [=] N2 + O</equation>
<rateCoeff>
<Arrhenius>
<A units="cm3/mol/s"> 2.700000E+13</A>
<b>0</b>
<E units="cal/mol">355.000000</E>
</Arrhenius>
</rateCoeff>
<reactants>NO:1 N:1</reactants>
<products>N2:1 O:1</products>
</reaction>
<!-- reaction 0003 -->
<reaction id="0003" reversible="yes">
<equation>N + O2 [=] NO + O</equation>
<rateCoeff>
<Arrhenius>
<A units="cm3/mol/s"> 9.000000E+09</A>
<b>1</b>
<E units="cal/mol">6500.000000</E>
</Arrhenius>
</rateCoeff>
<reactants>O2:1 N:1</reactants>
<products>O:1 NO:1</products>
</reaction>
<!-- reaction 0004 -->
<reaction id="0004" reversible="yes">
<equation>N2O + O [=] N2 + O2</equation>
<rateCoeff>
<Arrhenius>
<A units="cm3/mol/s"> 1.400000E+12</A>
<b>0</b>
<E units="cal/mol">10810.000000</E>
</Arrhenius>
</rateCoeff>
<reactants>N2O:1 O:1</reactants>
<products>N2:1 O2:1</products>
</reaction>
<!-- reaction 0005 -->
<reaction id="0005" reversible="yes">
<equation>N2O + O [=] 2 NO</equation>
<rateCoeff>
<Arrhenius>
<A units="cm3/mol/s"> 2.900000E+13</A>
<b>0</b>
<E units="cal/mol">23150.000000</E>
</Arrhenius>
</rateCoeff>
<reactants>N2O:1 O:1</reactants>
<products>NO:2</products>
</reaction>
<!-- reaction 0006 -->
<reaction id="0006" reversible="yes" type="falloff">
<equation>N2O (+ M) [=] N2 + O (+ M)</equation>
<rateCoeff>
<Arrhenius>
<A units="/s"> 7.910000E+10</A>
<b>0</b>
<E units="cal/mol">56020.000000</E>
</Arrhenius>
<Arrhenius name="k0">
<A units="cm3/mol/s"> 6.370000E+14</A>
<b>0</b>
<E units="cal/mol">56640.000000</E>
</Arrhenius>
<efficiencies default="1.0"> AR:0.625 </efficiencies>
<falloff type="Lindemann"/>
</rateCoeff>
<reactants>N2O:1</reactants>
<products>N2:1 O:1</products>
</reaction>
<!-- reaction 0007 -->
<reaction id="0007" reversible="yes" type="threeBody">
<equation>NO + O + M [=] NO2 + M</equation>
<rateCoeff>
<Arrhenius>
<A units="cm6/mol2/s"> 1.060000E+20</A>
<b>-1.4099999999999999</b>
<E units="cal/mol">0.000000</E>
</Arrhenius>
<efficiencies default="1.0"> AR:0.7 </efficiencies>
</rateCoeff>
<reactants>O:1 NO:1</reactants>
<products>NO2:1</products>
</reaction>
<!-- reaction 0008 -->
<reaction id="0008" reversible="yes">
<equation>NO2 + O [=] NO + O2</equation>
<rateCoeff>
<Arrhenius>
<A units="cm3/mol/s"> 3.900000E+12</A>
<b>0</b>
<E units="cal/mol">-240.000000</E>
</Arrhenius>
</rateCoeff>
<reactants>O:1 NO2:1</reactants>
<products>O2:1 NO:1</products>
</reaction>
</reactionData>
</ctml>