RMG.log

Global RMG Settings:
   database.directory   = /Users/belinda/Code/RMG-database/input (Default, relative to RMG-Py source code)
RMG execution initiated at Wed Jan 20 15:48:42 2016

#########################################################
# RMG-Py - Reaction Mechanism Generator in Python       #
# Version: 0.1.0                                        #
# Authors: RMG Developers (rmg_dev@mit.edu)             #
# P.I.s:   William H. Green (whgreen@mit.edu)           #
#          Richard H. West (r.west@neu.edu)             #
# Website: http://reactionmechanismgenerator.github.io/ #
#########################################################

The current git HEAD is:
	49c19a9069edabca81db399b9b08ada2ded692e9
	Mon Jan 11 16:59:40 2016 -0500

Reading input file "/Users/belinda/Code/RMG-Py/examples/rmg/silane/input.py"...

Loading thermodynamics library from primaryThermoLibrary.py in /Users/belinda/Code/RMG-database/input/thermo/libraries...
Loading thermodynamics library from SiliconHydrideLibrary.py in /Users/belinda/Code/RMG-database/input/thermo/libraries...
Loading thermodynamics group database from /Users/belinda/Code/RMG-database/input/thermo/groups...
Loading transport library from GRI-Mech.py in /Users/belinda/Code/RMG-database/input/transport/libraries...
Consistency checking of multiplicity of molecules with more than 2 unpaired electrons is not implemented yet!
Loading transport library from PrimaryTransportLibrary.py in /Users/belinda/Code/RMG-database/input/transport/libraries...
Loading transport group database from /Users/belinda/Code/RMG-database/input/transport/groups...
Loading the user-specified kinetics families from /Users/belinda/Code/RMG-database/input/kinetics/families
Loading kinetics library Silicon_Giunta_1990 from /Users/belinda/Code/RMG-database/input/kinetics/libraries/Silicon_Giunta_1990/reactions.py...
Loading kinetics library DolletSi2H4 from /Users/belinda/Code/RMG-database/input/kinetics/libraries/DolletSi2H4/reactions.py...
Loading frequencies group database from /Users/belinda/Code/RMG-database/input/statmech/groups...
Loading Platts additivity group database from /Users/belinda/Code/RMG-database/input/solvation/groups...
Adding rate rules from training set in kinetics families...
Found thermo for O2 in thermo library: primarythermolibrary
Found thermo for O2 in thermo library: primarythermolibrary
Found thermo for O2 in thermo library: primarythermolibrary
Found thermo for SiH4 in thermo library: siliconhydridelibrary
Found thermo for SiH3 in thermo library: siliconhydridelibrary
Found thermo for H in thermo library: primarythermolibrary
Filling in rate rules in kinetics families by averaging...
Adding reaction library Silicon_Giunta_1990 to model edge...
Found thermo for SiH2 in thermo library: siliconhydridelibrary
Found thermo for H2 in thermo library: primarythermolibrary
Found thermo for Si2H6 in thermo library: siliconhydridelibrary
Found thermo for SiH3SiH in thermo library: siliconhydridelibrary
Found thermo for SiH2SiH2 in thermo library: siliconhydridelibrary

Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 6 new edge species
    SiH2(4)
    H2(5)
    Si2H6(6)
    SiH3SiH(7)
    Si3H8(8)
    SiH2SiH2(9)
Added 0 new core reactions
Created 7 new edge reactions
    SiH4(1) <=> SiH2(4) + H2(5)
    Si2H6(6) <=> SiH4(1) + SiH2(4)
    Si2H6(6) <=> H2(5) + SiH3SiH(7)
    Si3H8(8) <=> SiH2(4) + Si2H6(6)
    Si3H8(8) <=> SiH4(1) + SiH3SiH(7)
    SiH3SiH(7) <=> SiH2SiH2(9)
    SiH2(4) + SiH2(4) <=> SiH2SiH2(9)

After model enlargement:
    The model core has 0 species and 0 reactions
    The model edge has 6 species and 7 reactions

Adding reaction library DolletSi2H4 to model edge...
This library reaction was not new: SiH3SiH(7) => SiH2SiH2(9)
This library reaction was not new: SiH2(4) + SiH2(4) => SiH2SiH2(9)
Found thermo for Si in thermo library: siliconhydridelibrary
Found thermo for SiH in thermo library: siliconhydridelibrary
Found thermo for Si2H2 in thermo library: siliconhydridelibrary

Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 4 new edge species
    Si(10)
    SiH(11)
    SiH2Si(12)
    Si2H2(13)
Added 0 new core reactions
Created 15 new edge reactions
    SiH3SiH(7) => SiH4(1) + Si(10)
    SiH3SiH(7) => SiH3(2) + SiH(11)
    SiH3SiH(7) => H2(5) + SiH2Si(12)
    SiH3SiH(7) => H2(5) + SiH2Si(12)
    SiH3SiH(7) => SiH2(4) + SiH2(4)
    SiH4(1) + Si(10) => SiH3SiH(7)
    SiH4(1) + Si(10) => SiH2SiH2(9)
    SiH4(1) + Si(10) => H2(5) + SiH2Si(12)
    SiH4(1) + Si(10) => H2(5) + SiH2Si(12)
    SiH4(1) + Si(10) => SiH3(2) + SiH(11)
    SiH4(1) + Si(10) => SiH2(4) + SiH2(4)
    H2(5) + Si2H2(13) => SiH2SiH2(9)
    SiH3(2) + SiH(11) => SiH2SiH2(9)
    SiH2(4) + SiH2(4) => H2(5) + Si2H2(13)
    SiH3(2) + SiH(11) => H2(5) + Si2H2(13)

After model enlargement:
    The model core has 0 species and 0 reactions
    The model edge has 10 species and 22 reactions

Found thermo for SiH4 in thermo library: siliconhydridelibrary
Found thermo for SiH3 in thermo library: siliconhydridelibrary
Found thermo for H in thermo library: primarythermolibrary
Found thermo for Ar in thermo library: primarythermolibrary
Found thermo for He in thermo library: primarythermolibrary
Found thermo for Ne in thermo library: primarythermolibrary
Found thermo for N2 in thermo library: primarythermolibrary
NOT generating reactions for unreactive species Ar
Generating thermodynamics for new species...
Generating kinetics for new reactions...
Updating 0 modified unimolecular reaction networks...


Summary of Model Enlargement
----------------------------
Added 1 new core species
    Ar
Created 0 new edge species
Added 0 new core reactions
Created 0 new edge reactions

After model enlargement:
    The model core has 1 species and 0 reactions
    The model edge has 10 species and 22 reactions


NOT generating reactions for unreactive species He
Generating thermodynamics for new species...
Generating kinetics for new reactions...
Updating 0 modified unimolecular reaction networks...


Summary of Model Enlargement
----------------------------
Added 1 new core species
    He
Created 0 new edge species
Added 0 new core reactions
Created 0 new edge reactions

After model enlargement:
    The model core has 2 species and 0 reactions
    The model edge has 10 species and 22 reactions


NOT generating reactions for unreactive species Ne
Generating thermodynamics for new species...
Generating kinetics for new reactions...
Updating 0 modified unimolecular reaction networks...


Summary of Model Enlargement
----------------------------
Added 1 new core species
    Ne
Created 0 new edge species
Added 0 new core reactions
Created 0 new edge reactions

After model enlargement:
    The model core has 3 species and 0 reactions
    The model edge has 10 species and 22 reactions


NOT generating reactions for unreactive species N2
Generating thermodynamics for new species...
Generating kinetics for new reactions...
Updating 0 modified unimolecular reaction networks...


Summary of Model Enlargement
----------------------------
Added 1 new core species
    N2
Created 0 new edge species
Added 0 new core reactions
Created 0 new edge reactions

After model enlargement:
    The model core has 4 species and 0 reactions
    The model edge has 10 species and 22 reactions


Adding species SiH4(1) to model core
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) <=> SiH3(2) + H(3), Ea raised from 374.2 to 380.7 kJ/mol to match endothermicity of reaction.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
========================================================================
1 network information
---------------------
Isomers:
    SiH4(1)                                                12.704 kJ/mol
Reactant channels:
Product channels:
    SiH3(2) + H(3)                                        393.357 kJ/mol
    SiH2(4) + H2(5)                                       244.507 kJ/mol
Path reactions:
    SiH4(1) <=> SiH3(2) + H(3)                            393.357 kJ/mol
    SiH4(1) <=> SiH2(4) + H2(5)                            246.59 kJ/mol
========================================================================

Calculating densities of states for 1 network...
Using 544 grains from 12.70 to 1060.38 kJ/mol in steps of 1.93 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for SiH4(1) <=> SiH2(4) + H2(5)...
Using 250 grains from 12.70 to 493.95 kJ/mol in steps of 1.93 kJ/mol to compute the k(T,P) values at 302.47 K
Warning: For path reaction SiH4(1) <=> SiH2(4) + H2(5):
Warning:     Expected kf(302.47 K) = 7.73503e-27
Warning:       Actual kf(302.47 K) = 4.92306e-27
Warning:     Expected Keq(302.47 K) = 1.48791e-33
Warning:       Actual Keq(302.47 K) = 0
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH2(4) + H2(5)".
Using 250 grains from 12.70 to 500.83 kJ/mol in steps of 1.96 kJ/mol to compute the k(T,P) values at 323.145 K
Warning: For path reaction SiH4(1) <=> SiH3(2) + H(3):
Warning:     Expected kf(323.145 K) = 1.15632e-46
Warning:       Actual kf(323.145 K) = 8.17499e-47
Warning:     Expected Keq(323.145 K) = 5.06329e-55
Warning:       Actual Keq(323.145 K) = 0
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH3(2) + H(3)".
Warning: For path reaction SiH4(1) <=> SiH2(4) + H2(5):
Warning:     Expected kf(323.145 K) = 2.87279e-24
Warning:       Actual kf(323.145 K) = 2.14524e-24
Warning:     Expected Keq(323.145 K) = 6.2547e-31
Warning:       Actual Keq(323.145 K) = 0
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH2(4) + H2(5)".
Using 250 grains from 12.70 to 516.36 kJ/mol in steps of 2.02 kJ/mol to compute the k(T,P) values at 369.86 K
Warning: For path reaction SiH4(1) <=> SiH3(2) + H(3):
Warning:     Expected kf(369.86 K) = 6.83024e-39
Warning:       Actual kf(369.86 K) = 5.13916e-39
Warning:     Expected Keq(369.86 K) = 3.60903e-47
Warning:       Actual Keq(369.86 K) = 0
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH3(2) + H(3)".
Using 256 grains from 12.70 to 546.16 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 280 grains from 12.70 to 596.37 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 324 grains from 12.70 to 688.42 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 399 grains from 12.70 to 845.32 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 485 grains from 12.70 to 1025.23 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    SiH4(1)
Created 2 new edge species
    SiH3(2)
    H(3)
Added 0 new core reactions
Created 1 new edge reactions
    SiH4(1) => SiH2(4) + H2(5)

After model enlargement:
    The model core has 5 species and 0 reactions
    The model edge has 12 species and 23 reactions


Adding species SiH3(2) to model core
Generating thermodynamics for new species...
Found thermo for [SiH2] in thermo library: siliconhydridelibrary
Generating kinetics for new reactions...
For reaction SiH3(2) + SiH3(2) <=> Si2H6(6) Ea raised from -0.8 to 0 kJ/mol.
Updating 0 modified unimolecular reaction networks...


Summary of Model Enlargement
----------------------------
Added 1 new core species
    SiH3(2)
Created 1 new edge species
    [SiH2](14)
Added 0 new core reactions
Created 1 new edge reactions
    SiH3(2) + SiH3(2) <=> SiH4(1) + [SiH2](14)

After model enlargement:
    The model core has 6 species and 0 reactions
    The model edge has 12 species and 24 reactions


Adding species H(3) to model core
Exploring isomer SiH4(1) in pressure-dependent network #3
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) <=> SiH3(2) + H(3), Ea raised from 374.2 to 380.7 kJ/mol to match endothermicity of reaction.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
========================================================================
3 network information
---------------------
Isomers:
    SiH4(1)                                                12.704 kJ/mol
Reactant channels:
    SiH3(2) + H(3)                                        393.357 kJ/mol
Product channels:
    SiH2(4) + H2(5)                                       244.507 kJ/mol
Path reactions:
    SiH4(1) <=> SiH3(2) + H(3)                            393.357 kJ/mol
    SiH4(1) <=> SiH2(4) + H2(5)                            246.59 kJ/mol
========================================================================

Calculating densities of states for 3 network...
Using 544 grains from 12.70 to 1060.38 kJ/mol in steps of 1.93 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for SiH4(1) <=> SiH2(4) + H2(5)...
Using 250 grains from 12.70 to 493.95 kJ/mol in steps of 1.93 kJ/mol to compute the k(T,P) values at 302.47 K
Warning: For path reaction SiH4(1) <=> SiH2(4) + H2(5):
Warning:     Expected kf(302.47 K) = 7.73503e-27
Warning:       Actual kf(302.47 K) = 4.92306e-27
Warning:     Expected Keq(302.47 K) = 1.48791e-33
Warning:       Actual Keq(302.47 K) = 0
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH2(4) + H2(5)".
Using 250 grains from 12.70 to 500.83 kJ/mol in steps of 1.96 kJ/mol to compute the k(T,P) values at 323.145 K
Warning: For path reaction SiH4(1) <=> SiH3(2) + H(3):
Warning:     Expected kf(323.145 K) = 1.15632e-46
Warning:       Actual kf(323.145 K) = 8.17499e-47
Warning:     Expected Keq(323.145 K) = 5.06329e-55
Warning:       Actual Keq(323.145 K) = 9.77343e-56
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH3(2) + H(3)".
Warning: For path reaction SiH4(1) <=> SiH2(4) + H2(5):
Warning:     Expected kf(323.145 K) = 2.87279e-24
Warning:       Actual kf(323.145 K) = 2.14524e-24
Warning:     Expected Keq(323.145 K) = 6.2547e-31
Warning:       Actual Keq(323.145 K) = 0
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH2(4) + H2(5)".
Using 250 grains from 12.70 to 516.36 kJ/mol in steps of 2.02 kJ/mol to compute the k(T,P) values at 369.86 K
Warning: For path reaction SiH4(1) <=> SiH3(2) + H(3):
Warning:     Expected kf(369.86 K) = 6.83024e-39
Warning:       Actual kf(369.86 K) = 5.13916e-39
Warning:     Expected Keq(369.86 K) = 3.60903e-47
Warning:       Actual Keq(369.86 K) = 6.88231e-48
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH3(2) + H(3)".
Using 256 grains from 12.70 to 546.16 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 280 grains from 12.70 to 596.37 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 324 grains from 12.70 to 688.42 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 399 grains from 12.70 to 845.32 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 485 grains from 12.70 to 1025.23 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    H(3)
Created 0 new edge species
Moved 1 reactions from edge to core
    SiH3(2) + H(3) <=> SiH4(1)
Added 0 new core reactions
Created 3 new edge reactions
    SiH4(1) + H(3) <=> SiH3(2) + H2(5)
    SiH3(2) + H(3) <=> H2(5) + [SiH2](14)
    SiH3(2) + H(3) => SiH2(4) + H2(5)

After model enlargement:
    The model core has 7 species and 1 reactions
    The model edge has 11 species and 26 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 1 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 1 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 27 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 27 reactions.
Conducting simulation of reaction system 1...
At time 1.0000e-15 s, species SiH2(4) exceeded the minimum rate for moving to model core
    Characteristic rate: 1.2717e-12 mol/m^3*s
    SiH2(4) rate: 1.2362e-03 mol/m^3*s (9.721e+08)
    PDepNetwork #2 leak rate: 7.7109e-48 mol/m^3*s (6.063e-36)
    SiH4(1) conversion: 0         
At time 1.0000e-15 s, species SiH2(4) exceeded the minimum rate for simulation interruption
    Characteristic rate: 1.2717e-12 mol/m^3*s
    SiH2(4) rate: 1.2362e-03 mol/m^3*s (9.721e+08)
    PDepNetwork #2 leak rate: 7.7109e-48 mol/m^3*s (6.063e-36)
    SiH4(1) conversion: 0         


Adding species SiH2(4) to model core
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction H(3) + SiH(11) <=> SiH2(4) Ea raised from -0.8 to 0 kJ/mol.
For reaction H2(5) + [SiH4](15) <=> SiH2(4) Ea raised from -1.9 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
========================================================================
5 network information
---------------------
Isomers:
    SiH2(4)                                               253.111 kJ/mol
Reactant channels:
Product channels:
    H(3) + SiH(11)                                        579.613 kJ/mol
    H2(5) + [SiH4](15)                                    261.681 kJ/mol
Path reactions:
    H(3) + SiH(11) <=> SiH2(4)                            579.613 kJ/mol
    H2(5) + [SiH4](15) <=> SiH2(4)                        261.681 kJ/mol
========================================================================

Calculating densities of states for 5 network...
Using 582 grains from 253.11 to 1247.76 kJ/mol in steps of 1.71 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH4](15) <=> SiH2(4)...
Using 250 grains from 253.11 to 680.21 kJ/mol in steps of 1.72 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 253.11 to 687.08 kJ/mol in steps of 1.74 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 253.11 to 702.62 kJ/mol in steps of 1.81 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 253.11 to 731.27 kJ/mol in steps of 1.92 kJ/mol to compute the k(T,P) values at 455.987 K
Using 254 grains from 253.11 to 782.39 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 298 grains from 253.11 to 874.43 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 373 grains from 253.11 to 1031.33 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 459 grains from 253.11 to 1211.25 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    SiH2(4)
Created 1 new edge species
    [SiH4](15)
Added 0 new core reactions
Created 3 new edge reactions
    H(3) + SiH2(4) <=> H2(5) + SiH(11)
    SiH2(4) => H(3) + SiH(11)
    SiH2(4) => H2(5) + [SiH4](15)

After model enlargement:
    The model core has 8 species and 1 reactions
    The model edge has 11 species and 29 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 1 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 1 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 30 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 30 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:06
    Memory used: 148.50 MB

Conducting simulation of reaction system 1...
At time 1.0000e-15 s, species H2(5) exceeded the minimum rate for moving to model core
    Characteristic rate: 1.2717e-12 mol/m^3*s
    H2(5) rate: 1.2362e-03 mol/m^3*s (9.721e+08)
    PDepNetwork #2 leak rate: 7.7109e-48 mol/m^3*s (6.063e-36)
    SiH4(1) conversion: 0         
At time 1.0000e-15 s, species H2(5) exceeded the minimum rate for simulation interruption
    Characteristic rate: 1.2717e-12 mol/m^3*s
    H2(5) rate: 1.2362e-03 mol/m^3*s (9.721e+08)
    PDepNetwork #2 leak rate: 7.7109e-48 mol/m^3*s (6.063e-36)
    SiH4(1) conversion: 0         


Adding species H2(5) to model core
Exploring isomer H2(5) in pressure-dependent network #4
Exploring isomer SiH4(1) in pressure-dependent network #8
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) <=> SiH3(2) + H(3), Ea raised from 374.2 to 380.7 kJ/mol to match endothermicity of reaction.
Updating 3 modified unimolecular reaction networks...
========================================================================
4 network information
---------------------
Isomers:
    H2(5)                                                -8.60349 kJ/mol
Reactant channels:
    H(3) + H(3)                                           423.609 kJ/mol
Product channels:
Path reactions:
    H(3) + H(3) <=> H2(5)                                 429.885 kJ/mol
========================================================================

Calculating densities of states for 4 network...
Using 529 grains from -8.60 to 1095.97 kJ/mol in steps of 2.09 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + H(3) <=> H2(5)...
Using 259 grains from -8.60 to 531.13 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 302.47 K
Using 262 grains from -8.60 to 537.41 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 323.145 K
Using 270 grains from -8.60 to 554.14 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 369.86 K
Using 284 grains from -8.60 to 583.43 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 308 grains from -8.60 to 633.64 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 352 grains from -8.60 to 725.69 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 426 grains from -8.60 to 880.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 513 grains from -8.60 to 1062.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K
========================================================================
7 network information
---------------------
Isomers:
    H2(5)                                                -8.60349 kJ/mol
Reactant channels:
    H(3) + H(3)                                           423.609 kJ/mol
Product channels:
Path reactions:
    H(3) + H(3) <=> H2(5)                                 429.885 kJ/mol
========================================================================

Calculating densities of states for 7 network...
Using 529 grains from -8.60 to 1095.97 kJ/mol in steps of 2.09 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + H(3) <=> H2(5)...
Using 259 grains from -8.60 to 531.13 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 302.47 K
Using 262 grains from -8.60 to 537.41 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 323.145 K
Using 270 grains from -8.60 to 554.14 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 369.86 K
Using 284 grains from -8.60 to 583.43 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 308 grains from -8.60 to 633.64 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 352 grains from -8.60 to 725.69 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 426 grains from -8.60 to 880.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 513 grains from -8.60 to 1062.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K
========================================================================
8 network information
---------------------
Isomers:
    SiH4(1)                                                12.704 kJ/mol
Reactant channels:
    SiH2(4) + H2(5)                                       244.507 kJ/mol
    SiH3(2) + H(3)                                        393.357 kJ/mol
Product channels:
Path reactions:
    SiH4(1) <=> SiH2(4) + H2(5)                            246.59 kJ/mol
    SiH4(1) <=> SiH3(2) + H(3)                            393.357 kJ/mol
========================================================================

Calculating densities of states for 8 network...
Using 544 grains from 12.70 to 1060.38 kJ/mol in steps of 1.93 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for SiH4(1) <=> SiH3(2) + H(3)...
Using 250 grains from 12.70 to 493.95 kJ/mol in steps of 1.93 kJ/mol to compute the k(T,P) values at 302.47 K
Warning: For path reaction SiH4(1) <=> SiH2(4) + H2(5):
Warning:     Expected kf(302.47 K) = 7.73503e-27
Warning:       Actual kf(302.47 K) = 4.92306e-27
Warning:     Expected Keq(302.47 K) = 1.48791e-33
Warning:       Actual Keq(302.47 K) = 9.51685e-35
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH2(4) + H2(5)".
Using 250 grains from 12.70 to 500.83 kJ/mol in steps of 1.96 kJ/mol to compute the k(T,P) values at 323.145 K
Warning: For path reaction SiH4(1) <=> SiH2(4) + H2(5):
Warning:     Expected kf(323.145 K) = 2.87279e-24
Warning:       Actual kf(323.145 K) = 2.14524e-24
Warning:     Expected Keq(323.145 K) = 6.2547e-31
Warning:       Actual Keq(323.145 K) = 3.46436e-32
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH2(4) + H2(5)".
Warning: For path reaction SiH4(1) <=> SiH3(2) + H(3):
Warning:     Expected kf(323.145 K) = 1.15632e-46
Warning:       Actual kf(323.145 K) = 8.17499e-47
Warning:     Expected Keq(323.145 K) = 5.06329e-55
Warning:       Actual Keq(323.145 K) = 9.77343e-56
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH3(2) + H(3)".
Using 250 grains from 12.70 to 516.36 kJ/mol in steps of 2.02 kJ/mol to compute the k(T,P) values at 369.86 K
Warning: For path reaction SiH4(1) <=> SiH3(2) + H(3):
Warning:     Expected kf(369.86 K) = 6.83024e-39
Warning:       Actual kf(369.86 K) = 5.13916e-39
Warning:     Expected Keq(369.86 K) = 3.60903e-47
Warning:       Actual Keq(369.86 K) = 6.88231e-48
Warning: Significant corrections to k(E) to be consistent with high-pressure limit for path reaction "SiH4(1) <=> SiH3(2) + H(3)".
Using 256 grains from 12.70 to 546.16 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 280 grains from 12.70 to 596.37 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 324 grains from 12.70 to 688.42 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 399 grains from 12.70 to 845.32 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 485 grains from 12.70 to 1025.23 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    H2(5)
Created 0 new edge species
Moved 3 reactions from edge to core
    SiH2(4) + H2(5) <=> SiH4(1)
    SiH4(1) + H(3) <=> SiH3(2) + H2(5)
    SiH3(2) + H(3) <=> SiH2(4) + H2(5)
Added 1 new core reactions
    H(3) + H(3) <=> H2(5)
Created 0 new edge reactions

After model enlargement:
    The model core has 9 species and 5 reactions
    The model edge has 10 species and 26 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 5 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 5 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 31 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 31 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:08
    Memory used: 152.36 MB

Conducting simulation of reaction system 1...
At time 1.5000e-14 s, species [SiH4](15) exceeded the minimum rate for moving to model core
    Characteristic rate: 2.1248e-03 mol/m^3*s
    [SiH4](15) rate: 4.0157e-09 mol/m^3*s (1.89e-06)
    PDepNetwork #6 leak rate: 2.8848e-17 mol/m^3*s (1.358e-14)
    SiH4(1) conversion: 2.154e-14 
At time 6.3000e-14 s, species [SiH4](15) exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.1248e-03 mol/m^3*s
    [SiH4](15) rate: 1.7337e-08 mol/m^3*s (8.159e-06)
    PDepNetwork #6 leak rate: 1.2455e-16 mol/m^3*s (5.862e-14)
    SiH4(1) conversion: 9.315e-14 


Adding species [SiH4](15) to model core
Exploring isomer SiH2(4) in pressure-dependent network #10
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) + [SiH4](15) <=> SiH3SiH(7), Ea raised from -1.9 to 5.2 kJ/mol to match endothermicity of reaction.
Updating 1 modified unimolecular reaction networks...
========================================================================
10 network information
----------------------
Isomers:
    SiH2(4)                                               253.111 kJ/mol
Reactant channels:
    H2(5) + [SiH4](15)                                    261.681 kJ/mol
Product channels:
    H(3) + SiH(11)                                        579.613 kJ/mol
Path reactions:
    H2(5) + [SiH4](15) <=> SiH2(4)                        261.681 kJ/mol
    H(3) + SiH(11) <=> SiH2(4)                            579.613 kJ/mol
========================================================================

Calculating densities of states for 10 network...
Using 582 grains from 253.11 to 1247.76 kJ/mol in steps of 1.71 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + SiH(11) <=> SiH2(4)...
Using 250 grains from 253.11 to 680.21 kJ/mol in steps of 1.72 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 253.11 to 687.08 kJ/mol in steps of 1.74 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 253.11 to 702.62 kJ/mol in steps of 1.81 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 253.11 to 731.27 kJ/mol in steps of 1.92 kJ/mol to compute the k(T,P) values at 455.987 K
Using 254 grains from 253.11 to 782.39 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 298 grains from 253.11 to 874.43 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 373 grains from 253.11 to 1031.33 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 459 grains from 253.11 to 1211.25 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    [SiH4](15)
Created 0 new edge species
Moved 1 reactions from edge to core
    SiH2(4) <=> H2(5) + [SiH4](15)
Added 0 new core reactions
Created 1 new edge reactions
    H2(5) + [SiH4](15) => H(3) + SiH(11)

After model enlargement:
    The model core has 10 species and 6 reactions
    The model edge has 9 species and 26 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 6 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 6 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 32 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 32 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:09
    Memory used: 149.29 MB

Conducting simulation of reaction system 1...
At time 9.8303e-11 s, PDepNetwork #9 exceeded the minimum rate for exploring
    Characteristic rate: 2.1253e-03 mol/m^3*s
    SiH2SiH2(9) rate: 3.5529e-18 mol/m^3*s (1.672e-15)
    PDepNetwork #9 leak rate: 2.5483e-09 mol/m^3*s (1.199e-06)
    SiH4(1) conversion: 1.467e-10 
At time 1.9661e-10 s, PDepNetwork #9 exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.1268e-03 mol/m^3*s
    SiH2SiH2(9) rate: 1.3842e-17 mol/m^3*s (6.509e-15)
    PDepNetwork #9 leak rate: 1.0871e-08 mol/m^3*s (5.111e-06)
    SiH4(1) conversion: 2.934e-10 


Exploring isomer SiH3SiH(7) in pressure-dependent network #9
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction H(3) + [SiH2][SiH3](16) <=> SiH3SiH(7) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH2][SiH3](17) <=> SiH3SiH(7) Ea raised from -0.8 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH3][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
========================================================================
9 network information
---------------------
Isomers:
    SiH3SiH(7)                                            288.191 kJ/mol
Reactant channels:
    SiH4(1) + [SiH4](15)                                  282.988 kJ/mol
Product channels:
    H(3) + [SiH2][SiH3](16)                               684.481 kJ/mol
    H(3) + [SiH2][SiH3](17)                                684.48 kJ/mol
    H2(5) + Si2H2(13)                                     433.015 kJ/mol
Path reactions:
    SiH4(1) + [SiH4](15) <=> SiH3SiH(7)                   288.191 kJ/mol
    H(3) + [SiH2][SiH3](16) <=> SiH3SiH(7)                684.481 kJ/mol
    H(3) + [SiH2][SiH3](17) <=> SiH3SiH(7)                 684.48 kJ/mol
    H2(5) + Si2H2(13) <=> SiH3SiH(7)                      436.362 kJ/mol
========================================================================

Calculating densities of states for 9 network...
Using 531 grains from 282.99 to 1349.94 kJ/mol in steps of 2.01 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + Si2H2(13) <=> SiH3SiH(7)...
Using 250 grains from 282.99 to 785.08 kJ/mol in steps of 2.02 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 282.99 to 791.95 kJ/mol in steps of 2.04 kJ/mol to compute the k(T,P) values at 323.145 K
Using 252 grains from 282.99 to 808.08 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 369.86 K
Using 266 grains from 282.99 to 837.37 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 290 grains from 282.99 to 887.58 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 334 grains from 282.99 to 979.62 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 409 grains from 282.99 to 1136.52 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 495 grains from 282.99 to 1316.44 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 2 new edge species
    [SiH2][SiH3](16)
    [SiH2][SiH3](17)
Added 0 new core reactions
Created 4 new edge reactions
    SiH4(1) + [SiH4](15) => SiH3SiH(7)
    SiH4(1) + [SiH4](15) => H(3) + [SiH2][SiH3](16)
    SiH4(1) + [SiH4](15) => H(3) + [SiH2][SiH3](17)
    SiH4(1) + [SiH4](15) => H2(5) + Si2H2(13)

After model enlargement:
    The model core has 10 species and 6 reactions
    The model edge has 11 species and 30 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 6 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 6 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 36 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 36 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:10
    Memory used: 154.78 MB

Conducting simulation of reaction system 1...
At time 1.0000e-04 s, species SiH3SiH(7) exceeded the minimum rate for moving to model core
    Characteristic rate: 3.0043e-03 mol/m^3*s
    SiH3SiH(7) rate: 5.4510e-09 mol/m^3*s (1.814e-06)
    PDepNetwork #6 leak rate: 8.8095e-12 mol/m^3*s (2.932e-09)
    SiH4(1) conversion: 0.0001492 
At time 4.0571e-04 s, species SiH3SiH(7) exceeded the minimum rate for simulation interruption
    Characteristic rate: 3.0031e-03 mol/m^3*s
    SiH3SiH(7) rate: 1.8550e-08 mol/m^3*s (6.177e-06)
    PDepNetwork #6 leak rate: 8.8020e-12 mol/m^3*s (2.931e-09)
    SiH4(1) conversion: 0.0006053 


Adding species SiH3SiH(7) to model core
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH2(4) + SiH3SiH(7) <=> [SiH3][SiH2][SiH3](18) Ea raised from -1.9 to 0 kJ/mol.
For reaction SiH3SiH(7) + [SiH4](15) <=> [SiH3][SiH2][SiH3](19), Ea raised from -1.9 to 16.5 kJ/mol to match endothermicity of reaction.
For reaction SiH3SiH(7) + SiH3SiH(7) <=> [SiH3][SiH2][SiH2][SiH3](20) Ea raised from -38.1 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
========================================================================
11 network information
----------------------
Isomers:
    SiH3SiH(7)                                            288.191 kJ/mol
Reactant channels:
    SiH4(1) + [SiH4](15)                                  282.988 kJ/mol
Product channels:
    H(3) + [SiH2][SiH3](16)                               684.481 kJ/mol
    H(3) + [SiH2][SiH3](17)                                684.48 kJ/mol
    H2(5) + Si2H2(13)                                     433.015 kJ/mol
Path reactions:
    H(3) + [SiH2][SiH3](16) <=> SiH3SiH(7)                684.481 kJ/mol
    H(3) + [SiH2][SiH3](17) <=> SiH3SiH(7)                 684.48 kJ/mol
    H2(5) + Si2H2(13) <=> SiH3SiH(7)                      436.362 kJ/mol
    SiH4(1) + [SiH4](15) <=> SiH3SiH(7)                   288.191 kJ/mol
========================================================================

Calculating densities of states for 11 network...
Using 531 grains from 282.99 to 1349.94 kJ/mol in steps of 2.01 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for SiH4(1) + [SiH4](15) <=> SiH3SiH(7)...
Using 250 grains from 282.99 to 785.08 kJ/mol in steps of 2.02 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 282.99 to 791.95 kJ/mol in steps of 2.04 kJ/mol to compute the k(T,P) values at 323.145 K
Using 252 grains from 282.99 to 808.08 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 369.86 K
Using 266 grains from 282.99 to 837.37 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 290 grains from 282.99 to 887.58 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 334 grains from 282.99 to 979.62 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 409 grains from 282.99 to 1136.52 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 495 grains from 282.99 to 1316.44 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    SiH3SiH(7)
Created 3 new edge species
    [SiH3][SiH2][SiH3](18)
    [SiH3][SiH2][SiH3](19)
    [SiH3][SiH2][SiH2][SiH3](20)
Moved 2 reactions from edge to core
    SiH3SiH(7) => SiH2(4) + SiH2(4)
    SiH3SiH(7) <=> SiH4(1) + [SiH4](15)
Added 0 new core reactions
Created 5 new edge reactions
    H(3) + SiH3SiH(7) <=> H2(5) + [SiH2][SiH3](16)
    H(3) + SiH3SiH(7) <=> H2(5) + [SiH2][SiH3](17)
    SiH3SiH(7) => H(3) + [SiH2][SiH3](16)
    SiH3SiH(7) => H(3) + [SiH2][SiH3](17)
    SiH3SiH(7) => H2(5) + Si2H2(13)

After model enlargement:
    The model core has 11 species and 8 reactions
    The model edge has 13 species and 33 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 8 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 8 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 41 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 41 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:11
    Memory used: 150.87 MB

Conducting simulation of reaction system 1...
At time 4.0271e-05 s, species SiH2SiH2(9) exceeded the minimum rate for moving to model core
    Characteristic rate: 3.0047e-03 mol/m^3*s
    SiH2SiH2(9) rate: 3.2743e-09 mol/m^3*s (1.09e-06)
    PDepNetwork #6 leak rate: 8.8116e-12 mol/m^3*s (2.933e-09)
    SiH4(1) conversion: 6.01e-05  
At time 2.1423e-04 s, species SiH2SiH2(9) exceeded the minimum rate for simulation interruption
    Characteristic rate: 3.0039e-03 mol/m^3*s
    SiH2SiH2(9) rate: 1.7413e-08 mol/m^3*s (5.797e-06)
    PDepNetwork #6 leak rate: 8.8070e-12 mol/m^3*s (2.932e-09)
    SiH4(1) conversion: 0.0003197 


Adding species SiH2SiH2(9) to model core
Generating thermodynamics for new species...
Found thermo for [SiH]=[SiH2] in thermo library: siliconhydridelibrary
Generating kinetics for new reactions...
For reaction H(3) + [SiH]=[SiH2](21) <=> SiH2SiH2(9) Ea raised from -0.8 to 0 kJ/mol.
For reaction H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9) Ea raised from -1.9 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
========================================================================
17 network information
----------------------
Isomers:
    SiH2SiH2(9)                                           255.415 kJ/mol
Reactant channels:
Product channels:
    H(3) + [SiH]=[SiH2](21)                               595.785 kJ/mol
    H2(5) + [SiH2]=[SiH2](22)                             392.975 kJ/mol
Path reactions:
    H(3) + [SiH]=[SiH2](21) <=> SiH2SiH2(9)               595.785 kJ/mol
    H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9)             392.975 kJ/mol
========================================================================

Calculating densities of states for 17 network...
Using 571 grains from 255.41 to 1262.98 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9)...
Using 250 grains from 255.41 to 696.38 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 255.41 to 703.26 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 255.41 to 718.79 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 255.41 to 747.44 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 255.41 to 799.33 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 255.41 to 891.38 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 255.41 to 1046.19 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 255.41 to 1228.19 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    SiH2SiH2(9)
Created 2 new edge species
    [SiH]=[SiH2](21)
    [SiH2]=[SiH2](22)
Moved 2 reactions from edge to core
    SiH3SiH(7) <=> SiH2SiH2(9)
    SiH2(4) + SiH2(4) <=> SiH2SiH2(9)
Added 0 new core reactions
Created 4 new edge reactions
    SiH3(2) + SiH2SiH2(9) <=> SiH4(1) + [SiH]=[SiH2](21)
    H(3) + SiH2SiH2(9) <=> H2(5) + [SiH]=[SiH2](21)
    SiH2SiH2(9) => H(3) + [SiH]=[SiH2](21)
    SiH2SiH2(9) => H2(5) + [SiH2]=[SiH2](22)

After model enlargement:
    The model core has 12 species and 10 reactions
    The model edge has 14 species and 35 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 10 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 10 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 45 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 45 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:12
    Memory used: 150.92 MB

Conducting simulation of reaction system 1...
At time 7.6904e-02 s, species [SiH2]=[SiH2](22) exceeded the minimum rate for moving to model core
    Characteristic rate: 2.6790e-03 mol/m^3*s
    [SiH2]=[SiH2](22) rate: 2.9267e-09 mol/m^3*s (1.092e-06)
    PDepNetwork #15 leak rate: 6.8844e-11 mol/m^3*s (2.57e-08)
    SiH4(1) conversion: 0.1084    
At time 4.7994e-01 s, species [SiH2]=[SiH2](22) exceeded the minimum rate for simulation interruption
    Characteristic rate: 1.4679e-03 mol/m^3*s
    [SiH2]=[SiH2](22) rate: 7.5631e-09 mol/m^3*s (5.152e-06)
    PDepNetwork #15 leak rate: 8.3901e-10 mol/m^3*s (5.716e-07)
    SiH4(1) conversion: 0.5114    


Adding species [SiH2]=[SiH2](22) to model core
Exploring isomer SiH2SiH2(9) in pressure-dependent network #20
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction H(3) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22) Ea raised from -0.8 to 0 kJ/mol.
For reaction H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22) Ea raised from -1.9 to 0 kJ/mol.
For reaction SiH4(1) + [SiH2]=[SiH2](22) <=> [SiH2]=[SiH][SiH3](25) Ea raised from -1.9 to 0 kJ/mol.
For reaction SiH3SiH(7) + [SiH2]=[SiH2](22) <=> [SiH2]=[SiH][SiH2][SiH3](26) Ea raised from -1.9 to 0 kJ/mol.
Updating 2 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
========================================================================
18 network information
----------------------
Isomers:
    [SiH2]=[SiH2](22)                                     401.579 kJ/mol
Reactant channels:
Product channels:
    H(3) + [SiH]=[SiH2](23)                                741.95 kJ/mol
    H2(5) + [SiH2]=[SiH2](24)                             529.921 kJ/mol
Path reactions:
    H(3) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22)          741.95 kJ/mol
    H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22)       529.921 kJ/mol
========================================================================

Calculating densities of states for 18 network...
Using 571 grains from 401.58 to 1409.14 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22)...
Using 250 grains from 401.58 to 842.54 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 401.58 to 849.42 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 401.58 to 864.96 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 401.58 to 893.60 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 401.58 to 945.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 401.58 to 1037.55 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 401.58 to 1192.35 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 401.58 to 1374.36 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K
========================================================================
20 network information
----------------------
Isomers:
    SiH2SiH2(9)                                           255.415 kJ/mol
Reactant channels:
    H2(5) + [SiH2]=[SiH2](22)                             392.975 kJ/mol
Product channels:
    H(3) + [SiH]=[SiH2](21)                               595.785 kJ/mol
Path reactions:
    H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9)             392.975 kJ/mol
    H(3) + [SiH]=[SiH2](21) <=> SiH2SiH2(9)               595.785 kJ/mol
========================================================================

Calculating densities of states for 20 network...
Using 571 grains from 255.41 to 1262.98 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + [SiH]=[SiH2](21) <=> SiH2SiH2(9)...
Using 250 grains from 255.41 to 696.38 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 255.41 to 703.26 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 255.41 to 718.79 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 255.41 to 747.44 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 255.41 to 799.33 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 255.41 to 891.38 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 255.41 to 1046.19 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 255.41 to 1228.19 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    [SiH2]=[SiH2](22)
Created 4 new edge species
    [SiH]=[SiH2](23)
    [SiH2]=[SiH2](24)
    [SiH2]=[SiH][SiH3](25)
    [SiH2]=[SiH][SiH2][SiH3](26)
Moved 1 reactions from edge to core
    H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9)
Added 0 new core reactions
Created 5 new edge reactions
    SiH3(2) + [SiH2]=[SiH2](22) <=> SiH4(1) + [SiH]=[SiH2](23)
    H(3) + [SiH2]=[SiH2](22) <=> H2(5) + [SiH]=[SiH2](23)
    [SiH2]=[SiH2](22) => H(3) + [SiH]=[SiH2](23)
    [SiH2]=[SiH2](22) => H2(5) + [SiH2]=[SiH2](24)
    H2(5) + [SiH2]=[SiH2](22) => H(3) + [SiH]=[SiH2](21)

After model enlargement:
    The model core has 13 species and 11 reactions
    The model edge has 17 species and 39 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 11 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 11 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 50 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 50 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:13
    Memory used: 150.43 MB

Conducting simulation of reaction system 1...
At time 2.3440e-04 s, PDepNetwork #19 exceeded the minimum rate for exploring
    Characteristic rate: 3.0038e-03 mol/m^3*s
    [SiH2]=[SiH2](24) rate: 3.4357e-10 mol/m^3*s (1.144e-07)
    PDepNetwork #19 leak rate: 5.0322e-09 mol/m^3*s (1.675e-06)
    SiH4(1) conversion: 0.0003497 
At time 5.3757e-04 s, PDepNetwork #19 exceeded the minimum rate for simulation interruption
    Characteristic rate: 3.0025e-03 mol/m^3*s
    [SiH2]=[SiH2](24) rate: 1.8062e-09 mol/m^3*s (6.016e-07)
    PDepNetwork #19 leak rate: 2.6444e-08 mol/m^3*s (8.807e-06)
    SiH4(1) conversion: 0.0008019 


Exploring isomer [SiH2]=[SiH][SiH3](25) in pressure-dependent network #19
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH3(2) + [SiH]=[SiH2](21) <=> [SiH2]=[SiH][SiH3](25) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH2][SiH]=[SiH2](27) <=> [SiH2]=[SiH][SiH3](25) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH]=[SiH][SiH3](28) <=> [SiH2]=[SiH][SiH3](25) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH2]=[Si][SiH3](29) <=> [SiH2]=[SiH][SiH3](25) Ea raised from -0.8 to 0 kJ/mol.
For reaction H2(5) + [SiH2]=[SiH][SiH3](31) <=> [SiH2]=[SiH][SiH3](25) Ea raised from -1.9 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2]=[SiH][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2][SiH]=[SiH2]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH]=[SiH][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2]=[Si][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2]=[SiH][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2]=[SiH][SiH3]">.
========================================================================
19 network information
----------------------
Isomers:
    [SiH2]=[SiH][SiH3](25)                                291.686 kJ/mol
Reactant channels:
    SiH4(1) + [SiH2]=[SiH2](22)                           414.283 kJ/mol
Product channels:
    SiH3(2) + [SiH]=[SiH2](21)                            565.533 kJ/mol
    H(3) + [SiH2][SiH]=[SiH2](27)                          660.03 kJ/mol
    H(3) + [SiH]=[SiH][SiH3](28)                          632.057 kJ/mol
    H(3) + [SiH2]=[Si][SiH3](29)                          632.057 kJ/mol
    H2(5) + [SiH2]=[SiH][SiH3](30)                        406.117 kJ/mol
    H2(5) + [SiH2]=[SiH][SiH3](31)                         419.49 kJ/mol
Path reactions:
    SiH4(1) + [SiH2]=[SiH2](22) <=> [SiH2]=[SiH][SiH3](25)      414.283 kJ/mol
    SiH3(2) + [SiH]=[SiH2](21) <=> [SiH2]=[SiH][SiH3](25)      565.533 kJ/mol
    H(3) + [SiH2][SiH]=[SiH2](27) <=> [SiH2]=[SiH][SiH3](25)       660.03 kJ/mol
    H(3) + [SiH]=[SiH][SiH3](28) <=> [SiH2]=[SiH][SiH3](25)      632.057 kJ/mol
    H(3) + [SiH2]=[Si][SiH3](29) <=> [SiH2]=[SiH][SiH3](25)      632.057 kJ/mol
    H2(5) + [SiH2]=[SiH][SiH3](30) <=> [SiH2]=[SiH][SiH3](25)      409.464 kJ/mol
    H2(5) + [SiH2]=[SiH][SiH3](31) <=> [SiH2]=[SiH][SiH3](25)       419.49 kJ/mol
========================================================================

Calculating densities of states for 19 network...
Using 552 grains from 291.69 to 1327.56 kJ/mol in steps of 1.88 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH2]=[SiH][SiH3](31) <=> [SiH2]=[SiH][SiH3](25)...
Using 250 grains from 291.69 to 760.63 kJ/mol in steps of 1.88 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 291.69 to 767.50 kJ/mol in steps of 1.91 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 291.69 to 783.04 kJ/mol in steps of 1.97 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 291.69 to 811.68 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 274 grains from 291.69 to 862.80 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 318 grains from 291.69 to 954.85 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 393 grains from 291.69 to 1111.75 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 479 grains from 291.69 to 1291.66 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 5 new edge species
    [SiH2][SiH]=[SiH2](27)
    [SiH]=[SiH][SiH3](28)
    [SiH2]=[Si][SiH3](29)
    [SiH2]=[SiH][SiH3](30)
    [SiH2]=[SiH][SiH3](31)
Added 0 new core reactions
Created 7 new edge reactions
    SiH4(1) + [SiH2]=[SiH2](22) => [SiH2]=[SiH][SiH3](25)
    SiH4(1) + [SiH2]=[SiH2](22) => SiH3(2) + [SiH]=[SiH2](21)
    SiH4(1) + [SiH2]=[SiH2](22) => H(3) + [SiH2][SiH]=[SiH2](27)
    SiH4(1) + [SiH2]=[SiH2](22) => H(3) + [SiH]=[SiH][SiH3](28)
    SiH4(1) + [SiH2]=[SiH2](22) => H(3) + [SiH2]=[Si][SiH3](29)
    SiH4(1) + [SiH2]=[SiH2](22) => H2(5) + [SiH2]=[SiH][SiH3](30)
    SiH4(1) + [SiH2]=[SiH2](22) => H2(5) + [SiH2]=[SiH][SiH3](31)

After model enlargement:
    The model core has 13 species and 11 reactions
    The model edge has 22 species and 46 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 11 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 11 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 57 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 57 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:15
    Memory used: 151.01 MB

Conducting simulation of reaction system 1...
At time 8.4074e-04 s, species [SiH2]=[SiH2](24) exceeded the minimum rate for moving to model core
    Characteristic rate: 3.0011e-03 mol/m^3*s
    [SiH2]=[SiH2](24) rate: 4.4160e-09 mol/m^3*s (1.471e-06)
    PDepNetwork #6 leak rate: 8.7905e-12 mol/m^3*s (2.929e-09)
    SiH4(1) conversion: 0.001254  
At time 1.7502e-03 s, species [SiH2]=[SiH2](24) exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.9970e-03 mol/m^3*s
    [SiH2]=[SiH2](24) rate: 1.9113e-08 mol/m^3*s (6.377e-06)
    PDepNetwork #6 leak rate: 8.7667e-12 mol/m^3*s (2.925e-09)
    SiH4(1) conversion: 0.002609  


Adding species [SiH2]=[SiH2](24) to model core
Exploring isomer [SiH2]=[SiH2](22) in pressure-dependent network #23
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH][SiH3](31) Ea raised from -1.9 to 0 kJ/mol.
For reaction SiH3SiH(7) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH][SiH2][SiH3](32) Ea raised from -1.9 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
========================================================================
23 network information
----------------------
Isomers:
    [SiH2]=[SiH2](22)                                     401.579 kJ/mol
Reactant channels:
    H2(5) + [SiH2]=[SiH2](24)                             529.921 kJ/mol
Product channels:
    H(3) + [SiH]=[SiH2](23)                                741.95 kJ/mol
Path reactions:
    H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22)       529.921 kJ/mol
    H(3) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22)          741.95 kJ/mol
========================================================================

Calculating densities of states for 23 network...
Using 571 grains from 401.58 to 1409.14 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22)...
Using 250 grains from 401.58 to 842.54 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 401.58 to 849.42 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 401.58 to 864.96 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 401.58 to 893.60 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 401.58 to 945.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 401.58 to 1037.55 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 401.58 to 1192.35 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 401.58 to 1374.36 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    [SiH2]=[SiH2](24)
Created 1 new edge species
    [SiH2]=[SiH][SiH2][SiH3](32)
Moved 1 reactions from edge to core
    H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22)
Added 0 new core reactions
Created 1 new edge reactions
    H2(5) + [SiH2]=[SiH2](24) => H(3) + [SiH]=[SiH2](23)

After model enlargement:
    The model core has 14 species and 12 reactions
    The model edge has 22 species and 46 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 12 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 12 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 58 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 58 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:16
    Memory used: 150.34 MB

Conducting simulation of reaction system 1...
At time 1.0000e-04 s, PDepNetwork #22 exceeded the minimum rate for exploring
    Characteristic rate: 3.0043e-03 mol/m^3*s
    SiH2Si(12) rate: 2.6632e-12 mol/m^3*s (8.865e-10)
    PDepNetwork #22 leak rate: 3.0996e-09 mol/m^3*s (1.032e-06)
    SiH4(1) conversion: 0.0001492 
At time 3.2508e-04 s, PDepNetwork #22 exceeded the minimum rate for simulation interruption
    Characteristic rate: 3.0034e-03 mol/m^3*s
    SiH2Si(12) rate: 6.5038e-12 mol/m^3*s (2.165e-09)
    PDepNetwork #22 leak rate: 1.8994e-08 mol/m^3*s (6.324e-06)
    SiH4(1) conversion: 0.000485  


Exploring isomer [SiH2]=[SiH][SiH3](31) in pressure-dependent network #22
Generating thermodynamics for new species...
Resonance isomer 1 [SiH2][SiH]=[SiH2] gives H298=603676 J/mol
Resonance isomer 2 [SiH2][SiH]=[SiH2] gives H298=604722 J/mol
Generating kinetics for new reactions...
For reaction SiH3(2) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH][SiH3](31) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH2][SiH]=[SiH2](33) <=> [SiH2]=[SiH][SiH3](31) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH2]=[Si][SiH3](34) <=> [SiH2]=[SiH][SiH3](31) Ea raised from -0.8 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2][SiH]=[SiH2]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2]=[Si][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2]=[SiH][SiH3]">.
========================================================================
22 network information
----------------------
Isomers:
    [SiH2]=[SiH][SiH3](31)                                428.094 kJ/mol
Reactant channels:
    SiH4(1) + [SiH2]=[SiH2](24)                           551.228 kJ/mol
Product channels:
    SiH3(2) + [SiH]=[SiH2](23)                            711.697 kJ/mol
    H(3) + [SiH2][SiH]=[SiH2](33)                         795.373 kJ/mol
    H(3) + [SiH2]=[Si][SiH3](34)                          768.464 kJ/mol
    H2(5) + [SiH2]=[SiH][SiH3](35)                        542.525 kJ/mol
Path reactions:
    SiH4(1) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH][SiH3](31)      551.228 kJ/mol
    SiH3(2) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH][SiH3](31)      711.697 kJ/mol
    H(3) + [SiH2][SiH]=[SiH2](33) <=> [SiH2]=[SiH][SiH3](31)      795.373 kJ/mol
    H(3) + [SiH2]=[Si][SiH3](34) <=> [SiH2]=[SiH][SiH3](31)      768.464 kJ/mol
    H2(5) + [SiH2]=[SiH][SiH3](35) <=> [SiH2]=[SiH][SiH3](31)      545.872 kJ/mol
========================================================================

Calculating densities of states for 22 network...
Using 552 grains from 428.09 to 1461.61 kJ/mol in steps of 1.88 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH2]=[SiH][SiH3](35) <=> [SiH2]=[SiH][SiH3](31)...
Using 250 grains from 428.09 to 895.97 kJ/mol in steps of 1.88 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 428.09 to 902.84 kJ/mol in steps of 1.91 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 428.09 to 918.38 kJ/mol in steps of 1.97 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 428.09 to 947.02 kJ/mol in steps of 2.08 kJ/mol to compute the k(T,P) values at 455.987 K
Using 274 grains from 428.09 to 999.21 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 318 grains from 428.09 to 1091.26 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 392 grains from 428.09 to 1246.07 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 479 grains from 428.09 to 1428.07 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 3 new edge species
    [SiH2][SiH]=[SiH2](33)
    [SiH2]=[Si][SiH3](34)
    [SiH2]=[SiH][SiH3](35)
Added 0 new core reactions
Created 5 new edge reactions
    SiH4(1) + [SiH2]=[SiH2](24) => [SiH2]=[SiH][SiH3](31)
    SiH4(1) + [SiH2]=[SiH2](24) => SiH3(2) + [SiH]=[SiH2](23)
    SiH4(1) + [SiH2]=[SiH2](24) => H(3) + [SiH2][SiH]=[SiH2](33)
    SiH4(1) + [SiH2]=[SiH2](24) => H(3) + [SiH2]=[Si][SiH3](34)
    SiH4(1) + [SiH2]=[SiH2](24) => H2(5) + [SiH2]=[SiH][SiH3](35)

After model enlargement:
    The model core has 14 species and 12 reactions
    The model edge has 25 species and 51 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 12 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 12 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 63 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 63 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:18
    Memory used: 150.61 MB

Conducting simulation of reaction system 1...
At time 1.8275e-01 s, species SiH2Si(12) exceeded the minimum rate for moving to model core
    Characteristic rate: 2.2875e-03 mol/m^3*s
    SiH2Si(12) rate: 2.4376e-09 mol/m^3*s (1.066e-06)
    PDepNetwork #15 leak rate: 2.8455e-10 mol/m^3*s (1.244e-07)
    SiH4(1) conversion: 0.2387    
At time 1.0000e+00 s, reached target termination time.
    SiH4(1) conversion: 0.7764    



Adding species SiH2Si(12) to model core
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction H(3) + [Si]=[SiH](36) <=> SiH2Si(12) Ea raised from -0.8 to 0 kJ/mol.
For reaction H2(5) + [Si]=[SiH2](37) <=> SiH2Si(12) Ea raised from -1.9 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
========================================================================
25 network information
----------------------
Isomers:
    SiH2Si(12)                                             587.79 kJ/mol
Reactant channels:
Product channels:
    H(3) + [Si]=[SiH](36)                                 928.157 kJ/mol
    H2(5) + [Si]=[SiH2](37)                               725.895 kJ/mol
Path reactions:
    H(3) + [Si]=[SiH](36) <=> SiH2Si(12)                  928.157 kJ/mol
    H2(5) + [Si]=[SiH2](37) <=> SiH2Si(12)                725.895 kJ/mol
========================================================================

Calculating densities of states for 25 network...
Using 571 grains from 587.79 to 1595.34 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [Si]=[SiH2](37) <=> SiH2Si(12)...
Using 250 grains from 587.79 to 1028.75 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 587.79 to 1035.63 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 587.79 to 1051.16 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 587.79 to 1079.81 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 587.79 to 1131.71 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 587.79 to 1223.76 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 587.79 to 1378.57 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 587.79 to 1560.57 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    SiH2Si(12)
Created 2 new edge species
    [Si]=[SiH](36)
    [Si]=[SiH2](37)
Moved 2 reactions from edge to core
    SiH3SiH(7) => H2(5) + SiH2Si(12)
    SiH3SiH(7) => H2(5) + SiH2Si(12)
Added 0 new core reactions
Created 13 new edge reactions
    SiH4(1) + SiH2Si(12) <=> SiH3(2) + [SiH]=[SiH2](21)
    SiH3(2) + SiH2Si(12) <=> SiH4(1) + [Si]=[SiH](36)
    SiH3(2) + SiH2Si(12) <=> [SiH2](14) + [SiH]=[SiH2](21)
    H(3) + SiH2Si(12) <=> H2(5) + [Si]=[SiH](36)
    SiH2(4) + SiH2Si(12) <=> SiH(11) + [SiH]=[SiH2](21)
    H(3) + [SiH]=[SiH2](21) <=> H2(5) + SiH2Si(12)
    SiH3SiH(7) + SiH2Si(12) <=> [SiH2][SiH3](16) + [SiH]=[SiH2](21)
    SiH3SiH(7) + SiH2Si(12) <=> [SiH2][SiH3](17) + [SiH]=[SiH2](21)
    SiH2SiH2(9) + SiH2Si(12) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](21)
    SiH2Si(12) + [SiH2]=[SiH2](22) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](23)
    SiH2Si(12) + SiH2Si(12) <=> [SiH]=[SiH2](21) + [Si]=[SiH](36)
    SiH2Si(12) => H(3) + [Si]=[SiH](36)
    SiH2Si(12) => H2(5) + [Si]=[SiH2](37)

After model enlargement:
    The model core has 15 species and 14 reactions
    The model edge has 26 species and 62 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 14 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 14 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 76 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 76 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:19
    Memory used: 149.19 MB

Conducting simulation of reaction system 1...
At time 3.5918e-03 s, species [Si]=[SiH2](37) exceeded the minimum rate for moving to model core
    Characteristic rate: 2.9888e-03 mol/m^3*s
    [Si]=[SiH2](37) rate: 4.0344e-09 mol/m^3*s (1.35e-06)
    PDepNetwork #6 leak rate: 8.7186e-12 mol/m^3*s (2.917e-09)
    SiH4(1) conversion: 0.005346  
At time 8.8088e-03 s, species [Si]=[SiH2](37) exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.9656e-03 mol/m^3*s
    [Si]=[SiH2](37) rate: 2.4077e-08 mol/m^3*s (8.119e-06)
    PDepNetwork #6 leak rate: 8.5839e-12 mol/m^3*s (2.894e-09)
    SiH4(1) conversion: 0.01306   


Adding species [Si]=[SiH2](37) to model core
Exploring isomer SiH2Si(12) in pressure-dependent network #27
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) + [Si]=[SiH2](37) <=> [Si]=[SiH][SiH3](38) Ea raised from -1.9 to 0 kJ/mol.
For reaction SiH3SiH(7) + [Si]=[SiH2](37) <=> [Si]=[SiH][SiH2][SiH3](39) Ea raised from -1.9 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
========================================================================
27 network information
----------------------
Isomers:
    SiH2Si(12)                                             587.79 kJ/mol
Reactant channels:
    H2(5) + [Si]=[SiH2](37)                               725.895 kJ/mol
Product channels:
    H(3) + [Si]=[SiH](36)                                 928.157 kJ/mol
Path reactions:
    H2(5) + [Si]=[SiH2](37) <=> SiH2Si(12)                725.895 kJ/mol
    H(3) + [Si]=[SiH](36) <=> SiH2Si(12)                  928.157 kJ/mol
========================================================================

Calculating densities of states for 27 network...
Using 571 grains from 587.79 to 1595.34 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + [Si]=[SiH](36) <=> SiH2Si(12)...
Using 250 grains from 587.79 to 1028.75 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 587.79 to 1035.63 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 587.79 to 1051.16 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 587.79 to 1079.81 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 587.79 to 1131.71 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 587.79 to 1223.76 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 587.79 to 1378.57 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 587.79 to 1560.57 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 1 new core species
    [Si]=[SiH2](37)
Created 2 new edge species
    [Si]=[SiH][SiH3](38)
    [Si]=[SiH][SiH2][SiH3](39)
Moved 1 reactions from edge to core
    H2(5) + [Si]=[SiH2](37) <=> SiH2Si(12)
Added 0 new core reactions
Created 10 new edge reactions
    SiH4(1) + [Si]=[SiH2](37) <=> SiH3(2) + [SiH]=[SiH2](23)
    SiH3(2) + [Si]=[SiH2](37) <=> [SiH2](14) + [SiH]=[SiH2](23)
    SiH2(4) + [Si]=[SiH2](37) <=> SiH(11) + [SiH]=[SiH2](23)
    H(3) + [SiH]=[SiH2](23) <=> H2(5) + [Si]=[SiH2](37)
    SiH3SiH(7) + [Si]=[SiH2](37) <=> [SiH2][SiH3](16) + [SiH]=[SiH2](23)
    SiH3SiH(7) + [Si]=[SiH2](37) <=> [SiH2][SiH3](17) + [SiH]=[SiH2](23)
    SiH2SiH2(9) + [Si]=[SiH2](37) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](23)
    [SiH2]=[SiH2](22) + [Si]=[SiH2](37) <=> [SiH]=[SiH2](23) + [SiH]=[SiH2](23)
    SiH2Si(12) + [Si]=[SiH2](37) <=> [SiH]=[SiH2](23) + [Si]=[SiH](36)
    H2(5) + [Si]=[SiH2](37) => H(3) + [Si]=[SiH](36)

After model enlargement:
    The model core has 16 species and 15 reactions
    The model edge has 27 species and 71 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 15 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 15 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 86 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 86 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:20
    Memory used: 149.33 MB

Conducting simulation of reaction system 1...
At time 3.6647e-04 s, PDepNetwork #26 exceeded the minimum rate for exploring
    Characteristic rate: 3.0032e-03 mol/m^3*s
    [SiH]=[SiH2](23) rate: 9.6581e-13 mol/m^3*s (3.216e-10)
    PDepNetwork #26 leak rate: 4.2254e-09 mol/m^3*s (1.407e-06)
    SiH4(1) conversion: 0.0005467 
At time 7.9941e-04 s, PDepNetwork #26 exceeded the minimum rate for simulation interruption
    Characteristic rate: 3.0013e-03 mol/m^3*s
    [SiH]=[SiH2](23) rate: 5.1254e-12 mol/m^3*s (1.708e-09)
    PDepNetwork #26 leak rate: 2.1814e-08 mol/m^3*s (7.268e-06)
    SiH4(1) conversion: 0.001192  


Exploring isomer [Si]=[SiH][SiH3](38) in pressure-dependent network #26
Generating thermodynamics for new species...
Resonance isomer 1 [Si]=[SiH][SiH2] gives H298=800165 J/mol
Resonance isomer 2 [Si][SiH]=[SiH2] gives H298=981027 J/mol
Generating kinetics for new reactions...
For reaction SiH3(2) + [Si]=[SiH](36) <=> [Si]=[SiH][SiH3](38) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [Si]=[Si][SiH3](40) <=> [Si]=[SiH][SiH3](38) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [Si]=[SiH][SiH2](41) <=> [Si]=[SiH][SiH3](38) Ea raised from -0.8 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[Si]=[SiH][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[Si]=[Si][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[Si]=[SiH][SiH2]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx2"> and all its parents have data=None
========================================================================
26 network information
----------------------
Isomers:
    [Si]=[SiH][SiH3](38)                                  624.068 kJ/mol
Reactant channels:
    SiH4(1) + [Si]=[SiH2](37)                             747.203 kJ/mol
Product channels:
    SiH3(2) + [Si]=[SiH](36)                              897.904 kJ/mol
    H(3) + [Si]=[Si][SiH3](40)                            964.439 kJ/mol
    H(3) + [Si]=[SiH][SiH2](41)                           992.412 kJ/mol
    H2(5) + [Si]=[SiH][SiH3](42)                          738.499 kJ/mol
Path reactions:
    SiH4(1) + [Si]=[SiH2](37) <=> [Si]=[SiH][SiH3](38)      747.203 kJ/mol
    SiH3(2) + [Si]=[SiH](36) <=> [Si]=[SiH][SiH3](38)      897.904 kJ/mol
    H(3) + [Si]=[Si][SiH3](40) <=> [Si]=[SiH][SiH3](38)      964.439 kJ/mol
    H(3) + [Si]=[SiH][SiH2](41) <=> [Si]=[SiH][SiH3](38)      992.412 kJ/mol
    H2(5) + [Si]=[SiH][SiH3](42) <=> [Si]=[SiH][SiH3](38)      741.846 kJ/mol
========================================================================

Calculating densities of states for 26 network...
Using 552 grains from 624.07 to 1659.94 kJ/mol in steps of 1.88 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [Si]=[SiH][SiH3](42) <=> [Si]=[SiH][SiH3](38)...
Using 250 grains from 624.07 to 1093.01 kJ/mol in steps of 1.88 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 624.07 to 1099.88 kJ/mol in steps of 1.91 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 624.07 to 1115.42 kJ/mol in steps of 1.97 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 624.07 to 1144.06 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 274 grains from 624.07 to 1195.18 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 318 grains from 624.07 to 1287.23 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 393 grains from 624.07 to 1444.13 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 479 grains from 624.07 to 1624.04 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 3 new edge species
    [Si]=[Si][SiH3](40)
    [Si]=[SiH][SiH2](41)
    [Si]=[SiH][SiH3](42)
Added 0 new core reactions
Created 5 new edge reactions
    SiH4(1) + [Si]=[SiH2](37) => [Si]=[SiH][SiH3](38)
    SiH4(1) + [Si]=[SiH2](37) => SiH3(2) + [Si]=[SiH](36)
    SiH4(1) + [Si]=[SiH2](37) => H(3) + [Si]=[Si][SiH3](40)
    SiH4(1) + [Si]=[SiH2](37) => H(3) + [Si]=[SiH][SiH2](41)
    SiH4(1) + [Si]=[SiH2](37) => H2(5) + [Si]=[SiH][SiH3](42)

After model enlargement:
    The model core has 16 species and 15 reactions
    The model edge has 30 species and 76 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 15 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 15 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 91 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 91 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:21
    Memory used: 150.95 MB

Conducting simulation of reaction system 1...
At time 1.4365e-02 s, species [SiH]=[SiH2](23) exceeded the minimum rate for moving to model core
    Characteristic rate: 2.9411e-03 mol/m^3*s
    [SiH]=[SiH2](23) rate: 3.1620e-09 mol/m^3*s (1.075e-06)
    PDepNetwork #6 leak rate: 8.4427e-12 mol/m^3*s (2.871e-09)
    SiH4(1) conversion: 0.02121   
At time 3.0528e-02 s, species [SiH]=[SiH2](23) exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.8710e-03 mol/m^3*s
    [SiH]=[SiH2](23) rate: 2.1326e-08 mol/m^3*s (7.428e-06)
    PDepNetwork #15 leak rate: 1.2429e-11 mol/m^3*s (4.329e-09)
    SiH4(1) conversion: 0.04454   


Adding species [SiH]=[SiH2](23) to model core
Exploring isomer [SiH2]=[SiH2](22) in pressure-dependent network #31
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH4(1) + [SiH]=[SiH2](23) <=> [SiH]=[SiH][SiH3](28) Ea raised from -1.9 to 0 kJ/mol.
For reaction H2(5) + [SiH]=[SiH2](23) <=> [SiH]=[SiH2](21) Ea raised from -1.9 to 0 kJ/mol.
For reaction SiH3SiH(7) + [SiH]=[SiH2](23) <=> [SiH]=[SiH][SiH2][SiH3](43) Ea raised from -1.9 to 0 kJ/mol.
For reaction [SiH]=[SiH2](21) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9) + [SiH]=[SiH2](23), Ea raised from -0.5 to 0.0 kJ/mol to match endothermicity of reaction.
For reaction [SiH]=[SiH2](23) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH][SiH]=[SiH2](44) Ea raised from -0.8 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
========================================================================
31 network information
----------------------
Isomers:
    [SiH2]=[SiH2](22)                                     401.579 kJ/mol
Reactant channels:
    H(3) + [SiH]=[SiH2](23)                                741.95 kJ/mol
    H2(5) + [SiH2]=[SiH2](24)                             529.921 kJ/mol
Product channels:
Path reactions:
    H(3) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22)          741.95 kJ/mol
    H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22)       529.921 kJ/mol
========================================================================

Calculating densities of states for 31 network...
Using 571 grains from 401.58 to 1409.14 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH2]=[SiH2](24) <=> [SiH2]=[SiH2](22)...
Using 250 grains from 401.58 to 842.54 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 401.58 to 849.42 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 401.58 to 864.96 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 401.58 to 893.60 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 401.58 to 945.50 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 401.58 to 1037.55 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 401.58 to 1192.35 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 401.58 to 1374.36 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K
Warning: Forward and reverse PDepReactions for reaction H(3) + [SiH]=[SiH2](23) => [SiH2]=[SiH2](22) generated from networks 31 and 18 do not satisfy thermodynamic consistency.
Warning: H(3) + [SiH]=[SiH2](23) => [SiH2]=[SiH2](22):
Warning: 3.51e-02 1.03e-04:
Warning: [SiH2]=[SiH2](22) => H(3) + [SiH]=[SiH2](23):
Warning: 1.11e-11 3.26e-14:


Summary of Model Enlargement
----------------------------
Added 1 new core species
    [SiH]=[SiH2](23)
Created 2 new edge species
    [SiH]=[SiH][SiH2][SiH3](43)
    [SiH2]=[SiH][SiH]=[SiH2](44)
Moved 8 reactions from edge to core
    SiH3(2) + [SiH2]=[SiH2](22) <=> SiH4(1) + [SiH]=[SiH2](23)
    H(3) + [SiH2]=[SiH2](22) <=> H2(5) + [SiH]=[SiH2](23)
    H(3) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22)
    H(3) + [SiH]=[SiH2](23) <=> H2(5) + [SiH2]=[SiH2](24)
    SiH4(1) + [SiH2]=[SiH2](24) => SiH3(2) + [SiH]=[SiH2](23)
    SiH4(1) + [Si]=[SiH2](37) <=> SiH3(2) + [SiH]=[SiH2](23)
    H(3) + [SiH]=[SiH2](23) <=> H2(5) + [Si]=[SiH2](37)
    [SiH2]=[SiH2](22) + [Si]=[SiH2](37) <=> [SiH]=[SiH2](23) + [SiH]=[SiH2](23)
Added 0 new core reactions
Created 7 new edge reactions
    [SiH2](14) + [SiH2]=[SiH2](22) <=> SiH3(2) + [SiH]=[SiH2](23)
    SiH2(4) + [SiH]=[SiH2](23) <=> SiH(11) + [SiH2]=[SiH2](22)
    [SiH2][SiH3](16) + [SiH2]=[SiH2](22) <=> SiH3SiH(7) + [SiH]=[SiH2](23)
    [SiH2][SiH3](17) + [SiH2]=[SiH2](22) <=> SiH3SiH(7) + [SiH]=[SiH2](23)
    [SiH]=[SiH2](21) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9) + [SiH]=[SiH2](23)
    [SiH]=[SiH2](21) + [Si]=[SiH2](37) <=> SiH2Si(12) + [SiH]=[SiH2](23)
    SiH2Si(12) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH2](22) + [Si]=[SiH](36)

After model enlargement:
    The model core has 17 species and 23 reactions
    The model edge has 31 species and 75 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 23 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 23 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 98 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 98 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:22
    Memory used: 150.66 MB

Conducting simulation of reaction system 1...
At time 8.0978e-04 s, PDepNetwork #29 exceeded the minimum rate for exploring
    Characteristic rate: 3.0012e-03 mol/m^3*s
    Si2H2(13) rate: 2.1086e-12 mol/m^3*s (7.026e-10)
    PDepNetwork #29 leak rate: 4.2224e-09 mol/m^3*s (1.407e-06)
    SiH4(1) conversion: 0.001208  
At time 1.3945e-03 s, PDepNetwork #29 exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.9986e-03 mol/m^3*s
    Si2H2(13) rate: 3.6265e-12 mol/m^3*s (1.209e-09)
    PDepNetwork #29 leak rate: 2.0425e-08 mol/m^3*s (6.811e-06)
    SiH4(1) conversion: 0.002079  


Exploring isomer [SiH]=[SiH][SiH3](28) in pressure-dependent network #29
Generating thermodynamics for new species...
Resonance isomer 1 [SiH]=[SiH][SiH2] gives H298=596697 J/mol
Resonance isomer 2 [SiH][SiH]=[SiH2] gives H298=643926 J/mol
Generating kinetics for new reactions...
For reaction SiH3(2) + [SiH]=[SiH](45) <=> [SiH]=[SiH][SiH3](28) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH]=[Si][SiH3](46) <=> [SiH]=[SiH][SiH3](28) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH]=[SiH][SiH2](47) <=> [SiH]=[SiH][SiH3](28) Ea raised from -0.8 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH]=[Si][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH]=[SiH][SiH2]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH]=[SiH][SiH3]">.
========================================================================
29 network information
----------------------
Isomers:
    [SiH]=[SiH][SiH3](28)                                 420.252 kJ/mol
Reactant channels:
    SiH4(1) + [SiH]=[SiH2](23)                            542.849 kJ/mol
Product channels:
    SiH3(2) + [SiH]=[SiH](45)                             694.092 kJ/mol
    H(3) + [SiH]=[Si][SiH3](46)                           760.623 kJ/mol
    H(3) + [SiH]=[SiH][SiH2](47)                          788.596 kJ/mol
    H2(5) + [SiH]=[SiH][SiH3](48)                         534.683 kJ/mol
Path reactions:
    SiH4(1) + [SiH]=[SiH2](23) <=> [SiH]=[SiH][SiH3](28)      542.849 kJ/mol
    SiH3(2) + [SiH]=[SiH](45) <=> [SiH]=[SiH][SiH3](28)      694.092 kJ/mol
    H(3) + [SiH]=[Si][SiH3](46) <=> [SiH]=[SiH][SiH3](28)      760.623 kJ/mol
    H(3) + [SiH]=[SiH][SiH2](47) <=> [SiH]=[SiH][SiH3](28)      788.596 kJ/mol
    H2(5) + [SiH]=[SiH][SiH3](48) <=> [SiH]=[SiH][SiH3](28)       538.03 kJ/mol
========================================================================

Calculating densities of states for 29 network...
Using 552 grains from 420.25 to 1456.13 kJ/mol in steps of 1.88 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH]=[SiH][SiH3](48) <=> [SiH]=[SiH][SiH3](28)...
Using 250 grains from 420.25 to 889.19 kJ/mol in steps of 1.88 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 420.25 to 896.07 kJ/mol in steps of 1.91 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 420.25 to 911.60 kJ/mol in steps of 1.97 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 420.25 to 940.25 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 274 grains from 420.25 to 991.37 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 318 grains from 420.25 to 1083.41 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 393 grains from 420.25 to 1240.32 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 479 grains from 420.25 to 1420.23 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 4 new edge species
    [SiH]=[SiH](45)
    [SiH]=[Si][SiH3](46)
    [SiH]=[SiH][SiH2](47)
    [SiH]=[SiH][SiH3](48)
Added 0 new core reactions
Created 5 new edge reactions
    SiH4(1) + [SiH]=[SiH2](23) => [SiH]=[SiH][SiH3](28)
    SiH4(1) + [SiH]=[SiH2](23) => SiH3(2) + [SiH]=[SiH](45)
    SiH4(1) + [SiH]=[SiH2](23) => H(3) + [SiH]=[Si][SiH3](46)
    SiH4(1) + [SiH]=[SiH2](23) => H(3) + [SiH]=[SiH][SiH2](47)
    SiH4(1) + [SiH]=[SiH2](23) => H2(5) + [SiH]=[SiH][SiH3](48)

After model enlargement:
    The model core has 17 species and 23 reactions
    The model edge has 35 species and 80 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 23 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 23 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 103 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 103 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:24
    Memory used: 150.46 MB

Conducting simulation of reaction system 1...
At time 5.7904e-02 s, PDepNetwork #32 exceeded the minimum rate for exploring
    Characteristic rate: 2.7561e-03 mol/m^3*s
    Si2H2(13) rate: 1.3272e-10 mol/m^3*s (4.816e-08)
    PDepNetwork #32 leak rate: 2.8027e-09 mol/m^3*s (1.017e-06)
    SiH4(1) conversion: 0.08279   
At time 1.1790e-01 s, PDepNetwork #32 exceeded the minimum rate for simulation interruption
    Characteristic rate: 2.5199e-03 mol/m^3*s
    [SiH]=[SiH2](21) rate: 3.3562e-10 mol/m^3*s (1.332e-07)
    PDepNetwork #32 leak rate: 1.3098e-08 mol/m^3*s (5.198e-06)
    SiH4(1) conversion: 0.1613    


Exploring isomer [SiH]=[SiH2](21) in pressure-dependent network #32
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction H(3) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21) Ea raised from -0.8 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
========================================================================
32 network information
----------------------
Isomers:
    [SiH]=[SiH2](21)                                      383.981 kJ/mol
Reactant channels:
    H2(5) + [SiH]=[SiH2](23)                              521.542 kJ/mol
Product channels:
    H(3) + [SiH]=[SiH](45)                                724.344 kJ/mol
Path reactions:
    H2(5) + [SiH]=[SiH2](23) <=> [SiH]=[SiH2](21)         521.542 kJ/mol
    H(3) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21)           724.344 kJ/mol
========================================================================

Calculating densities of states for 32 network...
Using 571 grains from 383.98 to 1391.53 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H(3) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21)...
Using 250 grains from 383.98 to 824.94 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 383.98 to 831.82 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 383.98 to 847.35 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 383.98 to 876.00 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 383.98 to 927.90 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 383.98 to 1019.95 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 383.98 to 1174.76 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 383.98 to 1356.76 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 0 new edge species
Added 0 new core reactions
Created 2 new edge reactions
    H2(5) + [SiH]=[SiH2](23) => [SiH]=[SiH2](21)
    H2(5) + [SiH]=[SiH2](23) => H(3) + [SiH]=[SiH](45)

After model enlargement:
    The model core has 17 species and 23 reactions
    The model edge has 35 species and 82 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 23 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 23 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 105 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 105 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:24
    Memory used: 146.78 MB

Conducting simulation of reaction system 1...
At time 4.1428e-01 s, species [SiH]=[SiH2](21) exceeded the minimum rate for moving to model core
    Characteristic rate: 1.6190e-03 mol/m^3*s
    [SiH]=[SiH2](21) rate: 1.6205e-09 mol/m^3*s (1.001e-06)
    PDepNetwork #15 leak rate: 7.5116e-10 mol/m^3*s (4.64e-07)
    SiH4(1) conversion: 0.4611    
At time 1.0000e+00 s, reached target termination time.
    SiH4(1) conversion: 0.7755    



Adding species [SiH]=[SiH2](21) to model core
Exploring isomer SiH2SiH2(9) in pressure-dependent network #37
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction [SiH2]=[SiH2](22) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](23), Ea raised from -0.5 to 0.0 kJ/mol to match endothermicity of reaction.
For reaction [SiH]=[SiH2](21) + [SiH]=[SiH2](23) <=> [SiH2]=[SiH][SiH]=[SiH2](49) Ea raised from -0.8 to 0 kJ/mol.
For reaction SiH2SiH2(9) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](21), Ea raised from -0.5 to 0.0 kJ/mol to match endothermicity of reaction.
For reaction [SiH]=[SiH2](21) + [SiH]=[SiH2](21) <=> [SiH2]=[SiH][SiH]=[SiH2](50) Ea raised from -0.8 to 0 kJ/mol.
Updating 2 modified unimolecular reaction networks...
========================================================================
35 network information
----------------------
Isomers:
    [SiH]=[SiH2](21)                                      383.981 kJ/mol
Reactant channels:
    H2(5) + [SiH]=[SiH2](23)                              521.542 kJ/mol
Product channels:
    H(3) + [SiH]=[SiH](45)                                724.344 kJ/mol
Path reactions:
    H(3) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21)           724.344 kJ/mol
    H2(5) + [SiH]=[SiH2](23) <=> [SiH]=[SiH2](21)         521.542 kJ/mol
========================================================================

Calculating densities of states for 35 network...
Using 571 grains from 383.98 to 1391.53 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH]=[SiH2](23) <=> [SiH]=[SiH2](21)...
Using 250 grains from 383.98 to 824.94 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 383.98 to 831.82 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 383.98 to 847.35 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 383.98 to 876.00 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 383.98 to 927.90 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 383.98 to 1019.95 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 383.98 to 1174.76 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 383.98 to 1356.76 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K
========================================================================
37 network information
----------------------
Isomers:
    SiH2SiH2(9)                                           255.415 kJ/mol
Reactant channels:
    H(3) + [SiH]=[SiH2](21)                               595.785 kJ/mol
    H2(5) + [SiH2]=[SiH2](22)                             392.975 kJ/mol
Product channels:
Path reactions:
    H(3) + [SiH]=[SiH2](21) <=> SiH2SiH2(9)               595.785 kJ/mol
    H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9)             392.975 kJ/mol
========================================================================

Calculating densities of states for 37 network...
Using 571 grains from 255.41 to 1262.98 kJ/mol in steps of 1.77 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for H2(5) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9)...
Using 250 grains from 255.41 to 696.38 kJ/mol in steps of 1.77 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 255.41 to 703.26 kJ/mol in steps of 1.80 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 255.41 to 718.79 kJ/mol in steps of 1.86 kJ/mol to compute the k(T,P) values at 369.86 K
Using 250 grains from 255.41 to 747.44 kJ/mol in steps of 1.98 kJ/mol to compute the k(T,P) values at 455.987 K
Using 261 grains from 255.41 to 799.33 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 305 grains from 255.41 to 891.38 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 379 grains from 255.41 to 1046.19 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 466 grains from 255.41 to 1228.19 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K
Warning: Forward and reverse PDepReactions for reaction H(3) + [SiH]=[SiH2](21) => SiH2SiH2(9) generated from networks 37 and 17 do not satisfy thermodynamic consistency.
Warning: H(3) + [SiH]=[SiH2](21) => SiH2SiH2(9):
Warning: 5.57e-02 9.90e-03:
Warning: SiH2SiH2(9) => H(3) + [SiH]=[SiH2](21):
Warning: 1.77e-11 3.15e-12:


Summary of Model Enlargement
----------------------------
Added 1 new core species
    [SiH]=[SiH2](21)
Created 2 new edge species
    [SiH2]=[SiH][SiH]=[SiH2](49)
    [SiH2]=[SiH][SiH]=[SiH2](50)
Moved 13 reactions from edge to core
    SiH3(2) + SiH2SiH2(9) <=> SiH4(1) + [SiH]=[SiH2](21)
    H(3) + SiH2SiH2(9) <=> H2(5) + [SiH]=[SiH2](21)
    H(3) + [SiH]=[SiH2](21) <=> SiH2SiH2(9)
    H(3) + [SiH]=[SiH2](21) <=> H2(5) + [SiH2]=[SiH2](22)
    SiH4(1) + [SiH2]=[SiH2](22) => SiH3(2) + [SiH]=[SiH2](21)
    SiH4(1) + SiH2Si(12) <=> SiH3(2) + [SiH]=[SiH2](21)
    H(3) + [SiH]=[SiH2](21) <=> H2(5) + SiH2Si(12)
    SiH2SiH2(9) + SiH2Si(12) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](21)
    SiH2Si(12) + [SiH2]=[SiH2](22) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](23)
    SiH2SiH2(9) + [Si]=[SiH2](37) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](23)
    [SiH]=[SiH2](21) + [SiH2]=[SiH2](22) <=> SiH2SiH2(9) + [SiH]=[SiH2](23)
    [SiH]=[SiH2](21) + [Si]=[SiH2](37) <=> SiH2Si(12) + [SiH]=[SiH2](23)
    H2(5) + [SiH]=[SiH2](23) <=> [SiH]=[SiH2](21)
Added 0 new core reactions
Created 12 new edge reactions
    SiH3(2) + [SiH]=[SiH2](21) <=> SiH4(1) + [SiH]=[SiH](45)
    SiH2SiH2(9) + [SiH2](14) <=> SiH3(2) + [SiH]=[SiH2](21)
    H(3) + [SiH]=[SiH2](21) <=> H2(5) + [SiH]=[SiH](45)
    SiH2(4) + [SiH]=[SiH2](21) <=> SiH2SiH2(9) + SiH(11)
    SiH2SiH2(9) + [SiH2][SiH3](16) <=> SiH3SiH(7) + [SiH]=[SiH2](21)
    SiH2SiH2(9) + [SiH2][SiH3](17) <=> SiH3SiH(7) + [SiH]=[SiH2](21)
    SiH2Si(12) + [SiH]=[SiH2](21) <=> [SiH]=[SiH2](21) + [SiH]=[SiH](45)
    SiH2Si(12) + [SiH]=[SiH2](21) <=> SiH2SiH2(9) + [Si]=[SiH](36)
    [SiH]=[SiH2](21) + [Si]=[SiH2](37) <=> [SiH]=[SiH2](23) + [SiH]=[SiH](45)
    [SiH2]=[SiH2](22) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](23)
    SiH2SiH2(9) + [SiH]=[SiH](45) <=> [SiH]=[SiH2](21) + [SiH]=[SiH2](21)
    [SiH]=[SiH2](21) => H(3) + [SiH]=[SiH](45)

After model enlargement:
    The model core has 18 species and 36 reactions
    The model edge has 36 species and 81 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 36 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 36 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 117 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 117 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:26
    Memory used: 151.12 MB

Conducting simulation of reaction system 1...
At time 7.6914e-01 s, PDepNetwork #15 exceeded the minimum rate for exploring
    Characteristic rate: 9.5331e-04 mol/m^3*s
    Si2H2(13) rate: 3.7850e-10 mol/m^3*s (3.97e-07)
    PDepNetwork #15 leak rate: 9.6926e-10 mol/m^3*s (1.017e-06)
    SiH4(1) conversion: 0.6827    
At time 1.0000e+00 s, reached target termination time.
    SiH4(1) conversion: 0.7812    



Exploring isomer [SiH3][SiH2][SiH3](19) in pressure-dependent network #15
Generating thermodynamics for new species...
Generating kinetics for new reactions...
For reaction SiH(11) + [SiH2][SiH3](16) <=> [SiH3][SiH2][SiH3](19) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH3][SiH][SiH3](51) <=> [SiH3][SiH2][SiH3](19) Ea raised from -0.8 to 0 kJ/mol.
For reaction H(3) + [SiH2][SiH2][SiH3](52) <=> [SiH3][SiH2][SiH3](19) Ea raised from -0.8 to 0 kJ/mol.
For reaction [SiH3][SiH2][SiH3](53) + H2(5) <=> [SiH3][SiH2][SiH3](19) Ea raised from -2.1 to 0 kJ/mol.
Updating 1 modified unimolecular reaction networks...
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH3][SiH2][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH3][SiH][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx1"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH2][SiH2][SiH3]">.
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Statmech node <Entry index=-1 label="R!Hx0"> and all its parents have data=None
Warning: Maximum number of iterations reached when fitting spectral data for <Molecule "[SiH3][SiH2][SiH3]">.
========================================================================
15 network information
----------------------
Isomers:
    [SiH3][SiH2][SiH3](19)                                574.973 kJ/mol
Reactant channels:
    SiH3SiH(7) + [SiH4](15)                               558.475 kJ/mol
Product channels:
    SiH(11) + [SiH2][SiH3](16)                            840.485 kJ/mol
    H(3) + [SiH3][SiH][SiH3](51)                          955.626 kJ/mol
    H(3) + [SiH2][SiH2][SiH3](52)                         955.626 kJ/mol
    [SiH3][SiH2][SiH3](53) + H2(5)                        800.522 kJ/mol
Path reactions:
    SiH3SiH(7) + [SiH4](15) <=> [SiH3][SiH2][SiH3](19)      574.973 kJ/mol
    SiH(11) + [SiH2][SiH3](16) <=> [SiH3][SiH2][SiH3](19)      840.485 kJ/mol
    H(3) + [SiH3][SiH][SiH3](51) <=> [SiH3][SiH2][SiH3](19)      955.626 kJ/mol
    H(3) + [SiH2][SiH2][SiH3](52) <=> [SiH3][SiH2][SiH3](19)      955.626 kJ/mol
    [SiH3][SiH2][SiH3](53) + H2(5) <=> [SiH3][SiH2][SiH3](19)      800.522 kJ/mol
========================================================================

Calculating densities of states for 15 network...
Using 534 grains from 558.48 to 1622.17 kJ/mol in steps of 2.00 kJ/mol to compute densities of states
Calculating phenomenological rate coefficients for [SiH3][SiH2][SiH3](53) + H2(5) <=> [SiH3][SiH2][SiH3](19)...
Using 250 grains from 558.48 to 1056.22 kJ/mol in steps of 2.00 kJ/mol to compute the k(T,P) values at 302.47 K
Using 250 grains from 558.48 to 1063.10 kJ/mol in steps of 2.03 kJ/mol to compute the k(T,P) values at 323.145 K
Using 250 grains from 558.48 to 1078.63 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 369.86 K
Using 264 grains from 558.48 to 1108.67 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 455.987 K
Using 288 grains from 558.48 to 1158.88 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 609.649 K
Using 332 grains from 558.48 to 1250.93 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 885.262 K
Using 407 grains from 558.48 to 1407.83 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1353.64 K
Using 493 grains from 558.48 to 1587.74 kJ/mol in steps of 2.09 kJ/mol to compute the k(T,P) values at 1896.74 K


Summary of Model Enlargement
----------------------------
Added 0 new core species
Created 3 new edge species
    [SiH3][SiH][SiH3](51)
    [SiH2][SiH2][SiH3](52)
    [SiH3][SiH2][SiH3](53)
Added 0 new core reactions
Created 5 new edge reactions
    SiH3SiH(7) + [SiH4](15) => [SiH3][SiH2][SiH3](19)
    SiH3SiH(7) + [SiH4](15) => SiH(11) + [SiH2][SiH3](16)
    SiH3SiH(7) + [SiH4](15) => H(3) + [SiH3][SiH][SiH3](51)
    SiH3SiH(7) + [SiH4](15) => H(3) + [SiH2][SiH2][SiH3](52)
    SiH3SiH(7) + [SiH4](15) => [SiH3][SiH2][SiH3](53) + H2(5)

After model enlargement:
    The model core has 18 species and 36 reactions
    The model edge has 39 species and 86 reactions


Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 36 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 36 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 122 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 122 reactions.
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:28
    Memory used: 151.49 MB

Conducting simulation of reaction system 1...
At time 1.0000e+00 s, reached target termination time.
    SiH4(1) conversion: 0.7812    

Saving current model core to HTML file...
Saving current model edge to HTML file...
Saving current model core to Chemkin file...
Chemkin file contains 36 reactions.
Saving current model to verbose Chemkin file...
Chemkin file contains 36 reactions.
Saving current model core and edge to Chemkin file...
Chemkin file contains 122 reactions.
Saving current core and edge to verbose Chemkin file...
Chemkin file contains 122 reactions.
Saving restart file...
Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:29
    Memory used: 170.02 MB

Updating RMG execution statistics...
    Execution time (DD:HH:MM:SS): 00:00:00:29
    Memory used: 170.03 MB

MODEL GENERATION COMPLETED

The final model core has 18 species and 36 reactions
The final model edge has 39 species and 86 reactions

RMG execution terminated at Wed Jan 20 15:49:12 2016