Updates and additions to Pt(111) adsorption correction tree

[kirkbadger18]

I have taken the thermodynamics data from the new and existing species in the Pt(111) thermodynamics library and updated the adsorption corrections for Pt(111). The new workflow was used as described here. To build these adsorption corrections I used the data and python scripts in the following folder:

thermo_PR_data.zip

There are 4 sources of changes to existing nodes.

1. I got rid of the nodes which were so descriptive that they could only describe one species that we already have in the thermolibrary (*CO, *N, *C, *O).
2. The higher level nodes now average over some of the nitrogen species, so they will change
3. The previous script for computing the gas phase enthalpy and constant pressure heat capacity treated the enthalpy as equal to the internal energy, and it treated the constant pressure heat capacity as equal to the constant volume heat capacity, I have changed this by adding RT and R to get to the right value.
4. The old scripts had a bug where they struggled to identify species being linear, so some linear species like HCO had their enthalpy change by RT and also due to not assigning it as linear before.

In addition to the changes to existing nodes, new nodes were added to handle new types of chemistry in the new nitrogen species. The new trees can be visualized by the following images:

[github-actions]

Regression Testing Results

WARNING:root:Initial mole fractions do not sum to one; normalizing.
⚠️ One or more regression tests failed.
Please download the failed results and run the tests locally or check the log to see why.

Detailed regression test results.

Regression test aromatics:

Reference: Execution time (DD:HH:MM:SS): 00:00:00:54
Current: Execution time (DD:HH:MM:SS): 00:00:00:53
Reference: Memory used: 810.24 MB
Current: Memory used: 815.65 MB

aromatics Passed Core Comparison ✅

Original model has 15 species.
Test model has 15 species. ✅
Original model has 11 reactions.
Test model has 11 reactions. ✅

aromatics Failed Edge Comparison ❌

Original model has 106 species.
Test model has 106 species. ✅
Original model has 358 reactions.
Test model has 358 reactions. ✅

Non-identical thermo! ❌
original: [CH]1C2=CC3C1C=CC23
tested: [CH]1C2=CC3C1C=CC23

Hf(300K)	S(300K)	Cp(300K)	Cp(400K)	Cp(500K)	Cp(600K)	Cp(800K)	Cp(1000K)	Cp(1500K)
167.21	73.60	28.78	36.79	44.00	50.25	59.65	65.52	74.04
169.15	73.17	31.27	38.45	44.76	50.28	59.14	65.47	72.92

thermo: Thermo group additivity estimation: group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)(Cds-Cds)CsH) + group(Cs-(Cds-Cds)CsHH) + group(Cds-CdsCsCs) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + polycyclic(s3_4_5_ene_3) + polycyclic(s2_4_5_diene_1_5) + polycyclic(s2_5_5_diene_1_5) - ring(Cyclobutene) - ring(Cyclopentene) - ring(Cyclopentene) + radical(cyclopentene-allyl)
thermo: Thermo group additivity estimation: group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)(Cds-Cds)CsH) + group(Cs-(Cds-Cds)CsHH) + group(Cds-CdsCsCs) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + polycyclic(s3_4_5_ene_3) + polycyclic(s2_4_5_diene_1_5) + polycyclic(s3_5_5_ene_1) - ring(Cyclobutene) - ring(Cyclopentane) - ring(Cyclopentene) + radical(cyclopentene-allyl)

Non-identical thermo! ❌
original: [CH]1C2C=CC3C(=C2)C13
tested: [CH]1C2C=CC3C(=C2)C13

Hf(300K)	S(300K)	Cp(300K)	Cp(400K)	Cp(500K)	Cp(600K)	Cp(800K)	Cp(1000K)	Cp(1500K)
125.44	71.45	27.43	34.15	40.42	46.18	56.01	63.43	71.86
144.84	79.03	29.08	35.37	40.95	45.86	53.89	59.79	67.35

thermo: Thermo group additivity estimation: group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)(Cds-Cds)CsH) + group(Cs-(Cds-Cds)(Cds-Cds)CsH) + group(Cs-CsCsHH) + group(Cds-CdsCsCs) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + Estimated bicyclic component: polycyclic(s2_3_5_ane) - ring(Cyclopropane) - ring(Cyclopentane) + ring(Cyclopentene) + ring(Cyclopropane) + polycyclic(s2_3_6_ene_1) + polycyclic(s3_5_6_diene_1_5) - ring(Cyclopropane) - ring(Cyclopentene) - ring(Cyclohexene) + radical(cyclopentene-4)
thermo: Thermo group additivity estimation: group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)(Cds-Cds)CsH) + group(Cs-(Cds-Cds)(Cds-Cds)CsH) + group(Cs-CsCsHH) + group(Cds-CdsCsCs) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + Estimated bicyclic component: polycyclic(s2_3_5_ane) - ring(Cyclopropane) - ring(Cyclopentane) + ring(Cyclopentene) + ring(Cyclopropane) + polycyclic(s2_3_6_diene_0_3) + Estimated bicyclic component: polycyclic(s3_5_6_ane) - ring(Cyclopentane) - ring(Cyclohexane) + ring(Cyclopentene) + ring(1,4-Cyclohexadiene) - ring(Cyclopropane) - ring(Cyclopentene) - ring(1,4-Cyclohexadiene) + radical(cyclopentene-4)

Non-identical thermo! ❌
original: [CH]1C2=CC3C1C3C=C2
tested: [CH]1C2=CC3C1C3C=C2

Hf(300K)	S(300K)	Cp(300K)	Cp(400K)	Cp(500K)	Cp(600K)	Cp(800K)	Cp(1000K)	Cp(1500K)
100.48	61.70	25.50	33.41	40.70	47.02	56.22	61.78	71.32
98.15	66.21	25.82	33.30	40.19	46.24	55.47	61.34	70.49

thermo: Thermo group additivity estimation: group(Cs-CsCsCsH) + group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)CsHH) + group(Cds- Cds(Cds-Cds)Cs) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + group(Cds-Cds(Cds-Cds)H) + polycyclic(s2_3_5_ene_1) + polycyclic(s2_3_6_ene_1) + Estimated bicyclic component: polycyclic(s3_5_6_ane) - ring(Cyclopentane) - ring(Cyclohexane) + ring(Cyclopentene) + ring(Cyclohexene) - ring(Cyclopropane) - ring(Cyclopentene) - ring(Cyclohexene) + radical(cyclopentene-allyl)
thermo: Thermo group additivity estimation: group(Cs-CsCsCsH) + group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)CsCsH) + group(Cs-(Cds-Cds)CsHH) + group(Cds- Cds(Cds-Cds)Cs) + group(Cds-CdsCsH) + group(Cds-CdsCsH) + group(Cds-Cds(Cds-Cds)H) + polycyclic(s2_3_5_ene_1) + polycyclic(s2_3_6_diene_1_3) + Estimated bicyclic component: polycyclic(s3_5_6_ane) - ring(Cyclopentane) - ring(Cyclohexane) + ring(Cyclopentene) + ring(1,3-Cyclohexadiene) - ring(Cyclopropane) - ring(Cyclopentene) - ring(1,3-Cyclohexadiene) + radical(cyclopentene-allyl)

Non-identical kinetics! ❌
original:
rxn: [CH]1C2=CC=CC1C=C2(48) <=> [CH]1C2=CC3C1C=CC23(62) origin: Intra_R_Add_Endocyclic
tested:
rxn: [CH]1C2=CC=CC1C=C2(48) <=> [CH]1C2=CC3C1C=CC23(62) origin: Intra_R_Add_Endocyclic

k(1bar)	300K	400K	500K	600K	800K	1000K	1500K	2000K
k(T):	-46.27	-30.58	-21.19	-14.94	-7.15	-2.49	3.67	6.72
k(T):	-47.51	-31.51	-21.94	-15.56	-7.62	-2.87	3.42	6.54

kinetics: Arrhenius(A=(1.08454e+19,'s^-1'), n=-0.859, Ea=(86.724,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone1_2R!H-inRing_1R!H-inRing in family Intra_R_Add_Endocyclic.""")
kinetics: Arrhenius(A=(1.08454e+19,'s^-1'), n=-0.859, Ea=(88.43,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone1_2R!H-inRing_1R!H-inRing in family Intra_R_Add_Endocyclic.""")
Identical kinetics comments:
kinetics: Estimated from node Backbone1_2R!H-inRing_1R!H-inRing in family Intra_R_Add_Endocyclic.

Non-identical kinetics! ❌
original:
rxn: [CH]1C2=CC=CC1C=C2(48) <=> [CH]1C2C=CC3C(=C2)C13(63) origin: Intra_R_Add_Endocyclic
tested:
rxn: [CH]1C2=CC=CC1C=C2(48) <=> [CH]1C2C=CC3C(=C2)C13(63) origin: Intra_R_Add_Endocyclic

k(1bar)	300K	400K	500K	600K	800K	1000K	1500K	2000K
k(T):	-27.05	-17.33	-11.49	-7.60	-2.72	0.21	4.13	6.10
k(T):	-37.76	-25.37	-17.92	-12.96	-6.74	-3.01	1.98	4.49

kinetics: Arrhenius(A=(1.12e+11,'s^-1'), n=0.26, Ea=(53.177,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone3_Sp-4R!H=1R!H_Sp-3R!H-2R!H_Sp-2R!H-1R!H_Ext-2R!H-R in family Intra_R_Add_Endocyclic.""")
kinetics: Arrhenius(A=(1.12e+11,'s^-1'), n=0.26, Ea=(67.891,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone3_Sp-4R!H=1R!H_Sp-3R!H-2R!H_Sp-2R!H-1R!H_Ext-2R!H-R in family Intra_R_Add_Endocyclic.""")
Identical kinetics comments:
kinetics: Estimated from node Backbone3_Sp-4R!H=1R!H_Sp-3R!H-2R!H_Sp-2R!H-1R!H_Ext-2R!H-R in family Intra_R_Add_Endocyclic.

Non-identical kinetics! ❌
original:
rxn: [CH]1C2=CC=CC1C=C2(48) <=> [CH]1C2=CC3C1C3C=C2(67) origin: Intra_R_Add_Endocyclic
tested:
rxn: [CH]1C2=CC=CC1C=C2(48) <=> [CH]1C2=CC3C1C3C=C2(67) origin: Intra_R_Add_Endocyclic

k(1bar)	300K	400K	500K	600K	800K	1000K	1500K	2000K
k(T):	-15.17	-8.42	-4.36	-1.66	1.73	3.77	6.50	7.88
k(T):	-14.18	-7.68	-3.77	-1.16	2.10	4.07	6.70	8.03

kinetics: Arrhenius(A=(1.12e+11,'s^-1'), n=0.26, Ea=(36.869,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone3_Sp-4R!H=1R!H_Sp-3R!H-2R!H_Sp-2R!H-1R!H_Ext-2R!H-R in family Intra_R_Add_Endocyclic.""")
kinetics: Arrhenius(A=(1.12e+11,'s^-1'), n=0.26, Ea=(35.513,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone3_Sp-4R!H=1R!H_Sp-3R!H-2R!H_Sp-2R!H-1R!H_Ext-2R!H-R in family Intra_R_Add_Endocyclic.""")
Identical kinetics comments:
kinetics: Estimated from node Backbone3_Sp-4R!H=1R!H_Sp-3R!H-2R!H_Sp-2R!H-1R!H_Ext-2R!H-R in family Intra_R_Add_Endocyclic.

Non-identical kinetics! ❌
original:
rxn: C1=CC2C=C[C]1C=C2(49) <=> [CH]1C2C=CC3=CC2C13(80) origin: Intra_R_Add_Endocyclic
tested:
rxn: C1=CC2C=C[C]1C=C2(49) <=> [CH]1C2C=CC3=CC2C13(80) origin: Intra_R_Add_Endocyclic

k(1bar)	300K	400K	500K	600K	800K	1000K	1500K	2000K
k(T):	-59.93	-40.64	-29.08	-21.38	-11.79	-6.05	1.56	5.34
k(T):	-56.49	-38.05	-27.01	-19.66	-10.50	-5.02	2.25	5.85

kinetics: Arrhenius(A=(6.50724e+19,'s^-1'), n=-0.859, Ea=(106.547,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone1_2R!H-inRing_1R!H-inRing in family Intra_R_Add_Endocyclic. Multiplied by reaction path degeneracy 6.0""")
kinetics: Arrhenius(A=(6.50724e+19,'s^-1'), n=-0.859, Ea=(101.822,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone1_2R!H-inRing_1R!H-inRing in family Intra_R_Add_Endocyclic. Multiplied by reaction path degeneracy 6.0""")
Identical kinetics comments:
kinetics: Estimated from node Backbone1_2R!H-inRing_1R!H-inRing in family Intra_R_Add_Endocyclic.
Multiplied by reaction path degeneracy 6.0

Non-identical kinetics! ❌
original:
rxn: C1=CC2C=C[C]1C=C2(49) <=> [CH]1C2=CC3C1C3C=C2(67) origin: Intra_R_Add_Endocyclic
tested:
rxn: C1=CC2C=C[C]1C=C2(49) <=> [CH]1C2=CC3C1C3C=C2(67) origin: Intra_R_Add_Endocyclic

k(1bar)	300K	400K	500K	600K	800K	1000K	1500K	2000K
k(T):	-8.89	-3.16	0.28	2.58	5.46	7.19	9.52	10.69
k(T):	-8.00	-2.50	0.81	3.02	5.79	7.46	9.70	10.83

kinetics: Arrhenius(A=(1.49409e+13,'s^-1'), n=0.283, Ea=(31.249,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone2_Sp-3R!H=1R!H_N-4R!H->S_2R!H-inRing_5R!H-inRing_Ext-5R!H-R_Ext-6R!H-R_Ext-7R!H-R_1R!H-inRing in family Intra_R_Add_Endocyclic. Multiplied by reaction path degeneracy 3.0""")
kinetics: Arrhenius(A=(1.49409e+13,'s^-1'), n=0.283, Ea=(30.033,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Backbone2_Sp-3R!H=1R!H_N-4R!H->S_2R!H-inRing_5R!H-inRing_Ext-5R!H-R_Ext-6R!H-R_Ext-7R!H-R_1R!H-inRing in family Intra_R_Add_Endocyclic. Multiplied by reaction path degeneracy 3.0""")
Identical kinetics comments:
kinetics: Estimated from node Backbone2_Sp-3R!H=1R!H_N-4R!H->S_2R!H-inRing_5R!H-inRing_Ext-5R!H-R_Ext-6R!H-R_Ext-7R!H-R_1R!H-inRing in family Intra_R_Add_Endocyclic.
Multiplied by reaction path degeneracy 3.0

Details

Observables Test Case: Aromatics Comparison

✅ All Observables varied by less than 0.500 on average between old model and new model in all conditions!

aromatics Passed Observable Testing ✅

Regression test liquid_oxidation:

Reference: Execution time (DD:HH:MM:SS): 00:00:01:59
Current: Execution time (DD:HH:MM:SS): 00:00:01:53
Reference: Memory used: 892.54 MB
Current: Memory used: 897.42 MB

liquid_oxidation Passed Core Comparison ✅

Original model has 37 species.
Test model has 37 species. ✅
Original model has 239 reactions.
Test model has 239 reactions. ✅

liquid_oxidation Failed Edge Comparison ❌

Original model has 214 species.
Test model has 214 species. ✅
Original model has 1588 reactions.
Test model has 1591 reactions. ❌
The original model has 2 reactions that the tested model does not have. ❌
rxn: CC(C[CH]COO)OO(118) <=> CC(CC[CH]OO)OO(133) origin: intra_H_migration
rxn: CC(C[CH]COO)OO(118) <=> C[C](CCCOO)OO(132) origin: intra_H_migration
The tested model has 5 reactions that the original model does not have. ❌
rxn: CC(C[CH]COO)OO(115) <=> [OH](22) + CC(CCC=O)OO(116) origin: intra_H_migration
rxn: CC(C[CH]COO)OO(115) <=> [OH](22) + CC(=O)CCCOO(112) origin: intra_H_migration
rxn: CC(CC(C)OO)O[O](90) + CC(CCCOO)O[O](108) <=> oxygen(1) + CC([O])CC(C)OO(110) + CC([O])CCCOO(122) origin: Peroxyl_Disproportionation
rxn: CC(CC(C)OO)O[O](90) + CC(CCCOO)O[O](108) <=> oxygen(1) + CC(=O)CC(C)OO(95) + CC(O)CCCOO(152) origin: Peroxyl_Termination
rxn: CC(CC(C)OO)O[O](90) + CC(CCCOO)O[O](108) <=> oxygen(1) + CC(=O)CCCOO(112) + CC(O)CC(C)OO(143) origin: Peroxyl_Termination

Non-identical kinetics! ❌
original:
rxn: CCC(CC)O[O](37) + CCCCCO[O](35) <=> oxygen(1) + CCC([O])CC(67) + CCCCC[O](69) origin: Peroxyl_Disproportionation
tested:
rxn: CCC(CC)O[O](35) + CCCCCO[O](36) <=> oxygen(1) + CCC([O])CC(69) + CCCCC[O](67) origin: Peroxyl_Disproportionation

k(1bar)	300K	400K	500K	600K	800K	1000K	1500K	2000K
k(T):	3.54	4.28	4.73	5.02	5.39	5.62	5.91	6.06
k(T):	7.83	7.49	7.23	7.02	6.68	6.42	5.95	5.61

kinetics: Arrhenius(A=(3.2e+12,'cm^3/(mol*s)'), n=0, Ea=(4.064,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Root_Ext-5R-R_7R!H->C_N-7C-inRing_Ext-5R-R in family Peroxyl_Disproportionation.""")
kinetics: Arrhenius(A=(3.18266e+20,'cm^3/(mol*s)'), n=-2.694, Ea=(0,'kcal/mol'), T0=(1,'K'), comment="""Estimated from node Root_Ext-5R-R_7R!H->C_N-7C-inRing in family Peroxyl_Disproportionation.""")
kinetics: Estimated from node Root_Ext-5R-R_7R!H->C_N-7C-inRing_Ext-5R-R in family Peroxyl_Disproportionation.
kinetics: Estimated from node Root_Ext-5R-R_7R!H->C_N-7C-inRing in family Peroxyl_Disproportionation.

Details

Observables Test Case: liquid_oxidation Comparison

✅ All Observables varied by less than 0.100 on average between old model and new model in all conditions!

liquid_oxidation Passed Observable Testing ✅

Regression test nitrogen:

Reference: Execution time (DD:HH:MM:SS): 00:00:01:03
Current: Execution time (DD:HH:MM:SS): 00:00:01:01
Reference: Memory used: 896.08 MB
Current: Memory used: 899.65 MB

nitrogen Failed Core Comparison ❌

Original model has 41 species.
Test model has 41 species. ✅
Original model has 360 reactions.
Test model has 359 reactions. ❌
The original model has 1 reactions that the tested model does not have. ❌
rxn: HNO(48) + HCO(13) <=> NO(38) + CH2O(18) origin: H_Abstraction

nitrogen Failed Edge Comparison ❌

Original model has 133 species.
Test model has 133 species. ✅
Original model has 983 reactions.
Test model has 981 reactions. ❌
The original model has 2 reactions that the tested model does not have. ❌
rxn: HNO(48) + HCO(13) <=> NO(38) + CH2O(18) origin: H_Abstraction
rxn: HON(T)(83) + HCO(13) <=> NO(38) + CH2O(18) origin: Disproportionation

Details

Observables Test Case: NC Comparison

✅ All Observables varied by less than 0.200 on average between old model and new model in all conditions!

nitrogen Passed Observable Testing ✅

Regression test oxidation:

Reference: Execution time (DD:HH:MM:SS): 00:00:01:45
Current: Execution time (DD:HH:MM:SS): 00:00:01:41
Reference: Memory used: 772.96 MB
Current: Memory used: 784.69 MB

oxidation Passed Core Comparison ✅

Original model has 59 species.
Test model has 59 species. ✅
Original model has 694 reactions.
Test model has 694 reactions. ✅

oxidation Passed Edge Comparison ✅

Original model has 230 species.
Test model has 230 species. ✅
Original model has 1526 reactions.
Test model has 1526 reactions. ✅

Details

Observables Test Case: Oxidation Comparison

✅ All Observables varied by less than 0.500 on average between old model and new model in all conditions!

oxidation Passed Observable Testing ✅

Regression test sulfur:

Reference: Execution time (DD:HH:MM:SS): 00:00:00:40
Current: Execution time (DD:HH:MM:SS): 00:00:00:40
Reference: Memory used: 892.20 MB
Current: Memory used: 903.89 MB

sulfur Passed Core Comparison ✅

Original model has 27 species.
Test model has 27 species. ✅
Original model has 74 reactions.
Test model has 74 reactions. ✅

sulfur Failed Edge Comparison ❌

Original model has 89 species.
Test model has 89 species. ✅
Original model has 227 reactions.
Test model has 227 reactions. ✅
The original model has 1 reactions that the tested model does not have. ❌
rxn: O(4) + SO2(15) (+N2) <=> SO3(16) (+N2) origin: primarySulfurLibrary
The tested model has 1 reactions that the original model does not have. ❌
rxn: O(4) + SO2(15) (+N2) <=> SO3(16) (+N2) origin: primarySulfurLibrary

Details

Observables Test Case: SO2 Comparison

The following observables did not match:

❌ Observable species O=S=O varied by more than 0.100 on average between old model SO2(15) and new model SO2(15) in condition 1.

⚠️ The following reaction conditions had some discrepancies:
Condition 1:
Reactor Type: IdealGasReactor
Reaction Time: 0.01 s
T0: 900 K
P0: 30 bar
Initial Mole Fractions: {'S': 0.000756, '[O][O]': 0.00129, 'N#N': 0.997954}

sulfur Failed Observable Testing ❌

Regression test superminimal:

Reference: Execution time (DD:HH:MM:SS): 00:00:00:25
Current: Execution time (DD:HH:MM:SS): 00:00:00:23
Reference: Memory used: 949.07 MB
Current: Memory used: 947.31 MB

superminimal Passed Core Comparison ✅

Original model has 13 species.
Test model has 13 species. ✅
Original model has 21 reactions.
Test model has 21 reactions. ✅

superminimal Passed Edge Comparison ✅

Original model has 18 species.
Test model has 18 species. ✅
Original model has 28 reactions.
Test model has 28 reactions. ✅

Regression test RMS_constantVIdealGasReactor_superminimal:

Reference: Execution time (DD:HH:MM:SS): 00:00:02:18
Current: Execution time (DD:HH:MM:SS): 00:00:02:57
Reference: Memory used: 2337.26 MB
Current: Memory used: 2459.58 MB

RMS_constantVIdealGasReactor_superminimal Passed Core Comparison ✅

Original model has 13 species.
Test model has 13 species. ✅
Original model has 19 reactions.
Test model has 19 reactions. ✅

RMS_constantVIdealGasReactor_superminimal Passed Edge Comparison ✅

Original model has 13 species.
Test model has 13 species. ✅
Original model has 19 reactions.
Test model has 19 reactions. ✅

Details

Observables Test Case: RMS_constantVIdealGasReactor_superminimal Comparison

✅ All Observables varied by less than 0.100 on average between old model and new model in all conditions!

RMS_constantVIdealGasReactor_superminimal Passed Observable Testing ✅

Regression test RMS_CSTR_liquid_oxidation:

Reference: Execution time (DD:HH:MM:SS): 00:00:30:23
Current: Execution time (DD:HH:MM:SS): 00:00:15:01
Reference: Memory used: 2633.13 MB
Current: Memory used: 2677.03 MB

RMS_CSTR_liquid_oxidation Failed Core Comparison ❌

Original model has 35 species.
Test model has 35 species. ✅
Original model has 181 reactions.
Test model has 147 reactions. ❌
The original model has 3 species that the tested model does not have. ❌
spc: CH3
spc: CCCC(C)O(47)
spc: CCCC=O(88)
The tested model has 3 species that the original model does not have. ❌
spc: CC[CH]CCOO(64)
spc: [CH2]CCCCOO(66)
spc: CC1CC(C)O1(87)
The original model has 49 reactions that the tested model does not have. ❌
rxn: oxygen(1) + O(42) <=> [OH](24) + [O]O(13) origin: H_Abstraction
rxn: [OH](24) + OO(23) <=> [O]O(13) + O(42) origin: H_Abstraction
rxn: [OH](24) + [CH2]CCCC(12) <=> O(42) + C=CCCC(17) origin: Disproportionation
rxn: [OH](24) + C[CH]CCC(11) <=> O(42) + C=CCCC(17) origin: Disproportionation
rxn: [CH3](10) + CCCC=O(88) <=> CCCC(C)[O](44) origin: R_Addition_MultipleBond
rxn: CCCC(C)[O](44) + pentane(2) <=> CC[CH]CC(7) + CCCC(C)O(47) origin: H_Abstraction
rxn: CCCC(C)[O](44) + pentane(2) <=> C[CH]CCC(11) + CCCC(C)O(47) origin: H_Abstraction
rxn: CCCC(C)[O](44) + pentane(2) <=> [CH2]CCCC(12) + CCCC(C)O(47) origin: H_Abstraction
rxn: [O]O(13) + CCCC(C)[O](44) <=> oxygen(1) + CCCC(C)O(47) origin: H_Abstraction
rxn: C[CH]CCC(11) + CCCC(C)[O](44) <=> C=CCCC(17) + CCCC(C)O(47) origin: Disproportionation
rxn: CCCC(C)[O](44) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCC(C)O(47) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCC(C)[O](44) <=> C=CCCC(17) + CCCC(C)O(47) origin: Disproportionation
rxn: CCCC(C)[O](44) + CCCC(C)OO(26) <=> CCCC(C)O[O](21) + CCCC(C)O(47) origin: H_Abstraction
rxn: CCCC(C)[O](44) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCC(C)O(47) origin: H_Abstraction
rxn: O(42) + C=CCCC(17) <=> CCCC(C)O(47) origin: 1,3_Insertion_ROR
rxn: [OH](24) + CCCC(C)O(47) <=> O(42) + CCCC(C)[O](44) origin: H_Abstraction
rxn: CCCC(C)[O](44) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCC(C)O(47) origin: H_Abstraction
rxn: [O]O(13) + CCCC(C)O(47) <=> OO(23) + CCCC(C)[O](44) origin: H_Abstraction
rxn: C[CH]CCC(11) + CCC(CC)O[O](22) <=> CC=CCC(16) + CCC(CC)OO(27) origin: Disproportionation
rxn: C[CH]CCC(11) + CCCC(C)O[O](21) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: C[CH]CCC(11) + [CH2]CCCC(12) <=> CC=CCC(16) + pentane(2) origin: Disproportionation
rxn: C[CH]CCC(11) + CCCCCO[O](61) <=> CC=CCC(16) + CCCCCOO(78) origin: Disproportionation
rxn: C[CH]CCC(11) + CCCC(C)[O](44) <=> CC=CCC(16) + CCCC(C)O(47) origin: Disproportionation
rxn: C[CH]CCC(11) + C[CH]CC(C)OO(37) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: CC[CH]CC(7) + CCC(CC)O[O](22) <=> CC=CCC(16) + CCC(CC)OO(27) origin: Disproportionation
rxn: CC[CH]CC(7) + CCCC(C)O[O](21) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: CC[CH]CC(7) + [CH2]CCCC(12) <=> CC=CCC(16) + pentane(2) origin: Disproportionation
rxn: CC[CH]CC(7) + CCCCCO[O](61) <=> CC=CCC(16) + CCCCCOO(78) origin: Disproportionation
rxn: CC[CH]CC(7) + CCCC(C)[O](44) <=> CC=CCC(16) + CCCC(C)O(47) origin: Disproportionation
rxn: CC[CH]CC(7) + C[CH]CC(C)OO(37) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: C[CH]CCC(11) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + pentane(2) origin: Disproportionation
rxn: CC[CH]CC(7) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + pentane(2) origin: Disproportionation
rxn: CCC(CC)O[O](22) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCC(CC)OO(27) origin: Disproportionation
rxn: CCCC(C)O[O](21) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCCC(C)OO(26) origin: Disproportionation
rxn: CCCCCO[O](61) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCCCCOO(78) origin: Disproportionation
rxn: CCCC(C)[O](44) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCCC(C)O(47) origin: Disproportionation
rxn: CCCC(C)[O](44) + CCC(CC)OO(27) <=> [CH2]CC(CC)OO(32) + CCCC(C)O(47) origin: H_Abstraction
rxn: [CH2]CC(CC)OO(32) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCC(CC)OO(27) origin: H_Abstraction
rxn: [O]O(13) + CCCCCO[O](61) <=> oxygen(1) + [OH](24) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: CCCC(C)O[O](21) + CCCCCO[O](61) <=> oxygen(1) + CCCC(C)[O](44) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: CCCCCO[O](61) + CCCCCO[O](61) <=> oxygen(1) + CCCCC[O](79) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: C[CH]CCCOO(75) + pentane(2) <=> C[CH]CCC(11) + CCCCCOO(78) origin: H_Abstraction
rxn: CC[CH]CC(7) + CCCCCOO(78) <=> C[CH]CCCOO(75) + pentane(2) origin: H_Abstraction
rxn: C[CH]CCCOO(75) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCCCOO(78) <=> C[CH]CCCOO(75) + pentane(2) origin: H_Abstraction
rxn: C[CH]CCCOO(75) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC(C)[O](44) + CCCCCOO(78) <=> C[CH]CCCOO(75) + CCCC(C)O(47) origin: H_Abstraction
rxn: C[CH]CCCOO(75) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC(CC)O[O](22) + CCCCCO[O](61) <=> oxygen(1) + CCC([O])CC(41) + CCCCC[O](79) origin: Peroxyl_Disproportionation
The tested model has 15 reactions that the original model does not have. ❌
rxn: CCCCCO[O](61) <=> [CH2]CCCCOO(66) origin: intra_H_migration
rxn: [O]O(13) + [CH2]CCCCOO(66) <=> oxygen(1) + CCCCCOO(78) origin: H_Abstraction
rxn: OO(23) + [CH2]CCCCOO(66) <=> [O]O(13) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCCOO(66) + CCCC(C)OO(24) <=> CCCC(C)O[O](20) + CCCCCOO(78) origin: H_Abstraction
rxn: [OH](26) + CCCCCOO(78) <=> O(42) + [CH2]CCCCOO(66) origin: H_Abstraction
rxn: [CH2]CCCC(12) + [CH2]CCCCOO(66) <=> C=CCCC(17) + CCCCCOO(78) origin: Disproportionation
rxn: C[CH]CCC(11) + [CH2]CCCCOO(66) <=> C=CCCC(17) + CCCCCOO(78) origin: Disproportionation
rxn: C[CH]CC(C)OO(34) <=> [OH](26) + CC1CC(C)O1(87) origin: Cyclic_Ether_Formation
rxn: CC[CH]CCOO(64) <=> CCCCCO[O](61) origin: intra_H_migration
rxn: [O]O(13) + CC[CH]CCOO(64) <=> oxygen(1) + CCCCCOO(78) origin: H_Abstraction
rxn: OO(23) + CC[CH]CCOO(64) <=> [O]O(13) + CCCCCOO(78) origin: H_Abstraction
rxn: CC[CH]CCOO(64) + CCCC(C)OO(24) <=> CCCC(C)O[O](20) + CCCCCOO(78) origin: H_Abstraction
rxn: [OH](26) + CCCCCOO(78) <=> O(42) + CC[CH]CCOO(64) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CC[CH]CCOO(64) <=> C=CCCC(17) + CCCCCOO(78) origin: Disproportionation
rxn: C[CH]CCC(11) + CC[CH]CCOO(64) <=> C=CCCC(17) + CCCCCOO(78) origin: Disproportionation

RMS_CSTR_liquid_oxidation Failed Edge Comparison ❌

Original model has 107 species.
Test model has 99 species. ❌
Original model has 545 reactions.
Test model has 384 reactions. ❌
The original model has 8 species that the tested model does not have. ❌
spc: CCCCCOOOO(101)
spc: CCCC(C)OOO(102)
spc: CCCCCO(103)
spc: CCC[CH]CO(104)
spc: CCCCCOOO
spc: OOO(106)
spc: CCC(CC)OOO(107)
spc: CCCCCOOO(108)
The original model has 161 reactions that the tested model does not have. ❌
rxn: oxygen(1) + O(42) <=> [OH](24) + [O]O(13) origin: H_Abstraction
rxn: [OH](24) + OO(23) <=> [O]O(13) + O(42) origin: H_Abstraction
rxn: [OH](24) + [CH2]CCCC(12) <=> O(42) + C=CCCC(17) origin: Disproportionation
rxn: [OH](24) + C[CH]CCC(11) <=> O(42) + C=CCCC(17) origin: Disproportionation
rxn: [O]O(13) + CCCC(C)[O](44) <=> oxygen(1) + CCCC(C)O(47) origin: H_Abstraction
rxn: C[CH]CCC(11) + CCCC(C)[O](44) <=> C=CCCC(17) + CCCC(C)O(47) origin: Disproportionation
rxn: [CH2]CCCC(12) + CCCC(C)[O](44) <=> C=CCCC(17) + CCCC(C)O(47) origin: Disproportionation
rxn: O(42) + C=CCCC(17) <=> CCCC(C)O(47) origin: 1,3_Insertion_ROR
rxn: [OH](24) + CCCC(C)O(47) <=> O(42) + CCCC(C)[O](44) origin: H_Abstraction
rxn: [O]O(13) + CCCC(C)O(47) <=> OO(23) + CCCC(C)[O](44) origin: H_Abstraction
rxn: C[CH]CCC(11) + CCC(CC)O[O](22) <=> CC=CCC(16) + CCC(CC)OO(27) origin: Disproportionation
rxn: C[CH]CCC(11) + CCCC(C)O[O](21) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: C[CH]CCC(11) + [CH2]CCCC(12) <=> CC=CCC(16) + pentane(2) origin: Disproportionation
rxn: C[CH]CCC(11) + CCCCCO[O](61) <=> CC=CCC(16) + CCCCCOO(78) origin: Disproportionation
rxn: C[CH]CCC(11) + CCCC(C)[O](44) <=> CC=CCC(16) + CCCC(C)O(47) origin: Disproportionation
rxn: C[CH]CCC(11) + C[CH]CC(C)OO(37) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: CC[CH]CC(7) + CCC(CC)O[O](22) <=> CC=CCC(16) + CCC(CC)OO(27) origin: Disproportionation
rxn: CC[CH]CC(7) + CCCC(C)O[O](21) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: CC[CH]CC(7) + [CH2]CCCC(12) <=> CC=CCC(16) + pentane(2) origin: Disproportionation
rxn: CC[CH]CC(7) + CCCCCO[O](61) <=> CC=CCC(16) + CCCCCOO(78) origin: Disproportionation
rxn: CC[CH]CC(7) + CCCC(C)[O](44) <=> CC=CCC(16) + CCCC(C)O(47) origin: Disproportionation
rxn: CC[CH]CC(7) + C[CH]CC(C)OO(37) <=> CC=CCC(16) + CCCC(C)OO(26) origin: Disproportionation
rxn: C[CH]CCC(11) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + pentane(2) origin: Disproportionation
rxn: CC[CH]CC(7) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + pentane(2) origin: Disproportionation
rxn: CCC(CC)O[O](22) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCC(CC)OO(27) origin: Disproportionation
rxn: CCCC(C)O[O](21) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCCC(C)OO(26) origin: Disproportionation
rxn: CCCCCO[O](61) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCCCCOO(78) origin: Disproportionation
rxn: CCCC(C)[O](44) + C[CH]CC(C)OO(37) <=> CC=CC(C)OO(97) + CCCC(C)O(47) origin: Disproportionation
rxn: [CH2]CC(CC)OO(32) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCC(CC)OO(27) origin: H_Abstraction
rxn: [O]O(13) + CCCCCO[O](61) <=> oxygen(1) + [OH](24) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: CCCC(C)O[O](21) + CCCCCO[O](61) <=> oxygen(1) + CCCC(C)[O](44) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: CCCCCO[O](61) + CCCCCO[O](61) <=> oxygen(1) + CCCCC[O](79) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: C[CH]CCCOO(75) + pentane(2) <=> C[CH]CCC(11) + CCCCCOO(78) origin: H_Abstraction
rxn: CC[CH]CC(7) + CCCCCOO(78) <=> C[CH]CCCOO(75) + pentane(2) origin: H_Abstraction
rxn: C[CH]CCCOO(75) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCCCOO(78) <=> C[CH]CCCOO(75) + pentane(2) origin: H_Abstraction
rxn: C[CH]CCCOO(75) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCCCOO(78) origin: H_Abstraction
rxn: C[CH]CCCOO(75) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC(CC)O[O](22) + CCCCCO[O](61) <=> oxygen(1) + CCC([O])CC(41) + CCCCC[O](79) origin: Peroxyl_Disproportionation
rxn: [H](8) + [OH](24) <=> O(42) origin: R_Recombination
rxn: [O]O(13) + CCCCCO[O](61) <=> oxygen(1) + O(42) + CCCCC=O(72) origin: Peroxyl_Termination
rxn: [O]O(13) + CCCCCO[O](61) <=> CCCCCOOOO(101) origin: R_Recombination
rxn: [O]O(13) + CCCC(C)[O](44) <=> OO(23) + CCCC(C)=O(34) origin: Disproportionation
rxn: [O]O(13) + CCCC(C)[O](44) <=> CCCC(C)OOO(102) origin: R_Recombination
rxn: C=CC[CH]C(64) + pentane(2) <=> C=CCCC(17) + C[CH]CCC(11) origin: H_Abstraction
rxn: C=CCCC(17) + C[CH]CCC(11) <=> [CH2]C=CCC(66) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + pentane(2) <=> C=CCCC(17) + C[CH]CCC(11) origin: H_Abstraction
rxn: C=[C]CCC(68) + pentane(2) <=> C=CCCC(17) + C[CH]CCC(11) origin: H_Abstraction
rxn: [CH]=CCCC(69) + pentane(2) <=> C=CCCC(17) + C[CH]CCC(11) origin: H_Abstraction
rxn: CC[CH]CCOO(74) + pentane(2) <=> C[CH]CCC(11) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC[CH]COO(73) + pentane(2) <=> C[CH]CCC(11) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC[CH]OO(84) + pentane(2) <=> C[CH]CCC(11) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCCOO(76) + pentane(2) <=> C[CH]CCC(11) + CCCCCOO(78) origin: H_Abstraction
rxn: C[CH]CCC(11) + CCCC(C)[O](44) <=> CCCC(C)=O(34) + pentane(2) origin: Disproportionation
rxn: C[CH]CCC(11) + C[CH]CC(C)OO(37) <=> C=CCC(C)OO(98) + pentane(2) origin: Disproportionation
rxn: C=CCCC(17) + CC[CH]CC(7) <=> C=CC[CH]C(64) + pentane(2) origin: H_Abstraction
rxn: C=CCCC(17) + CC[CH]CC(7) <=> [CH2]C=CCC(66) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + pentane(2) <=> C=CCCC(17) + CC[CH]CC(7) origin: H_Abstraction
rxn: C=[C]CCC(68) + pentane(2) <=> C=CCCC(17) + CC[CH]CC(7) origin: H_Abstraction
rxn: [CH]=CCCC(69) + pentane(2) <=> C=CCCC(17) + CC[CH]CC(7) origin: H_Abstraction
rxn: CC[CH]CCOO(74) + pentane(2) <=> CC[CH]CC(7) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC[CH]COO(73) + pentane(2) <=> CC[CH]CC(7) + CCCCCOO(78) origin: H_Abstraction
rxn: CC[CH]CC(7) + CCCCCOO(78) <=> CCCC[CH]OO(84) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCCCOO(76) + pentane(2) <=> CC[CH]CC(7) + CCCCCOO(78) origin: H_Abstraction
rxn: CC[CH]CC(7) + CCCC(C)[O](44) <=> CCCC(C)=O(34) + pentane(2) origin: Disproportionation
rxn: CC[CH]CC(7) + C[CH]CC(C)OO(37) <=> C=CCC(C)OO(98) + pentane(2) origin: Disproportionation
rxn: C=CC[CH]C(64) + CCC(CC)OO(27) <=> C=CCCC(17) + CCC(CC)O[O](22) origin: H_Abstraction
rxn: C=CCCC(17) + CCC(CC)O[O](22) <=> [CH2]C=CCC(66) + CCC(CC)OO(27) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + CCC(CC)OO(27) <=> C=CCCC(17) + CCC(CC)O[O](22) origin: H_Abstraction
rxn: C=[C]CCC(68) + CCC(CC)OO(27) <=> C=CCCC(17) + CCC(CC)O[O](22) origin: H_Abstraction
rxn: [CH]=CCCC(69) + CCC(CC)OO(27) <=> C=CCCC(17) + CCC(CC)O[O](22) origin: H_Abstraction
rxn: CCC(CC)O[O](22) + CCCCCO[O](61) <=> oxygen(1) + CCC(=O)CC(30) + CCCCCO(103) origin: Peroxyl_Termination
rxn: CCC(CC)O[O](22) + CCCCCO[O](61) <=> oxygen(1) + CCCCC=O(72) + CCC(O)CC(46) origin: Peroxyl_Termination
rxn: CC[CH]CCOO(74) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC[CH]COO(73) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC[CH]OO(84) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCCOO(76) + CCC(CC)OO(27) <=> CCC(CC)O[O](22) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC(C)[O](44) + CCC(CC)O[O](22) <=> CCCC(C)=O(34) + CCC(CC)OO(27) origin: Disproportionation
rxn: CCC(CC)O[O](22) + C[CH]CC(C)OO(37) <=> C=CCC(C)OO(98) + CCC(CC)OO(27) origin: Disproportionation
rxn: C=CC[CH]C(64) + CCCC(C)OO(26) <=> C=CCCC(17) + CCCC(C)O[O](21) origin: H_Abstraction
rxn: C=CCCC(17) + CCCC(C)O[O](21) <=> [CH2]C=CCC(66) + CCCC(C)OO(26) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + CCCC(C)OO(26) <=> C=CCCC(17) + CCCC(C)O[O](21) origin: H_Abstraction
rxn: C=[C]CCC(68) + CCCC(C)OO(26) <=> C=CCCC(17) + CCCC(C)O[O](21) origin: H_Abstraction
rxn: [CH]=CCCC(69) + CCCC(C)OO(26) <=> C=CCCC(17) + CCCC(C)O[O](21) origin: H_Abstraction
rxn: CCCC(C)O[O](21) + CCCCCO[O](61) <=> oxygen(1) + CCCC(C)=O(34) + CCCCCO(103) origin: Peroxyl_Termination
rxn: CCCC(C)O[O](21) + CCCCCO[O](61) <=> oxygen(1) + CCCCC=O(72) + CCCC(C)O(47) origin: Peroxyl_Termination
rxn: CCCC(C)[O](44) + CCCC(C)O[O](21) <=> CCCC(C)=O(34) + CCCC(C)OO(26) origin: Disproportionation
rxn: CCCC(C)O[O](21) + C[CH]CC(C)OO(37) <=> C=CCC(C)OO(98) + CCCC(C)OO(26) origin: Disproportionation
rxn: C[CH]CC(C)OO(37) + CCC(CC)OO(27) <=> CC[C](CC)OO(52) + CCCC(C)OO(26) origin: H_Abstraction
rxn: C[CH]C(CC)OO(31) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCC(CC)OO(27) origin: H_Abstraction
rxn: C=CCCC(17) + [CH2]CCCC(12) <=> C=CC[CH]C(64) + pentane(2) origin: H_Abstraction
rxn: C=CCCC(17) + [CH2]CCCC(12) <=> [CH2]C=CCC(66) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + pentane(2) <=> C=CCCC(17) + [CH2]CCCC(12) origin: H_Abstraction
rxn: C=[C]CCC(68) + pentane(2) <=> C=CCCC(17) + [CH2]CCCC(12) origin: H_Abstraction
rxn: [CH]=CCCC(69) + pentane(2) <=> C=CCCC(17) + [CH2]CCCC(12) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCCCOO(78) <=> CC[CH]CCOO(74) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCCCOO(78) <=> CCC[CH]COO(73) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCCCOO(78) <=> CCCC[CH]OO(84) + pentane(2) origin: H_Abstraction
rxn: [CH2]CCCCOO(76) + pentane(2) <=> [CH2]CCCC(12) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCC(12) + CCCC(C)[O](44) <=> CCCC(C)=O(34) + pentane(2) origin: Disproportionation
rxn: C[CH]CC(C)OO(37) + CCCC(C)OO(26) <=> CCC[C](C)OO(58) + CCCC(C)OO(26) origin: H_Abstraction
rxn: CC[CH]C(C)OO(35) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCC(C)OO(26) origin: H_Abstraction
rxn: [CH2]C(CCC)OO(36) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCC(C)OO(26) origin: H_Abstraction
rxn: [CH2]CCC(C)OO(38) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCC(C)OO(26) origin: H_Abstraction
rxn: [OH](24) + C=CCCC(17) <=> O(42) + C=CC[CH]C(64) origin: H_Abstraction
rxn: [OH](24) + C=CCCC(17) <=> O(42) + [CH2]C=CCC(66) origin: H_Abstraction
rxn: [OH](24) + C=CCCC(17) <=> O(42) + [CH2]CCC=C(67) origin: H_Abstraction
rxn: [OH](24) + C=CCCC(17) <=> O(42) + C=[C]CCC(68) origin: H_Abstraction
rxn: [OH](24) + C=CCCC(17) <=> O(42) + [CH]=CCCC(69) origin: H_Abstraction
rxn: [OH](24) + C=CCCC(17) <=> [CH2]C(O)CCC(91) origin: R_Addition_MultipleBond
rxn: [OH](24) + C=CCCC(17) <=> CCC[CH]CO(104) origin: R_Addition_MultipleBond
rxn: [OH](24) + CCCC(C)[O](44) <=> O(42) + CCCC(C)=O(34) origin: Disproportionation
rxn: C=CC[CH]C(64) + CCCCCOO(78) <=> C=CCCC(17) + CCCCCO[O](61) origin: H_Abstraction
rxn: C=CCCC(17) + CCCCCO[O](61) <=> [CH2]C=CCC(66) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + CCCCCOO(78) <=> C=CCCC(17) + CCCCCO[O](61) origin: H_Abstraction
rxn: C=[C]CCC(68) + CCCCCOO(78) <=> C=CCCC(17) + CCCCCO[O](61) origin: H_Abstraction
rxn: [CH]=CCCC(69) + CCCCCOO(78) <=> C=CCCC(17) + CCCCCO[O](61) origin: H_Abstraction
rxn: O(42) + C=CCCC(17) <=> CCCCCO(103) origin: 1,3_Insertion_ROR
rxn: C=CCCC(17) + CCCC(C)[O](44) <=> C=CC[CH]C(64) + CCCC(C)O(47) origin: H_Abstraction
rxn: C=CCCC(17) + CCCC(C)[O](44) <=> [CH2]C=CCC(66) + CCCC(C)O(47) origin: H_Abstraction
rxn: C=CCCC(17) + CCCC(C)[O](44) <=> [CH2]CCC=C(67) + CCCC(C)O(47) origin: H_Abstraction
rxn: C=[C]CCC(68) + CCCC(C)O(47) <=> C=CCCC(17) + CCCC(C)[O](44) origin: H_Abstraction
rxn: [CH]=CCCC(69) + CCCC(C)O(47) <=> C=CCCC(17) + CCCC(C)[O](44) origin: H_Abstraction
rxn: C=CC[CH]C(64) + CCCC(C)OO(26) <=> C=CCCC(17) + C[CH]CC(C)OO(37) origin: H_Abstraction
rxn: C=CCCC(17) + C[CH]CC(C)OO(37) <=> [CH2]C=CCC(66) + CCCC(C)OO(26) origin: H_Abstraction
rxn: [CH2]CCC=C(67) + CCCC(C)OO(26) <=> C=CCCC(17) + C[CH]CC(C)OO(37) origin: H_Abstraction
rxn: C=[C]CCC(68) + CCCC(C)OO(26) <=> C=CCCC(17) + C[CH]CC(C)OO(37) origin: H_Abstraction
rxn: [CH]=CCCC(69) + CCCC(C)OO(26) <=> C=CCCC(17) + C[CH]CC(C)OO(37) origin: H_Abstraction
rxn: CCCCCO[O](61) + CCCCCO[O](61) <=> oxygen(1) + CCCCC=O(72) + CCCCCO(103) origin: Peroxyl_Termination
rxn: CC[CH]CCOO(74) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC[CH]COO(73) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC[CH]OO(84) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCCOO(76) + CCCCCOO(78) <=> CCCCCO[O](61) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC(C)[O](44) + CCCCCO[O](61) <=> CCCC(C)=O(34) + CCCCCOO(78) origin: Disproportionation
rxn: CCCCCO[O](61) + C[CH]CC(C)OO(37) <=> C=CCC(C)OO(98) + CCCCCOO(78) origin: Disproportionation
rxn: CC[CH]CCOO(74) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCCCOO(78) origin: H_Abstraction
rxn: CCC[CH]COO(73) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC[CH]OO(84) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCCCOO(78) origin: H_Abstraction
rxn: [CH2]CCCCOO(76) + CCCC(C)OO(26) <=> C[CH]CC(C)OO(37) + CCCCCOO(78) origin: H_Abstraction
rxn: CCCC(C)[O](44) + CCCC(C)[O](44) <=> CCCC(C)=O(34) + CCCC(C)O(47) origin: Disproportionation
rxn: CCCC(C)[O](44) + C[CH]CC(C)OO(37) <=> C=CCC(C)OO(98) + CCCC(C)O(47) origin: Disproportionation
rxn: CCCC(C)[O](44) + C[CH]CC(C)OO(37) <=> CCCC(C)=O(34) + CCCC(C)OO(26) origin: Disproportionation
rxn: CCCC(C)O[O](21) + CCC(CC)OO[O](48) <=> oxygen(1) + CCCC(C)[O](44) + CCC(CC)O[O](22) origin: Peroxyl_Disproportionation
rxn: CCCC(C)O[O](21) + CCCC(C)OO[O](49) <=> oxygen(1) + CCCC(C)[O](44) + CCCC(C)O[O](21) origin: Peroxyl_Disproportionation
rxn: CCCC(C)O[O](21) + CCCCCOO[O](105) <=> oxygen(1) + CCCC(C)[O](44) + CCCCCO[O](61) origin: Peroxyl_Disproportionation
rxn: OO(23) + OOO(106) <=> [O]O(13) + [O]O(13) + O(42) origin: Bimolec_Hydroperoxide_Decomposition
rxn: OOO(106) + CCC(CC)OO(27) <=> [O]O(13) + O(42) + CCC(CC)O[O](22) origin: Bimolec_Hydroperoxide_Decomposition
rxn: OO(23) + CCC(CC)OOO(107) <=> [O]O(13) + O(42) + CCC(CC)O[O](22) origin: Bimolec_Hydroperoxide_Decomposition
rxn: OOO(106) + CCCC(C)OO(26) <=> [O]O(13) + O(42) + CCCC(C)O[O](21) origin: Bimolec_Hydroperoxide_Decomposition
rxn: OO(23) + CCCC(C)OOO(102) <=> [O]O(13) + O(42) + CCCC(C)O[O](21) origin: Bimolec_Hydroperoxide_Decomposition
rxn: OOO(106) + CCCCCOO(78) <=> [O]O(13) + O(42) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition
rxn: OO(23) + CCCCCOOO(108) <=> [O]O(13) + O(42) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCC(CC)OO(27) + CCC(CC)OOO(107) <=> O(42) + CCC(CC)O[O](22) + CCC(CC)O[O](22) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCCC(C)OO(26) + CCC(CC)OOO(107) <=> O(42) + CCC(CC)O[O](22) + CCCC(C)O[O](21) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCC(CC)OO(27) + CCCC(C)OOO(102) <=> O(42) + CCC(CC)O[O](22) + CCCC(C)O[O](21) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCCCCOO(78) + CCC(CC)OOO(107) <=> O(42) + CCC(CC)O[O](22) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCC(CC)OO(27) + CCCCCOOO(108) <=> O(42) + CCC(CC)O[O](22) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCCC(C)OO(26) + CCCC(C)OOO(102) <=> O(42) + CCCC(C)O[O](21) + CCCC(C)O[O](21) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCCCCOO(78) + CCCC(C)OOO(102) <=> O(42) + CCCC(C)O[O](21) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCCC(C)OO(26) + CCCCCOOO(108) <=> O(42) + CCCC(C)O[O](21) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition
rxn: CCCCCOO(78) + CCCCCOOO(108) <=> O(42) + CCCCCO[O](61) + CCCCCO[O](61) origin: Bimolec_Hydroperoxide_Decomposition

Details

Observables Test Case: RMS_CSTR_liquid_oxidation Comparison

✅ All Observables varied by less than 0.100 on average between old model and new model in all conditions!

RMS_CSTR_liquid_oxidation Passed Observable Testing ✅

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[kirkbadger18]

Okay, this is passing the tests now. I had to modify the tree for vdW species, and update some small things like if there was an R group, and it formed [D,T] bonds, I had to change these to R!H. Here is the updated data files I used to generate the adsorption corrections:
thermo_PR_data.zip

And here is the modified vdW tree visual: