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EC number: 244-491-1 | CAS number: 21643-42-5
Henry's Law constant
Administrative data
- Endpoint:
- Henry's law constant
- Type of information:
- calculation (if not (Q)SAR)
- Adequacy of study:
- supporting study
- Reliability:
- 2 (reliable with restrictions)
- Rationale for reliability incl. deficiencies:
- other: Scientifically acceptable method
Data source
Referenceopen allclose all
- Reference Type:
- other: EPIWIN calculation
- Title:
- Unnamed
- Year:
- 2�019
- Reference Type:
- other: Estimation software
- Title:
- Estimation Programs Interface Suite for Microsoft Windows, v4.10
- Author:
- US EPA
- Year:
- 2�012
- Bibliographic source:
- United States Environmental Protection Agency, Washington, DC, USA
Materials and methods
Test guideline
- Qualifier:
- no guideline followed
- Principles of method if other than guideline:
- Calculation of Henry's Law Constant. Software used: SRC HENRYWIN v3.20: Bond estimation method
- GLP compliance:
- no
Test material
- Reference substance name:
- Tetradecyl acrylate
- EC Number:
- 244-491-1
- EC Name:
- Tetradecyl acrylate
- Cas Number:
- 21643-42-5
- Molecular formula:
- C17H32O2
- IUPAC Name:
- tetradecyl prop-2-enoate
Constituent 1
- Specific details on test material used for the study:
- SMILES : O=C(OCCCCCCCCCCCCCC)C=C
Results and discussion
Henry's Law constant H
- H:
- 373 Pa m³/mol
- Temp.:
- 25 °C
- Remarks on result:
- other: The substance is (not) within the applicability domain of the model.
Any other information on results incl. tables
Class |
Bond Contribution Description |
Comment |
Value |
|
Hydrogen |
29 |
Hydrogen to Carbon (aliphatic) Bonds |
|
-3.4706 |
Hydrogen |
3 |
Hydrogen to Carbon (olefinic) Bonds |
|
-0.3014 |
Fragment |
13 |
C-C |
|
1.5120 |
Fragment |
1 |
C-O |
|
1.0855 |
Fragment |
1 |
Cd-CO |
|
1.9260 |
Fragment |
1 |
CO-O |
|
0.0714 |
Fragment |
1 |
Cd=Cd |
|
0.0000 |
Result |
Bond Estimation Method for LWAPC Value |
Total |
0.823 |
|
HENRYs Law Constant at 25 deg C = 3.68E-003 atm-m³/mole
1.50E-001 unitless
3.73E+002 Pa-m³/mole
Applicant's summary and conclusion
- Executive summary:
QPRF: HENRYWIN v3.20: Bond contribution method
1.
Substance
See “Test material identity”
2.
General information
2.1
Date of QPRF
See “Data Source (Reference)”
2.2
QPRF author and contact details
See “Data Source (Reference)”
3.
Prediction
3.1
Endpoint
(OECD Principle 1)Endpoint
Degree of volatilisation of substances from the aquatic environment
Dependent variable
Henry’s Law Constant
3.2
Algorithm
(OECD Principle 2)Model or submodel name
HENRYWIN: Bond contribution method
Model version
v. 3.20
Reference to QMRF
Henry’s Law constant (HLC) using HENRYWIN v3.2: Estimation Accuracy (QMRF)
Predicted value (model result)
See “Results and discussion: Henry’s Law constant H”
Input for prediction
Chemical structure via CAS number or SMILES
Descriptor values
- Bond contribution values
- Correction factors
3.3
Applicability domain
(OECD principle 3)Domains:
1) Molecular weight (range of test data set: 26.04 to 451.47 g/mol, mean: 144.64 g/mol) (On-Line HENRYWIN User’s Guide, Ch. 7.4 Estimation Domain and Appendix G)
Substance within range (268.4 g/mol)
2) Maximum number of instances of bond in any of the training set compounds (On-Line HENRYWIN User’s Guide, Appendix D)
Not exceeded
3) Maximum number of instances of correction factor in any of the training set compounds (On-Line HENRYWIN User’s Guide, Appendix E)
Not exceeded
3.4
The uncertainty of the prediction
(OECD principle 4)According to REACH Guidance Document R.7a, Appendix R.7.1-1 (Nov. 2012), measurement of HLC is not highly accurate, especially for very high or very low HLC values. The bond contribution method regarded by Altschuh et al. (1999) to produce the most reliable results with the exception of organochlorine pesticides. However, for some compounds, the method can yield a Henry's Law constant of 1.0x10-12atm*m3/mol or smaller. Numbers which are smaller than this value may be unrealistically low.
3.5
The chemical mechanisms according to the model underpinning the predicted result
(OECD principle 5)The compound is split into a summation of individual bonds which comprise the compound. The summation of these bonds (= bond contribution values) is set equal to LWPAC. Correction factors were developed to correct for polar interactions and other deviations from the regression curve, which are applied to members of some chemical classes.
References:
Altschuh, J.R., Bruggemann, H. Santl, G. Eichinger, and O.G. Piringer.1999. Henry’s law constants for a diverse set of organic chemicals: experimental determination and comparison of estimation methods. Chemosphere 39: 1871-87.
On-Line HENRYWIN™User's Guide:
- Appendix D: Bond Method Contribution Values used by HENRYWIN.
- Appendix E: Bond Method Correction Factors Used by HENRYWIN.
- Appendix G. Chemicals Used to Derive Bond Contribution Values & Correction Factors.
Identified number of bonds and correction factors for the current substance:
HLC Appendix D, Table D-1: Bond Contribution Values Derived by Least-Square Regression Analysis
Bond Coefficient
ValueNo. Compounds
in Training Set
containing
the BondMaximum No.
of instances of
each Bond
occurring in any
single compoundComment No. of instances
of each bond
found for the
current substanceC-H -0,119677 284 27 Hydrogen bond 29 Cd-H -0,100481 43 6 Hydrogen bond 3 C-C 0,116304 200 9 13 C-O 1,085473 83 4 1 Cd-Cd 0,099661 5 1 1 Cd-CO 1,926035 9 1 1 CO-O 0,071447 36 2 1 HLC Appendix D, Table D-2: Bond Contribution Values from a Subsequent Regression
Not applicable
HLC Appendix D, Table D-3: Additional Bond Contribution Values Used HENRYWIN
Not applicable
HLC Appendix E, Table E-1: Bond Correction Factors Derived from the Original Regression
Not applicable
HLC Appendix E, Table E-2: Bond Correction Factors Derived from the Second Regression
Not applicable
HLC Appendix E, Table E-3: Bond Correction Factors Derived Individually
Not applicable
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