Appendices of the Final Screening Assessment Petroleum Sector Stream Approach Gas Oils [Industry-Restricted] Chemical Abstracts Service Registry Numbers 64741-59-9 64741-82-8 Environment Canada Health Canada July 2013

Appendices

Appendix 1: Petroleum substance grouping

Table A1.1. Description of the nine groups of petroleum substances
Group[a] Description Example
Crude oils Complex combinations of aliphatic and aromatic hydrocarbons and small amounts of inorganic compounds, naturally occurring under the earth’s surface or under the seafloor Crude oil
Petroleum and
refinery gases
Complex combinations of light hydrocarbons primarily from C1–C5 Propane
Low boiling point naphthas Complex combinations of hydrocarbons primarily from C4– C12 Gasoline
Gas oils Complex combinations of hydrocarbons primarily from C9–C25 Diesel
Heavy fuel oils Complex combinations of heavy hydrocarbons primarily from C11–C50 Fuel Oil No. 6
Base oils Complex combinations of hydrocarbons primarily from C15–C50 Lubricating oils
Aromatic extracts Complex combinations of primarily aromatic hydrocarbons from C15–C50 Feedstock for benzene production
Waxes, slack waxes and petrolatum Complex combinations of primarily aliphatic hydrocarbons from C12–C85 Petrolatum
Bitumen or vacuum residues Complex combinations of heavy hydrocarbons having carbon numbers greater than C25 Asphalt

[a] These groups were based on classifications developed by Conservation of Clean Air and Water in Europe (CONCAWE 1996) and a contractor’s report presented to the Canadian Petroleum Products Institute (Simpson 2005).

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Appendix 2: Physical and chemical data tables for industry-restricted gas oils

Table A2.1. Substance identity for gas oils
CAS RN 64741-59-9 64741-82-8
DSL name Distillates (petroleum), light catalytic cracked Light thermal cracked distillates
National Chemical Inventories[a] Distillates (petroleum), light catalytic cracked Distillates, petroleum, light thermal cracked (AICS, EINECS, ESIS, IUCLID)
Chemical group
(DSL Stream)
UVCB – organic UVCB – organic
Major chemical class or use Refinery streams Distillate fuel oils
Major chemical
subclass[b]
Complex combinations of alkanes, cycloalkanes, alkenes and aromatics (predominantly aromatic) Complex combinations of alkanes, cycloalkanes and aromatics
Carbon range[c] C9–C25 C10–C22
Aromatic content[d] (%) 61–80 57
Aliphatic content[d](%) Alkanes 14–23
Cycloalkanes 8–10
43
Alkene content[d](%) 0–3.7[d] 0[c]
Boiling point range (°C) 179–382[e] 160–370[c]
Aliphatic : aromatic ratio 20:80[d] [f] 43:57[d] [g]

Abbreviations: AICS, Australian Inventory of Chemical Substances; DSL, Domestic Substances List; EINECS, European Inventory of Existing Commercial Chemical Substances; ESIS, European Chemical Substances Information System; IUCLID, International Uniform Chemical Information Database.

[a] NCI (2006)

[b] This substance is a UVCB (Unknown or Variable Composition, Complex Reaction Products, or Biological Materials), i.e., it is not a discrete chemical and thus may be characterized by a variety of structures.

[c] CONCAWE (1996)

[d] API (2003a)

[e] ECB (2000)

[f] The aromatic to aliphatic ratio reported for CAS RN 64741-59-9 is based on the MOBIL Light Cycle Oil sample.

[g] The aromatic to aliphatic ratio reported for CAS RN 64741-82-8 is based on the MOBIL coker light gas oil sample.

Table A2.2. Physical-chemical properties of representative substances for gas oils (EPI Suite 2008)[a]

Alkanes
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C10
decane
(124-18-5)
174.1 (expt.) −29.7 (expt.) 191 5.2×105
(expt.)
C15
pentadecane
(629-62-9)
270.6
(expt.)
9.9
(expt.)
0.5
(expt.)
1.3×106
(expt.)
C20
eicosane
(112-95-8)
343.0
(expt.)
36.8
(expt.)
6.2×10−4
(expt.)
5.3×106
Isoalkanes
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C10
4-methylnonane
(17301-94-9)
165.7 (expt.) −99
(expt.)
339 5×104
C15
2-methyltetradecane
(1560-95-8)
250.2 1.5 5.8 3.7×105
C20
3-methyl-nonadecane
(6418-45-7)
326.3 39.5 0.09 2.4×106
One-ring cycloalkanes
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C10
butylcyclohexane
(1678-93-9)
180.9 (expt.) −74.7 (expt.) 180 (expt.) 2×104
C15
nonylcyclohexane
(2883-02-5)
282
(expt.)
−10
(expt.)
1.2
(expt.)
5.8×104
Two-ring cycloalkanes
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C9
cis-bicyclononane (4551-51-3)
167
(expt.)
−53
(expt.)
320.0 2100
C15
pentamethyldecalin
248 8.6 6.6 2.8×104
C20
2,4-dimethyloctyl-2-decalin
329 78 0.03 8.2×104
Polycycloalkanes
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C14
hydrophenanthrene
255 21 4.5 8×103
C18
hydrochrysene
316 66.4 0.004 6×103
C22
hydropicene
365 117 0.003 4×103
One-ring aromatics
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C9
ethylmethylbenzene
(25550-14-5)
165.2 (expt.) −80.8
(expt.)
384
(expt.)
324.2
C15
n-nonylbenzene
(1081-77-2)
280.5
(expt.)
−24
(expt.)
0.76
(expt.)
4200
C20
1-benzyl-4,8-dimethyl-dodecane
334.6 49.2 4 82 100
Cycloalkane monoaromatics
Chemical class, name and CAS RN Boiling point (°C) Melting point
(°C)
Vapour pressure
(Pa)[b]
Henry’s Law constant (Pa·m3/mol)[c]
C10
tetralin (tetrahydronaphthalene)
119-64-2
207.6 (expt.) -35.7 (expt.) 49.1 (expt.) 138 (expt.)
C15
methyloctahydro-phenanthrene
284.8 50.9 0.337 939
C20
ethyldodecahydro-chyrsene
351.3 115.7 0.00279 1710

Table A2.2 cont. Physical-chemical properties of representative substances for gas oils (EPI Suite 2008)[a]

Alkanes
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C10
decane
(124-18-5)
5.01
(expt.)
2.2×104 0.052
(expt.)
C15
pentadecane
(629-62-9)
7.7 6.7 7.6×10-5
(expt.)
C20
eicosane
(112-95-8)
10.2 5.9 0.002
(expt.)
Isoalkanes
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C10
4-methylnonane
(17301-94-9)
5.2 3×104 0.087
C15
2-methyltetradecane
(1560-95-8)
7.6 6.6 0.003
C20
3-methylnonadecane
(6418-45-7)
10* 8.8 1.1×10-5
One-ring cycloalkanes
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C10
butylcyclohexane
(1678-93-9)
5.1 4.4 1.2
C15
nonylcyclohexane
(2883-02-5)
7.5 4.6 0.004
(expt.)
Two-ring cycloalkanes
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C9
cis-bicyclononane (4551-51-3)
3.7 3.0 19.3
C15
pentamethyldecalin
6.3 5.5 0.05
C20
2,4-dimethyloctyl-2-decalin
8.9 7.7 1.1×10−4
Polycycloalkanes
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C14
hydrophenanthrene
5.2 4.4 0.5
C18
hydrochrysene
6.2 5.3 0.03
C22
hydropicene
7.3 6.3 0.002
One-ring aromatics
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C9
ethylmethylbenzene
(25550-14-5)
3.6
(expt.)
2.93 74.6
(expt.)
C15
n-nonylbenzene
(1081-77-2)
7.1
(expt.)
4.4 0.04
C20
1-benzyl-4,8-dimethyl-dodecane
8.78 5.67 0.0005
Cycloalkane monoaromatics
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C10
tetralin (tetrahydronaphthalene)
119-64-2
3.49 (expt.) 3.19 47 (expt.)
C15
methyloctahydro-phenanthrene
5.40 4.43 0.37
C20
ethyldodecahydro-chyrsene
6.91 5.74 0.00274
Two-ring aromatics
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C10
naphthalene
(91-20-3)
3.3 (expt.) 731 31 (expt.)
C15
4-isopropylbiphenyl
5.5
(expt.)
4.63 0.9
Cycloalkane diaromatics
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C12
acenaphthene
(83-32-9)
3.92 (expt.) 3.70 2.534
C15
ethylfluorene
5.05 4.45 0.198
C20
isoheptylfluorene
7.44 5.68 0.0009
Three-ring aromatics
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C15
4-methylphenanthrene
(2531-84-2)
4.9 2.6×104 1.7
Four-ring PAHs
Chemical class, name and CAS RN Log Kow Log Koc Aqueous solubility
(mg/L)[d]
C16
fluoranthene
(206-44-0)
5.2 4.5 0.3

[a] All values are modelled unless denoted with an (expt.) for experimental data. Models used were MPBPWIN (Version 1.43) for melting point, boiling point and vapour pressure; AEROWIN (Version 1.01) for sub-cooled liquid vapour pressure; HENRYWIN (Version 3.20) for Henry’s Law constants; KOWWIN (Version 1.67a) for log Kow; KOCWIN (Version 2.0) for log Koc; WSKOWWIN (Version 1.41) for water solubility; and CONCAWE 1462 for sub-cooled liquid solubility.

[b] This is the maximum vapour pressure of the representative substance; the actual vapour pressure as a component of a mixture will be lower due to Raoult’s Law (the total vapour pressure of an ideal mixture is proportional to the sum of the vapour pressures of the mole fractions of each individual component). The lightest C15 representative substances were chosen to estimate a range of vapour pressures from the minimum to maximum values.

[c] Henry’s Law constants for C20 representative substances were calculated with HENRYWIN Version 3.10 from EPI Suite (2007), using both sub-cooled liquid solubility and sub-cooled liquid vapour pressure. Solubility data gave anomalously high values for substances that have negligible solubility and volatility.

[d] Maximum water solubility was estimated for each representative substance based on its individual physical-chemical properties. The actual water solubility of a component in a mixture will decrease, as the total water solubility of an ideal mixture is proportional to the sum of the water solubilities of the mole fractions of each individual component (Banerjee 1984).

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Appendix 3: Measures designed to prevent, reduce or manage unintentional releases

For the Canadian petroleum industry, requirements at the provincial/territorial level typically prevent or manage the unintentional releases of petroleum substances and streams within a facility through the use of operating permits (SENES 2009).

At the federal level, unintentional releases of some petroleum substances are addressed under the Petroleum Refinery Liquid Effluent Regulations and guidelines in the Fisheries Act (Canada 2010). These regulations set the discharge limits of oil and grease, phenol, sulfides, ammonia nitrogen and total suspended matter, as well as testing requirements for acute toxicity in the final petroleum effluents entering Canadian waters.

Additionally, existing occupational health and safety legislation specifies measures to reduce occupational exposures of employees, and some of these measures also serve to reduce unintentional releases (CanLII 2009).

Non-regulatory measures (e.g., guidelines, best practices) are also in place at petroleum sector facilities to reduce unintentional releases. Such control measures include appropriate material selection during the design and setup processes; regular inspection and maintenance of storage tanks, pipelines and other process equipment; the implementation of leak detection and repair or other equivalent programs; the use of floating roofs in above-ground storage tanks to reduce the internal gaseous zone; and the minimal use of underground tanks, which can lead to undetected leaks or spills (SENES 2009).

Under the Canada Shipping Act, 2001 (Canada 2001), releases of petroleum substances from marine loading and unloading and transportation are managed by pollution prevention and response provisions (Parts 8 and 9), including the establishment of pollution prevention plans and pollution emergency plans for any discharges during loading or unloading activities.

For those substances containing highly volatile components (e.g., low boiling point naphthas, gasoline), a vapour recovery system is generally implemented or recommended at loading terminals of Canadian petroleum facilities (SENES 2009). Such a system is intended to reduce evaporative emissions during handling procedures.

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Appendix 4: Unintentional release estimation of diesel fuel spills to the marine environment

Table A4.1. Diesel fuel, light oil and petroleum distillates spills information, 2000–2009, from Environment Canada Spill Line database to selected marine locations (Environment Canada 2011)[a]
Year Average spill volume (litres) Maximum single spill volume (litres) Median spill volume (litres) Number spills reported % of spills with unknown volume Total known volume spilled
(litres)
Extrapolated total volume spilled (litres)[b]
2009 100 100 100 2 50 100 244
2008 - - - 1 100 - 144
2007 7 20 4 7 43 29 460
2006 1700 1700 1700 2 50 1700 1844
2005 - - - 3 100 - 431
2004 46 91 46 5 60 92 523
2003 8 20 4 9 56 31 748
2002 29 57 29 7 71 59 777
2001 - - - 0 - - -
2000 - - - 0 - - -
Total volume spilled 36   2010 5169

[a] Does not include releasess due to aircraft crash, collision, ice/frost, road conditions, subsidence, or vandalism.

[b] The extrapolated total volume was calculated using a proportional estimate of known spills to determine the frequency and volume of unknown spill volumes assuming that the distribution of reported volumes released was representative of all releases.

Table A4.2a. Sources of diesel fuel, light oil, and petroleum distillates releases in Canada to selected marine locations, 2000–2009 (Environment Canada 2011)[a]
Source Total number of releases Total volume of releases (litres) Proportion of volume Average release (litres)
Other motor vehicle 4 1700 0.85 1700
Other industrial plant 1 91 0.05 91
Unknown 19 125 0.06 31
Other watercraft 7 85 0.04 21
Marine terminal 1 4 0.00 4
Pipeline 1 2 0.00 2
Tank truck 1 2 0.00 2
Marine tanker 1 1 0.00 1
Other 1 0 0.00 0
Total 36 2010 1.00 144
Table A4.2b. Causes for diesel fuel, light oil, and petroleum distillates releases in Canada to selected marine locations 2000–2009 (Environment Canada 2011)[a]
Cause Total number of releases Total volume of releases (litres) Proportion of volume Average release (litres)
Unknown 23 1734 0.86 248
Container leak 2 191 0.09 95
Discharge 6 59 0.03 29
Other 4 22 0.01 11
Valve, fitting leak 1 4 0.00 4
Total 36 2010 1.00 144
Table A4.2c. Reasons for diesel fuel, light oil, and petroleum distillates releases in Canada to selected marine locations 2000–2009 (Environment Canada 2011)[a]
Reason Total number of releases Total volume of releases (litres) Proportion of volume Average release (litres)
Unknown 24 1803 0.90 258
Human error 2 100 0.05 100
Vandalism 1 91 0.05 91
Equipment failure 4 10 0.00 3
Material failure 1 4 0.00 4
Corrosion 1 2 0.00 2
Other 2 0 0.00 0
Subsidence 1 0 0.00 0
Total 36 2010 1.00 144

[a] Does not include releasess due to aircraft crash, collision, ice/frost, road conditions, subsidence, or vandalism.

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