SCHEDULE 1(Paragraphs 56(1)(a) and (c), section 68, subsection 71(1), paragraphs 77(2)(c) and (d), subsections 77(7) and (9), 90(1) to (2) and 91(1), paragraph 91(2)(a), subsection 93(1), paragraphs 94(1)(a) and (5)(b), subsections 95(1) and (3) and 96(1), paragraph 199(1)(a), subparagraph 199(1)(b)(i) and subsection 317.1(3))
Note: For molecular formulae in this Schedule, “n”, “x” and “y” refer to the number of atoms.
PART 1
1
Chlorobiphenyls that have the molecular formula C12H(10-n)Cln in which “n” is greater than 2
are neither normal components of the fuel nor additives designed to improve the characteristics or the performance of the fuel; or
(b)
are normal components of the fuel or additives designed to improve the characteristics or performance of the fuel, but are present in quantities or concentrations greater than those generally accepted by industry standards.
12
Dibenzo-para-dioxin that has the molecular formula C12H8O2
13
Dibenzofuran that has the molecular formula C12H8O
trans 1-chloro-3,3,3-trifluoroprop-1-ene [HCFO-1233zd(E)]; and
(z.34)
2-amino-2-methyl-1-propanol.
61
Particulate matter containing metals that is released in emissions from copper smelters or refineries, or from both
62
Particulate matter containing metals that is released in emissions from zinc plants
63
2-butoxyethanol, which has the molecular formula C6H14O2
64
2-methoxyethanol, which has the molecular formula C3H8O2
65
Carbon dioxide, which has the molecular formula CO2
66
Methane, which has the molecular formula CH4
67
Nitrous oxide, which has the molecular formula N2O
68
Hydrofluorocarbons that have the molecular formula CnHxF(2n+2–x) in which 0<n<6
69
The following perfluorocarbons:
(a)
those that have the molecular formula CnF2n+2 in which 0<n<7; and
(b)
octafluorocyclobutane, which has the molecular formula C4F8.
70
Sulphur hexafluoride, which has the molecular formula SF6
71
Methanone, bis[4-(dimethylamino)phenyl]-, which has the molecular formula C17H20N2O
72
2-Butanone, oxime, which has the molecular formula C4H9NO
73
n-Butyl glycidyl ether, which has the molecular formula C7H14O2
74
Polybrominated diphenyl ethers that have the molecular formula C12H(10-n)BrnO in which 7≤n≤10
75
Compounds that contain one of the following groups: C8F17SO2, C8F17SO3 or C8F17SO2N
76
Methyloxirane, which has the molecular formula C3H6O
77
Ethyloxirane, which has the molecular formula C4H8O
78
Naphthalene, which has the molecular formula C10H8
79
Toluene diisocyanates, which have the molecular formula C9H6N2O2
80
1,2-Benzenediol, which has the molecular formula C6H6O2
81
1,4-Benzenediol, which has the molecular formula C6H6O2
82
Hexane, 1,6-diisocyanato-, homopolymer, reaction products with alpha-fluoro-omega-2-hydroxyethyl-poly(difluoromethylene), C16-20-branched alcohols and 1-octadecanol
83
2-propenoic acid, 2-methyl-, hexadecyl ester, polymers with 2-hydroxyethyl methacrylate, gamma-omega-perfluoro-C10-16-alkyl acrylate and stearyl methacrylate
84
2-propenoic acid, 2-methyl-, 2-methylpropyl ester, polymer with butyl 2-propenoate and 2,5-furandione, gamma-omega-perfluoro-C8-14-alkyl esters, tert-Bu benzenecarboperoxoate initiated
85
2-propen-1-ol reaction products with pentafluoroiodoethane tetrafluoroethylene telomer, dehydroiodinated, reaction products with epichlorohydrin and triethylenetetramine
86
Phenol, 4,4′ -(1-methylethylidene)bis-, which has the molecular formula C15H16O2
87
Thiourea, which has the molecular formula CH4N2S
88
1,3-Butadiene, 2-methyl-, which has the molecular formula C5H8
89
Oxirane, (chloromethyl)-, which has the molecular formula C3H5ClO
90
Colour Index Pigment Yellow 34
91
Colour Index Pigment Red 104
92
Cyclotetrasiloxane, octamethyl-, which has the molecular formula C8H24O4Si4
93
Ethanol, 2-methoxy-, acetate, which has the molecular formula C5H10O3
94
1-Propanol, 2-methoxy-, which has the molecular formula C4H10O2
95
2-Naphthalenol, 1-[(4-methyl-2-nitrophenyl)azo]-, which has the molecular formula C17H13N3O3
96
Ethanol, 2-(2-methoxyethoxy)-, which has the molecular formula C5H12O3
97
Sulfuric acid, diethyl ester, which has the molecular formula C4H10O4S
98
Sulfuric acid, dimethyl ester, which has the molecular formula C2H6O4S
99
2-Propenamide, which has the molecular formula C3H5NO
100
Ethanol, 2-chloro-, phosphate (3:1), which has the molecular formula C6H12Cl3O4P
101
Tetrabutyltins, which have the molecular formula (C4H9)4Sn
102
Benzene, (chloromethyl)-, which has the molecular formula C7H7Cl
103
Propane, 2-nitro-, which has the molecular formula C3H7NO2
104
Benzene, 1-methyl-2-nitro-, which has the molecular formula C7H7NO2
105
Methylium, [4-(dimethylamino)phenyl]bis[4-(ethylamino)3-methylphenyl]-, acetate, which has the molecular formula C27H34N3.C2H3O2
106
Benzene, 1,2-dimethoxy-4-(2-propenyl)-, which has the molecular formula C11H14O2
107
Vanadium pentoxide, which has the molecular formula V2O5
108
Oxirane, 2,2′,2′′,2′′′-[1,2-ethanediylidenetetrakis(4,1-phenyleneoxymethylene)]tetrakis-, which has the molecular formula C38H38O8
109
Bromic acid, potassium salt, which has the molecular formula KBrO3
110
Hydrazine, which has the molecular formula N2H4
111
Quinoline, which has the molecular formula C9H7N
112
Perfluorooctanoic acid, which has the molecular formula C7F15CO2H, and its salts
113
Compounds that consist of a perfluorinated alkyl group that has the molecular formula CnF2n+1 in which n is equal to 7 or 8 and that is directly bonded to any chemical moiety other than a fluorine, chlorine or bromine atom
114
Perfluorocarboxylic acids that have the molecular formula CnF2n+1CO2H in which 8≤n≤20 and their salts
115
Compounds that consist of a perfluorinated alkyl group that has the molecular formula CnF2n+1 in which 8≤n≤ 20 and that is directly bonded to any chemical moiety other than a fluorine, chlorine or bromine atom
116
Plastic microbeads that are less than or equal to 5 mm in size
117
The following petroleum and refinery gases:
(a)
tail gas (petroleum), catalytic polymerized naphtha fractionation stabilizer (a complex combination of hydrocarbons — obtained from the fractionation stabilization products that result from the polymerization of naphtha — consisting predominantly of hydrocarbons having carbon numbers in the range of C1 through C4);
(b)
fuel gases (a combination of light gases consisting predominantly of hydrogen or low molecular weight hydrocarbons or both);
(c)
hydrocarbons, C2-C4, C3-rich (a complex combination of hydrocarbons — obtained from a treating process to remove sulphur and other acidic compounds — consisting of hydrocarbons having carbon numbers in the range of C2 through C4, predominantly propane and propene);
(d)
gases (petroleum), butane splitter overhead (a complex combination of hydrocarbons — obtained from the distillation of the butane stream — consisting of aliphatic hydrocarbons having carbon numbers predominantly in the range of C3 through C4);
(e)
gases (petroleum), catalytic cracked gas oil depropanizer bottom, C4-rich acid-free (a complex combination of hydrocarbons — obtained from the fractionation of catalytic cracked gas oil hydrocarbon stream and treated to remove hydrogen sulfide and other acidic components — consisting of hydrocarbons having carbon numbers in the range of C3 through C5, predominantly C4);
(f)
gases (petroleum), catalytic cracked naphtha debutanizer bottom, C3-C5-rich (a complex combination of hydrocarbons — obtained from the stabilization of catalytic cracked naphtha — consisting of aliphatic hydrocarbons having carbon numbers predominantly in the range of C3 through C5);
(g)
gases (petroleum), catalytic cracked naphtha depropanizer overhead, C3-rich acid-free (a complex combination of hydrocarbons — obtained from the fractionation of catalytic cracked hydrocarbons and treated to remove acidic impurities — consisting of hydrocarbons having carbon numbers in the range of C2 through C4, predominantly C3);
(h)
gases (petroleum), catalytic cracker, C1-C5-rich (a complex combination of hydrocarbons — obtained from the distillation of products that result from a catalytic cracking process — consisting of aliphatic hydrocarbons having carbon numbers in the range of C1 through C6, predominantly C1 through C5);
(i)
gases (petroleum), catalytic polymerized naphtha stabilizer overhead, C2-C4-rich (a complex combination of hydrocarbons — obtained from the fractionation stabilization of catalytic polymerized naphtha — consisting of aliphatic hydrocarbons having carbon numbers in the range of C2 through C6, predominantly C2 through C4);
(j)
gases (petroleum), catalytic reformed naphtha stripper overhead (a complex combination of hydrocarbons — obtained from the stabilization of catalytic reformed naphtha — consisting of hydrogen and saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C4);
(k)
gases (petroleum), deethanizer overhead (a complex combination of hydrocarbons — obtained from the distillation of the gas and gasoline fractions that result from a catalytic cracking process — consisting predominantly of ethane and ethene);
(l)
gases (petroleum), deisobutanizer tower overhead (a complex combination of hydrocarbons — obtained from the atmospheric distillation of a butane-butene stream — consisting of aliphatic hydrocarbons having carbon numbers predominantly in the range of C3 through C4);
(m)
gases (petroleum), gas concentration reabsorber distillation (a complex combination of hydrocarbons — obtained from the distillation of products from combined gas streams in a gas concentration reabsorber — consisting predominantly of hydrogen, carbon monoxide, carbon dioxide, nitrogen, hydrogen sulfide and hydrocarbons having carbon numbers in the range of C1 through C3);
(n)
gases (petroleum), hydrogen-rich (a complex combination — separated as a gas from hydrocarbon gases by chilling — consisting predominantly of hydrogen with small amounts of carbon monoxide, nitrogen, methane and C2 hydrocarbons);
(o)
gases (petroleum), recycle, hydrogen-rich (a complex combination — obtained from recycled reactor gases — consisting predominantly of hydrogen with small amounts of carbon monoxide, carbon dioxide, nitrogen, hydrogen sulfide and saturated aliphatic hydrocarbons having carbon numbers in the range of C1 through C5);
(p)
gases (petroleum), reformer make-up, hydrogen-rich (a complex combination — obtained from the reformers — consisting predominantly of hydrogen with small amounts of carbon monoxide and aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(q)
gases (petroleum), thermal cracking distillation (a complex combination — obtained from the distillation of products that result from a thermal cracking process — consisting of hydrogen, hydrogen sulfide, carbon monoxide, carbon dioxide and hydrocarbons having carbon numbers predominantly in the range of C1 through C6);
(r)
tail gas (petroleum), catalytic cracker refractionation absorber (a complex combination of hydrocarbons — obtained from the refractionation of products that result from a catalytic cracking process — consisting of hydrogen and hydrocarbons having carbon numbers predominantly in the range of C1 through C3);
(s)
tail gas (petroleum), cracked distillate hydrotreater separator (a complex combination of hydrocarbons — obtained by treating cracked distillates with hydrogen in the presence of a catalyst — consisting of hydrogen and saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(t)
tail gas (petroleum), saturate gas plant mixed stream, C4-rich (a complex combination of hydrocarbons — obtained from the fractionation stabilization of straight-run naphtha, distillation tail gas and catalytic reformed naphtha stabilizer tail gas — consisting of hydrocarbons having carbon numbers in the range of C3 through C6, predominantly butane and isobutane);
(u)
tail gas (petroleum), vacuum residue thermal cracker (a complex combination of hydrocarbons — obtained from the thermal cracking of vacuum residues — consisting of hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(v)
hydrocarbons, C3-C4-rich, petroleum distillates (a complex combination of hydrocarbons — obtained from the distillation and condensation of crude oil — consisting of hydrocarbons having carbon numbers in the range of C3 through C5, predominantly C3 and C4);
(w)
gases (petroleum), hydrocracking depropanizer off, hydrocarbon-rich (a complex combination of hydrocarbons — obtained from the distillation of products that result from a hydrocracking process — consisting predominantly of hydrocarbons having carbon numbers predominantly in the range of C1 through C4);
(x)
gases (petroleum), light straight-run naphtha stabilizer off (a complex combination of hydrocarbons — obtained from the stabilization of light straight-run naphtha — consisting of saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C2 through C6);
(y)
gases (petroleum), reformer effluent high-pressure flash drum off (a complex combination — obtained from the high-pressure flashing of the effluent from the reforming reactor — consisting predominantly of hydrogen with small amounts of methane, ethane and propane);
(z)
hydrocarbons, C1-C4 (a complex combination of hydrocarbons — obtained from thermal cracking and absorber operations and from the distillation of crude oil — consisting of hydrocarbons having carbon numbers predominantly in the range of C1 through C4 and boiling in the range of approximately -164°C to -0.5°C);
(z.1)
hydrocarbons, C1-C4, sweetened (a complex combination of hydrocarbons — obtained by subjecting hydrocarbon gases to a sweetening process to convert mercaptans or to remove acidic impurities — consisting of hydrocarbons having carbon numbers predominantly in the range of C1 through C4 and boiling in the range of approximately -164°C to -0.5°C);
(z.2)
hydrocarbons, C1-C3 (a complex combination of hydrocarbons having carbon numbers predominantly in the range of C1 through C3 and boiling in the range of approximately -164°C to -42°C);
(z.3)
gases (petroleum), C1-C5, wet (a complex combination of hydrocarbons — obtained from the distillation of crude oil or the cracking of tower gas oil or both — consisting of hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(z.4)
gases (petroleum), secondary absorber off, fluidized catalytic cracker overhead fractionater (a complex combination — obtained from the fractionation of the overhead products that result from a catalytic cracking process in the fluidized catalytic cracker — consisting of hydrogen, nitrogen and hydrocarbons having carbon numbers predominantly in the range of C1 through C3);
(z.5)
gases (petroleum), alkylation feed (a complex combination of hydrocarbons — obtained from the catalytic cracking of gas oil — consisting of hydrocarbons having carbon numbers predominantly in the range of C3 through C4);
(z.6)
petroleum products, refinery gases (a complex combination consisting predominantly of hydrogen with small amounts of methane, ethane and propane);
(z.7)
gases (petroleum), refinery (a complex combination — obtained from various petroleum refining operations — consisting of hydrogen and hydrocarbons having carbon numbers predominantly in the range of C1 through C3);
(z.8)
gases (petroleum), hydrotreated sour kerosine depentanizer stabilizer off (a complex combination — obtained from the depentanizer stabilization of hydrotreated kerosine — consisting predominantly of hydrogen, methane, ethane and propane with small amounts of nitrogen, hydrogen sulfide, carbon monoxide and hydrocarbons having carbon numbers predominantly in the range of C4 through C5);
(z.9)
gases (petroleum), crude oil fractionation off (a complex combination of hydrocarbons — obtained from the fractionation of crude oil — consisting of saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(z.10)
gases (petroleum), fluidized catalytic cracker fractionation off (a complex combination — obtained from the fractionation of the overhead products that result from a fluidized catalytic cracking process — consisting of hydrogen, hydrogen sulfide, nitrogen and hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(z.11)
gases (petroleum), heavy distillate hydrotreater desulfurization stripper off (a complex combination — stripped from the liquid product that results from a heavy distillate hydrotreater desulfurization process — consisting of hydrogen, hydrogen sulfide and saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(z.12)
gases (petroleum), preflash tower off, crude distillation (a complex combination — produced from the first tower used in the distillation of crude oil — consisting of nitrogen and saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C5);
(z.13)
gases (petroleum), straight-run stabilizer off (a complex combination of hydrocarbons — obtained from the fractionation of the liquid produced from the first tower used in the distillation of crude oil — consisting of saturated aliphatic hydrocarbons having carbon numbers predominantly in the range of C1 through C4);
(z.14)
tail gas (petroleum), catalytic hydrodesulfurized naphtha separator (a complex combination of hydrocarbons — obtained from the catalytic hydrodesulfurization of naphtha — consisting of hydrogen, methane, ethane and propane);
(z.15)
gases (petroleum), C3-C4 (a complex combination of hydrocarbons — obtained from the distillation of products that result from the cracking of crude oil — consisting of hydrocarbons having carbon numbers in the range of C3 through C4, predominantly propane and propene, and boiling in the range of approximately -51°C to -1°C);
(z.16)
gases (petroleum), C3-C4, isobutane-rich (a complex combination of hydrocarbons — obtained from the distillation of saturated and unsaturated hydrocarbons having carbon numbers predominantly in the range of C3 through C6, predominantly butane and isobutane — consisting of saturated and unsaturated hydrocarbons having carbon numbers in the range of C3 through C4, predominantly isobutane);
(z.17)
gases (petroleum), C4-rich (a complex combination of hydrocarbons — obtained from the distillation of products that result from a catalytic fractionation process — consisting of aliphatic hydrocarbons having carbon numbers in the range of C3 through C5, predominantly C4); and
(z.18)
hydrocarbons, C1-C4, debutanizer fraction (a complex combination of hydrocarbons — obtained from a debutanizing process — having carbon numbers in the range of C1 through C4);
(z.19)
petroleum gases, liquefied (a complex combination of hydrocarbons — obtained from the distillation of crude oil — consisting of hydrocarbons having carbon numbers predominantly in the range of C3 through C7 and boiling in the range of approximately -40°C to 80°C); and
(z.20)
petroleum gases, liquefied, sweetened (a complex combination of hydrocarbons — obtained by subjecting liquefied petroleum gases to a sweetening process to convert mercaptans or to remove acidic impurities — consisting of hydrocarbons having carbon numbers predominantly in the range of C3 through C7 and boiling in the range of approximately -40°C to 80°C).
118
Hexanedioic acid, bis(2-ethylhexyl) ester, which has the molecular formula C22H42O4
119
2-Naphthalenol, 1-[[4-(phenylazo)phenyl]azo]-, which has the molecular formula C22H16N4O
120
Fuel Oil No. 2
121
Natural gas condensates (a complex combination of hydrocarbons primarily in the carbon range of C5 to C15 that are condensed during production at a well head, in a natural gas processing plant, natural gas pipeline or straddle plant), including any of their liquid distillates that are primarily in the carbon range of C5 to C15
122
Phenol, 5-chloro-2-(2,4-dichlorophenoxy)-, which has the molecular formula C12H7Cl3O2
123
Acetamide, N-[4-[(2-hydroxy-5-methylphenyl)azo]phenyl]-, which has the molecular formula C15H15N3O2
124
Cobalt and soluble cobalt compounds
125
N,N′-mixed phenyl and tolyl derivatives of 1,4-benzenediamine
126
Selenium and its compounds
127
Benzene, 1,1′-methylenebis[4-isocyanato-, which has the molecular formula C15H10N2O2
128
Benzene, 1,1′-methylenebis[2-isocyanato-, which has the molecular formula C15H10N2O2
129
Benzene, 1-isocyanato-2-[(4-isocyanatophenyl)methyl]-, which has the molecular formula C15H10N2O2
130
Benzene, 1,1′-methylenebis[isocyanato- (non-isomeric-specific), which has the molecular formula C15H10N2O2
131
Isocyanic acid, polymethylenepolyphenylene ester, which has the molecular formula C15H10N2O2•[C8H5NO]n in which 0≤n≤4
132
Plastic manufactured items
1999, c. 33, Sch. 1
SOR/2000-109
SOR/2001-1, 147
Canada Gazette Part II, err.(F), Volume 135, page 382