List of refrigerants
This is a list of refrigerants, sorted by their ASHRAE-designated numbers, commonly known as R numbers. Many modern refrigerants are human-made halogenated gases, especially fluorinated gases and chlorinated gases, that are frequently referred to as Freon (a registered trademark of Chemours).
Numbering scheme
[edit]According to ASHRAE standard 34, the R-number of a chemical refrigerant is assigned systematically according to its molecular structure and has between two and four digits. If there are carbon-carbon multiple bonds, there are four digits in all: the number of these bonds is the first digit and the number of carbon atoms minus one (C-1) is next. If there is more than one carbon atom but no multiple bonds, there are three digits, and the number of carbon atoms minus one is the first digit. If there is only one carbon atom, then there are only two digits. The last two digits are always the number of hydrogen atoms plus one (H+1), followed by the number of fluorine atoms. Any other atoms attached to the carbons are assumed to be chlorine atoms. For example, R-22 has one carbon atom, one hydrogen atom (2−1 = 1), two fluorine atoms, and one chlorine atom (4−2−1 = 1), so it is chlorodifluoromethane, while R-134 has two carbon atoms (2−1 = 1), two hydrogen atoms (3−1 = 2), four fluorine atoms, and no chlorine atoms (6−2−4 = 0), so it is one of the tetrafluoroethanes. This basic scheme is modified as follows:
- Capital letters "B" and "I" are suffixed, together with atom counts, if chlorine atoms have been replaced with bromine or iodine.
- If there are two carbons, the isomer without suffix is the most symmetrical; after this, lower-case suffixed letters "a", "b", ..., are added, moving forwards through the alphabet as symmetry decreases.
- If there are more than two carbons, a more complex system of suffixed letters and possibly numbers is used to distinguish isomers, when necessary.
- The suffixes "(Z)" and "(E)" may be used to differentiate (Z)- and (E)- (cis- and trans-) isomers.
- For larger molecules, numerical "digits" exceeding 9 may occur; in this case, these numbers are separated by dashes.
- For a cyclic carbon skeleton, the prefixed capital letter "C" is used.
- For an oxygen-containing refrigerant (an ether), the prefixed capital letter "E" is used.[1]: §4
There are separate numbering schemes for zeotropic and azeotropic blends, organic chemicals which don't fit into the scheme above, and inorganic chemicals:
- Zeotropic blends are numbered starting with 400. Suffixed capital letters "A", "B", ... may be used to distinguish different blends with the same constitutents.
- Azeotropic blends are numbered similarly to zeotropic blends, but starting with 500.
- Other organic chemicals may be numbered starting with 600. Suffixed lowercase letters "a", "b", ..., may be used to distinguish isomers.
- Inorganic chemicals are given numbers equalling 700 plus their molecular weight, if the weight is less than 100, or 7000 plus the molecular weight otherwise. Suffixed capital letters "A", "B", ... may be used to distinguish different chemicals with the same molecular weight.[1]: §4
Columns
[edit]The table is sortable by each of the following refrigerant properties (scroll right or reduce magnification to view more properties):
- Type/prefix (see legends)
- ASHRAE number
- IUPAC chemical name
- molecular formula
- CAS registry number / blend name
- Atmospheric lifetime in years
- Semi-empirical ozone depletion potential, ODP (normalized to be 1 for R-11)
- Net global warming potential, GWP, over a 100-year time horizon (normalized to be 1 for R-744, carbon dioxide)
- Occupational exposure limit/permissible exposure limit in parts per million (volume per volume) over a time-weighted average (TWA) concentration for a normal eight-hour work day and a 40-hour work week
- ASHRAE 34 safety group in toxicity & flammability (in air @ 60 °C, 101.3 kPa) classing (see legends)
- Refrigerant concentration limit / immediately dangerous to life or health in parts per million (volume per volume) and grams per cubic meter
- Molecular mass in atomic mass units
- Normal boiling points for pure substances, bubble and dew points for zeotropic blends, or normal boiling point and azeotropic temperature for the azeotropic blends, at 101,325 Pa (1 atmosphere) and in degrees Celsius
- Critical temperature in degrees Celsius
- Absolute critical pressure in kilopascals
Since over 100,000 refrigerant blends are possible,[2] this list should only have notable refrigerants and refrigerant blends.
List
[edit]Type | ASHRAE number |
IUPAC chemical name | Molecular formula |
CAS no/ blend name |
Atmospheric lifetime (years) |
Semi- empirical ODP (R-11 = 1) |
Net GWP 100-yr (R-744 = 1) |
OEL/PEL ppm (v/v) & ASHRAE 34 safety group |
RCL/IDLH (ppm v/v, followed by g/m3) |
Molecular mass u |
Boiling, or bubble/dew /azeotropic point(s) °C |
Critical temp. °C |
Critical pressure, absolute kPa | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
PCC | R-10 | Carbon tetrachloride (Tetrachloromethane) | CCl4 | 56-23-5 | 26[3][4] | 0.73[4] | 1,400[5] | 100? B1[6] | 153.8[7] | 76.72[8] | 283.35[9] | 4,560[9] | |||
CFC | R-11 | Trichlorofluoromethane | CCl3F | 75-69-4 | 45[3][4] | 1.0[4] | 4,660[10] | 1,000[11] A1[11] | 1,100[11] | 6.2[11] | 137.4[7] | 23.77[8] | 197.96[9] | 4,408[9] | |
CFC | R-12 | Dichlorodifluoromethane | CCl2F2 | 75-71-8 | 100[3][4] | 1.0[4] | 10,200[10] | 1,000[11] A1[11] | 18,000[11] | 90[11] | 120.9[7] | −29.8[8] | 111.97[9] | 4,136[9] | |
H | R-12B1 | Bromochlorodifluoromethane | CBrClF2 or CF2ClBr | 353-59-3 | 16[3][4] | 7.1[4] | 1,750[5] | 165.4[7] | −3.7[8] | 153.8[9] | 4,102[9] | ||||
H | R-12B2 | Dibromodifluoromethane | CBr2F2 | 75-61-6 | 2.9[4] | 1.7[4] | 209.8[7] | 22.8[8] | 198.11[9] | 4,130[9] | |||||
CFC | R-13 | Chlorotrifluoromethane | CClF3 | 75-72-9 | 640[3] | 1[12] | 13,900[10] | 1,000[11] A1[11] | 40,000? | 200? | 104.5[7] | −81.5[8] | 28.73[9] | 3,877[9] | |
H | R-13B1 | Bromotrifluoromethane | CBrF3 or CF3Br | 75-63-8 | 65[3][4] | 16[4] | 6,290[5] | 1,000[11] A1[11] | 148.9[7] | −57.75[8] | 67[9] | 3,964[9] | |||
H | R-13I1 | Trifluoroiodomethane | CF3I | 2314-97-8 | 500[13] A1[13] | 195.9[13] | −21.9[13] | ||||||||
PFC | R-14 | Tetrafluoromethane | CF4 | 75-73-0 | 50,000[3] | 0[14] | 7,390[3] | 1,000[11] A1[11] | 110,000[11] | 400[11] | 88[7] | −127.8[8] | −45.64[9] | 3,750[9] | |
HCC | R-20 | Chloroform (Trichloromethane) | CHCl3 | 67-66-3 | 0.51[3] | 31[3] | 119.4[7] | 61.2[8] | 262.35[9] | 5,480[9] | |||||
HCFC | R-21 | Dichlorofluoromethane | CHFCl2 | 75-43-4 | 1.7[4] | 0.04[15] | 148[5] | 100? B1[11] | 102.9[7] | 8.92[8] | 178.45[9] | 5,180[9] | |||
HCFC | R-22 | Chlorodifluoromethane | CHClF2 | 75-45-6 | 12.0[3][4] | 0.055[4][16] | 1,760[5] | 1,000[11] A1[11] | 59,000[11] | 210[11] | 86.5[7] | −40.7[8] | 96.14[9] | 4,990[9] | |
H | R-22B1 | Bromodifluoromethane | CHBrF2 or CHF2Br | 1511-62-2 | 5.8[4] | 0.74[12] | 404[4] | 130.9[7] | −14.6[8] | 138.83[9] | 5,132[9] | ||||
HFC | R-23 | Trifluoromethane (Fluoroform) | CHF3 | 75-46-7 | 270[3] | 0[14] | 12,400[5] | 1,000[11] A1[11] | 41,000[11] | 120[11] | 70[7] | −82.1[8] | 25.92[9] | 4,836[9] | |
HCC | R-30 | Dichloromethane (Methylene chloride) | CH2Cl2 | 75-09-2 | 0.38[3] | 0[17] | 8.7[3] | 100? B2[11] | 84.9[7] | 39.6[8] | 235.15[9] | 6,080[9] | |||
HCFC | R-31 | Chlorofluoromethane | CH2FCl | 593-70-4 | 0.02[15] | 350? B2? | 10,000? | 20? | 68.5[7] | −9.1[8] | 151.76[9] | 5,131[9] | |||
HFC | R-32 | Difluoromethane | CH2F2 | 75-10-5 | 4.9[3] | 0[14] | 677[5] | 1,000[11] A2L[18] | 36,000[11] | 77[11] | 52[7] | −52[8][19] | 78.11[9] | 5,782[9] | |
HCC | R-40 | Chloromethane | CH3Cl | 74-87-3 | 1.0[3][4] | 0.02[4] | 13[3] | 100? B2[11] | 50.5[7] | −24.2[8] | 143.05[9] | 6,660[9] | |||
HFC | R-41 | Fluoromethane | CH3F | 593-53-3 | 2.4[3] | 0[14] | 116[5] | 34[7] | −78.2[8] | 44.13[9] | 5,897[9] | ||||
HC | R-50 | Methane | CH4 | 74-82-8 | 12 ± 3[3] | <0(smog)[20] | 28[5] | 1,000[11] A3[11] | 9,000? | 9? | 16.04[7] | −162±2[8] | −82.3[21] | 4,640[21] | |
PCC | R-110 | Hexachloroethane | C2Cl6 | 67-72-1 | 236.7[7] | 431.28[9] | 3,937[9] | ||||||||
CFC | R-111 | Pentachlorofluoroethane | C2FCl5 | 354-56-3 | 1[12] | 220.3[7] | 135[8] | ||||||||
CFC | R-112 | 1,1,2,2-Tetrachloro-1,2-difluoroethane | C2F2Cl4 | 76-12-0 | 1[12] | 203.8[7] | |||||||||
CFC | R-112a | 1,1,1,2-Tetrachloro-2,2-difluoroethane | C2F2Cl4 | 76-11-9 | 1[a] | 203.8[7] | |||||||||
CFC | R-113 | 1,1,2-Trichloro-1,2,2-trifluoroethane | C2F3Cl3 | 76-13-1 | 85[3][4] | 1.0[4] | 5,820[10] | 1,000[11] A1[11] | 2,600[11] | 20[11] | 187.4[7] | 48[19] | 214.06[9] | 3,392[9] | |
CFC | R-113a | 1,1,1-Trichloro-2,2,2-trifluoroethane | C2F3Cl3 | 354-58-5 | 1[a] | 187.4[7] | |||||||||
CFC | R-114 | 1,2-Dichlorotetrafluoroethane | C2F4Cl2 | 76-14-2 | 300[3][4] | 1.0[4] | 8,590[10] | 1,000[11] A1[11] | 20,000[11] | 140[11] | 170.9[7] | 3.5[8] | 145.68[9] | 3,257[9] | |
CFC | R-114a | 1,1-Dichlorotetrafluoroethane | C2F4Cl2 | 374-07-2 | 1[a] | 170.9[7] | |||||||||
H | R-114B2 | Dibromotetrafluoroethane | C2F4Br2 or CF2BrCF2Br | 124-73-2 | 20[3][4] | 11.5[4] | 1,470[5] | 259.8[7] | 47.3[8] | 214.67[9] | |||||
CFC | R-115 | Chloropentafluoroethane | C2F5Cl | 76-15-3 | 1,700[3][4] | 0.44[4] | 7,670[5] | 1,000[11] A1[11] | 120,000[11] | 760[11] | 154.5[7] | −39.1[8] | 79.95[9] | 3,120[9] | |
PFC | R-116 | Hexafluoroethane | C2F6 | 76-16-4 | 10,000[3] | 0[14] | 12,200[3] | 1,000[11] A1[11] | 97,000[11] | 550[11] | 138[7] | −78.2[8] | 19.88[9] | 3,042[9] | |
HCC | R-120 | Pentachloroethane | C2HCl5 | 76-01-7 | 202.3[7] | ||||||||||
HCFC | R-121 | 1,1,2,2-Tetrachloro-1-fluoroethane | C2HFCl4 | 354-14-3 | 0.01–0.04[15] | 185.8[7] | |||||||||
HCFC | R-121a | 1,1,1,2-Tetrachloro-2-fluoroethane | C2HFCl4 | 354-11-0 | 0.01–0.04[b] | 185.8[7] | |||||||||
HCFC | R-122 | 1,1,2-Trichloro-2,2-difluoroethane | C2HF2Cl3 | 354-21-2 | 0.02–0.08[15] | 169.4[7] | |||||||||
HCFC | R-122a | 1,1,2-Trichloro-1,2-difluoroethane | C2HF2Cl3 | 354-15-4 | 0.02–0.08[b] | 169.4[7] | |||||||||
HCFC | R-122b | 1,1,1-Trichloro-2,2-difluoroethane | C2HF2Cl3 | 354-12-1 | 0.02–0.08[b] | 169.4[7] | |||||||||
HCFC | R-123 | 2,2-Dichloro-1,1,1-trifluoroethane | C2HF3Cl2 | 306-83-2 | 1.3[3][4] | 0.02[4] | 79[5] | 50[11] B1[11] | 9,100[11] | 57[11] | 152.9[7] | 27.6[8] | 183.68[9] | 3,662[9] | |
HCFC | R-123a | 1,2-Dichloro-1,1,2-trifluoroethane | C2HF3Cl2 | 354-23-4 | 1.3?[c] | 0.02?[b] | 77?[c] | 152.9[7] | |||||||
HCFC | R-123b | 1,1-Dichloro-1,2,2-trifluoroethane | C2HF3Cl2 | 812-04-4 | 1.3?[c] | 0.02?[b] | 77?[c] | 152.9[7] | |||||||
HCFC | R-124 | 1-Chloro-1,2,2,2-tetrafluoroethane | C2HF4Cl | 2837-89-0 | 5.8[3][4] | 0.022[4] | 527[5] | 1,000[11] A1[11] | 10,000[11] | 56[11] | 136.5[7] | −12[19] | 122.28[9] | 3,624[9] | |
HCFC | R-124a | 1-Chloro-1,1,2,2-tetrafluoroethane | C2HF4Cl | 354-25-6 | 5.8?[c] | 0.022?[b] | 609?[c] | 136.5[7] | |||||||
HFC | R-125 | Pentafluoroethane | C2HF5 | 354-33-6 | 29[3] | 0[14] | 3,170[5] | 1,000[11] A1[11] | 75,000[11] | 370[11] | 120[7] | −48.5[8] | 66.18[9] | 3,629[9] | |
HFC | R-E125 | Pentafluorodimethyl ether | C2F5OC2F5 | 3822-68-2 | 136[3] | 0[d] | 14,900[3] | 136[7] | |||||||
HCC | R-130 | 1,1,2,2-Tetrachloroethane | C2H2Cl4 | 79-34-5 | 167.8[7] | 146.5[8] | 388.06[9] | 5,840[9] | |||||||
HCC | R-130a | 1,1,1,2-Tetrachloroethane | C2H2Cl4 | 630-20-6 | 167.8[7] | 130.5[8] | |||||||||
HCFC | R-131 | 1,1,2-Trichloro-2-fluoroethane | C2H2FCl3 | 359-28-4 | 0.007–0.05[15] | 151.4[7] | |||||||||
HCFC | R-131a | 1,1,2-Trichloro-1-fluoroethane | C2H2FCl3 | 811-95-0 | 0.007–0.05[b] | 151.4[7] | |||||||||
HCFC | R-131b | 1,1,1-Trichloro-2-fluoroethane | C2H2FCl3 | 2366-36-1 | 0.007–0.05[b] | 151.4[7] | |||||||||
HCFC | R-132 | 1,2-Dichloro-1,2-difluoroethane | C2H2F2Cl2 | 431-06-1 | 0.008–0.05[b] | 134.9[7] | |||||||||
HCFC | R-132a | 1,1-Dichloro-2,2-difluoroethane | C2H2F2Cl2 | 471-43-2 | 0.008–0.05[b] | 134.9[7] | |||||||||
HCFC | R-132b | 1,2-Dichloro-1,1-difluoroethane | C2H2F2Cl2 | 1649-08-7 | 0.008–0.05[15] | 134.9[7] | |||||||||
HCFC | R-132c | 1,1-Dichloro-1,2-difluoroethane | C2H2F2Cl2 | 1842-05-3 | 0.008–0.05[b] | 134.9[7] | |||||||||
H | R-132bB2 | 1,2-Dibromo-1,1-difluoroethane | C2H2Br2F2 | 75-82-1 | 0.2–1.5[12] | 223.8[7] | |||||||||
HCFC | R-133 | 1-Chloro-1,2,2-Trifluoroethane | C2H2F3Cl | 431-07-2 | 0.02–0.06[b] | 118.5[7] | |||||||||
HCFC | R-133a | 1-Chloro-2,2,2-Trifluoroethane | C2H2F3Cl | 75-88-7 | 0.02–0.06[15] | 118.5[7] | |||||||||
HCFC | R-133b | 1-Chloro-1,1,2-Trifluoroethane | C2H2F3Cl | 421-04-5 | 0.02–0.06[b] | 118.5[7] | |||||||||
HFC | R-134 | 1,1,2,2-Tetrafluoroethane | C2H2F4 | 359-35-3 | 9.6[3] | 0[14] | 1,120[5] | 102[7] | |||||||
HFC | R-134a | 1,1,1,2-Tetrafluoroethane | C2H2F4 | 811-97-2 | 14[3] | 0[14][17] | 1,300[5] | 1,000[11] A1[11] | 50,000[11] | 210[11] | 102[7] | −26.3[8] | 101.06[9] | 4,059[9] | |
HFC | R-E134 | Bis(difluoromethyl)ether | C2H2F4O | 1691-17-4 | 26[3] | 0[d] | 6,320[3] | 118[7] | |||||||
HCC | R-140 | 1,1,2-Trichloroethane | C2H3Cl3 | 79-00-5 | 133.4[7] | 112.5±2.5[8] | |||||||||
HCC | R-140a | 1,1,1-Trichloroethane (Methyl chloroform) | C2H3Cl3 or CH3CCl3 | 71-55-6 | 5.0[3][4] | 0.12[4] | 160[5] | 133.4[7] | 74[8] | ||||||
HCFC | R-141 | 1,2-Dichloro-1-fluoroethane | C2H3FCl2 | 430-57-9 | 9.3?[c] | 0.12?[b] | 725?[c] | 116.9[7] | |||||||
H | R-141B2 | 1,2-Dibromo-1-fluoroethane | C2H3Br2F | 358-97-4 | 0.1–1.7[12] | 205.9[7] | |||||||||
HCFC | R-141a | 1,1-Dichloro-2-fluoroethane | C2H3FCl2 | 430-53-5 | 9.3?[c] | 0.12?[b] | 725?[c] | 116.9[7] | |||||||
HCFC | R-141b | 1,1-Dichloro-1-fluoroethane | C2H3FCl2 | 1717-00-6 | 9.3[3][4] | 0.12[4] | 725[3] | 500[11] A2? | 2,600[11] | 12[11] | 116.9[7] | 32[8][19] | 204.2[9] | 4,250[9] | |
HCFC | R-142a | 1-Chloro-1,2-difluoroethane | C2H3F2Cl | 338-64-7 | 17.9?[c] | 0.07?[b] | 2,310?[c] | 100.5[7] | |||||||
HCFC | R-142b | 1-Chloro-1,1-difluoroethane | C2H3F2Cl | 75-68-3 | 17.9[3][4] | 0.07[4] | 2,310[3] | 1,000[11] A2[11] | 20,000[11] | 83[11] | 100.5[7] | −10[8][19] | 137.1[9] | 4,123[9] | |
HFC | R-143 | 1,1,2-Trifluoroethane | C2H3F3 | 430-66-0 | 3.5[3] | 0[14] | 328[5] | 84[7] | |||||||
HFC | R-143a | 1,1,1-Trifluoroethane | C2H3F3 | 420-46-2 | 52[3] | 0[14] | 4,800[5] | 1,000[11] A2L[18] | 21,000[11] | 70[11] | 84[7] | −47.6[8] | 72.89[9] | 3,776[9] | |
HFC | R-E143a | Methyl trifluoromethyl ether | C2H3F3O | 421-14-7 | 4.3[3] | 0[d] | 756[3] | 100[7] | |||||||
HCC | R-150 | 1,2-Dichloroethane | C2H4Cl2 | 107-06-2 | 99[7] | 84[8] | 292.83[9] | 5,370[9] | |||||||
HCC | R-150a | 1,1-Dichloroethane | C2H4Cl2 | 75-34-3 | 99[7] | 57.2[8] | 249.83[9] | 5,070[9] | |||||||
HCFC | R-151 | 1-Chloro-2-fluoroethane | C2H4ClF | 762-50-5 | 82.5[7] | ||||||||||
HCFC | R-151a | 1-Chloro-1-fluoroethane | C2H4ClF | 1615-75-4 | 82.5[7] | ||||||||||
HFC | R-152 | 1,2-Difluoroethane | C2H4F2 | 624-72-6 | 0.60[3] | 0[d] | 16[5] | 66[7] | |||||||
HFC | R-152a | 1,1-Difluoroethane | C2H4F2 | 75-37-6 | 1.4[3] | 0[14][17] | 138[5] | 1,000[11] A2[11] | 12,000[11] | 32[11] | 66[7] | −25[8][19] | 113.26[9] | 4,517[9] | |
HCC | R-160 | Chloroethane (ethyl chloride) | C2H5Cl | 75-00-3 | 64.5[7] | 12.3[8] | 187.28[9] | 5,268[9] | |||||||
HFC | R-161 | Fluoroethane | C2H5F | 353-36-6 | 0.3[3] | 0[d] | 4[5] | 48.1[7] | 102.22[9] | 4,702[9] | |||||
HC | R-170 | Ethane | C2H6 or CH3CH3 | 74-84-0 | 58 days[22] | < 0(smog)[e] | 5.5[3]–10.2[22] | 1,000[11] A3[11] | 7,000[11] | 8.7[11] | 30.07[7] | −88.6[8][23] | 32.18[9] | 4,872[9] | |
HC | R-E170 | Dimethyl ether | CH3OCH3 | 115-10-6 | 0.015[3] | < 0(smog)[e] | 1[3] | 1,000[11] A3[11] | 8,500[11] | 16[11] | 46.1[7] | −24[8] | |||
CFC | R-211 | 1,1,1,2,2,3,3-Heptachloro-3-fluoropropane | C3FCl7 | 422-78-6 | 1[12] | 303.2[7] | |||||||||
CFC | R-212 | Hexachlorodifluoropropane | C3F2Cl6 | 134452-44-1 | 1[12] | 286.7[7] | |||||||||
CFC | R-213 | 1,1,1,3,3-Pentachloro-2,2,3-trifluoropropane | C3F3Cl5 | 2354-06-5 | 1[12] | 270.3[7] | |||||||||
CFC | R-214 | 1,2,2,3-Tetrachloro-1,1,3,3-tetrafluoropropane | C3F4Cl4 | 2268-46-4 | 1[12] | 253.8[7] | |||||||||
CFC | R-215 | 1,1,1-Trichloro-2,2,3,3,3-pentafluoropropane | C3F5Cl3 | 4259-43-2 | 1[12] | 237.4[7] | |||||||||
CFC | R-216 | 1,2-Dichloro-1,1,2,3,3,3-hexafluoropropane | C3F6Cl2 | 661-97-2 | 1[12] | 220.9[7] | |||||||||
CFC | R-216ca | 1,3-Dichloro-1,1,2,2,3,3-hexafluoropropane | C3F6Cl2 | 662-01-1 | 1[a] | 220.9[7] | |||||||||
CFC | R-217 | 1-Chloro-1,1,2,2,3,3,3-heptafluoropropane | C3F7Cl | 422-86-6 | 1[12] | 204.5[7] | |||||||||
CFC | R-217ba | 2-Chloro-1,1,1,2,3,3,3-heptafluoropropane | C3F7Cl | 76-18-6 | 1[a] | 204.5[7] | |||||||||
PFC | R-218 | Octafluoropropane | C3F8 | 76-19-7 | 2,600[3] | 0[14] | 8,830[3] | 1,000[11] A1[11] | 90,000[11] | 690[11] | 188[7] | −36.7[8] | |||
HCFC | R-221 | 1,1,1,2,2,3-Hexachloro-3-fluoropropane | C3HFCl6 | 422-26-4 | 0.015–0.07[15] | 268.7[7] | |||||||||
HCFC | R-222 | Pentachlorodifluoropropane | C3HF2Cl5 | 134237-36-8 | 0.01–0.09[b] | 252.3[7] | |||||||||
HCFC | R-222c | 1,1,1,3,3-Pentachloro-2,2-difluoropropane | C3HF2Cl5 | 422-49-1 | 0.01–0.09[15] | 252.3[7] | |||||||||
HCFC | R-223 | Tetrachlorotrifluoropropane | C3HF3Cl4 | 134237-37-9 | 0.01–0.08[b] | 235.8[7] | |||||||||
HCFC | R-223ca | 1,1,3,3-Tetrachloro-1,2,2-trifluoropropane | C3HF3Cl4 | 422-52-6 | 0.01–0.08[15] | 235.8[7] | |||||||||
HCFC | R-223cb | 1,1,1,3-Tetrachloro-2,2,3-trifluoropropane | C3HF3Cl4 | 422-50-4 | 0.01–0.08[b] | 235.8[7] | |||||||||
HCFC | R-224 | Trichlorotetrafluoropropane | C3HF4Cl3 | 134237-38-0 | 0.01–0.09[b] | 219.4[7] | |||||||||
HCFC | R-224ca | 1,3,3-Trichloro-1,1,2,2-tetrafluoropropane | C3HF4Cl3 | 422-54-8 | 0.01–0.09[15] | 219.4[7] | |||||||||
HCFC | R-224cb | 1,1,3-Trichloro-1,2,2,3-tetrafluoropropane | C3HF4Cl3 | 422-53-7 | 0.01–0.09[b] | 219.4[7] | |||||||||
HCFC | R-224cc | 1,1,1-Trichloro-2,2,3,3-tetrafluoropropane | C3HF4Cl3 | 422-51-5 | 0.01–0.09[b] | 219.4[7] | |||||||||
HCFC | R-225 | Dichloropentafluoropropane | C3HF5Cl2 | 127564-92-5 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225aa | 2,2-Dichloro-1,1,1,3,3-pentafluoropropane | C3HF5Cl2 | 128903-21-9 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225ba | 2,3-Dichloro-1,1,1,2,3-pentafluoropropane | C3HF5Cl2 | 422-48-0 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225bb | 1,2-Dichloro-1,1,2,3,3-pentafluoropropane | C3HF5Cl2 | 422-44-6 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225ca | 3,3-Dichloro-1,1,1,2,2-pentafluoropropane | C3HF5Cl2 | 422-56-0 | 1.9[3][4] | 0.02[4] | 127[5] | 202.9[7] | |||||||
HCFC | R-225cb | 1,3-Dichloro-1,1,2,2,3-pentafluoropropane | C3HF5Cl2 | 507-55-1 | 5.8[3][4] | 0.03[4] | 525[5] | 202.9[7] | |||||||
HCFC | R-225cc | 1,1-Dichloro-1,2,2,3,3-pentafluoropropane | C3HF5Cl2 | 13474-88-9 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225da | 1,2-Dichloro-1,1,3,3,3-pentafluoropropane | C3HF5Cl2 | 431-86-7 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225ea | 1,3-Dichloro-1,1,2,3,3-pentafluoropropane | C3HF5Cl2 | 136013-79-1 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-225eb | 1,1-Dichloro-1,2,3,3,3-pentafluoropropane | C3HF5Cl2 | 111512-56-2 | 0.01–0.05[b] | 202.9[7] | |||||||||
HCFC | R-226 | Chlorohexafluoropropane | C3HF6Cl | 134308-72-8 | 0.02–0.1[b] | 186.5[7] | |||||||||
HCFC | R-226ba | 2-Chloro-1,1,1,2,3,3-hexafluoropropane | C3HF6Cl | 51346-64-6 | 0.02–0.1[b] | 186.5[7] | |||||||||
HCFC | R-226ca | 3-Chloro-1,1,1,2,2,3-hexafluoropropane | C3HF6Cl | 422-57-1 | 0.02–0.1[b] | 186.5[7] | |||||||||
HCFC | R-226cb | 1-Chloro-1,1,2,2,3,3-hexafluoropropane | C3HF6Cl | 422-55-9 | 0.02–0.1[b] | 186.5[7] | |||||||||
HCFC | R-226da | 2-Chloro-1,1,1,3,3,3-hexafluoropropane | C3HF6Cl | 431-87-8 | 0.02–0.1[15] | 186.5[7] | |||||||||
HCFC | R-226ea | 1-Chloro-1,1,2,3,3,3-hexafluoropropane | C3HF6Cl | 359-58-0 | 0.02–0.1[b] | 186.5[7] | |||||||||
HFC | R-227ca | 1,1,2,2,3,3,3-Heptafluoropropane | C3HF7 | 2252-84-8 | 0[d] | 170[7] | |||||||||
HFC | R-227ca2 | Trifluoromethyl 1,1,2,2-tetrafluoroethyl ether | C3HF7O | 2356-61-8 | 0[d] | 186[7] | |||||||||
HFC | R-227ea | 1,1,1,2,3,3,3-Heptafluoropropane | C3HF7 | 431-89-0 | 34.2[3] | 0[14][17] | 3,350[5] | 1,000[11] A1[11] | 84,000[11] | 580[11] | 170[7] | −16.4[8] | 102.8[9] | 2,980[9] | |
HFC | R-227me | Trifluoromethyl 1,2,2,2-tetrafluoroethyl ether | C3HF7O | 2356-62-9 | 11[4] | 0[d] | 1,540[4] | 186[7] | |||||||
HCFC | R-231 | Pentachlorofluoropropane | C3H2FCl5 | 134190-48-0 | 0.05–0.09[15] | 234.3[7] | |||||||||
HCFC | R-232 | Tetrachlorodifluoropropane | C3H2F2Cl4 | 134237-39-1 | 0.008–0.1[15] | 217.9[7] | |||||||||
HCFC | R-232ca | 1,1,3,3-Tetrachloro-2,2-difluoropropane | C3H2F2Cl4 | 1112-14-7 | 0.008–0.1[b] | 217.9[7] | |||||||||
HCFC | R-232cb | 1,1,1,3-Tetrachloro-2,2-difluoropropane | C3H2F2Cl4 | 677-54-3 | 0.008–0.1[b] | 217.9[7] | |||||||||
HCFC | R-233 | Trichlorotrifluoropropane | C3H2F3Cl3 | 134237-40-4 | 0.007–0.23[15] | 201.4[7] | |||||||||
HCFC | R-233ca | 1,1,3-Trichloro-2,2,3-trifluoropropane | C3H2F3Cl3 | 131221-36-8 | 0.007–0.23[b] | 201.4[7] | |||||||||
HCFC | R-233cb | 1,1,3-Trichloro-1,2,2-trifluoropropane | C3H2F3Cl3 | 421-99-8 | 0.007–0.23[b] | 201.4[7] | |||||||||
HCFC | R-233cc | 1,1,1-Trichloro-2,2,3-trifluoropropane | C3H2F3Cl3 | 131211-71-7 | 0.007–0.23[b] | 201.4[7] | |||||||||
HCFC | R-234 | Dichlorotetrafluoropropane | C3H2F4Cl2 | 127564-83-4 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234aa | 2,2-Dichloro-1,1,3,3-tetrafluoropropane | C3H2F4Cl2 | 17705-30-5 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234ab | 2,2-Dichloro-1,1,1,3-tetrafluoropropane | C3H2F4Cl2 | 149329-24-8 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234ba | 1,2-Dichloro-1,2,3,3-tetrafluoropropane | C3H2F4Cl2 | 425-94-5 | 0.01–0.28[15] | 184.9[7] | |||||||||
HCFC | R-234bb | 2,3-Dichloro-1,1,1,2-tetrafluoropropane | C3H2F4Cl2 | 149329-25-9 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234bc | 1,2-Dichloro-1,1,2,3-tetrafluoropropane | C3H2F4Cl2 | 149329-26-0 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234ca | 1,3-Dichloro-1,2,2,3-tetrafluoropropane | C3H2F4Cl2 | 70341-81-0 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234cb | 1,1-Dichloro-2,2,3,3-tetrafluoropropane | C3H2F4Cl2 | 4071-01-6 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234cc | 1,3-Dichloro-1,1,2,2-tetrafluoropropane | C3H2F4Cl2 | 422-00-4 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234cd | 1,1-Dichloro-1,2,2,3-tetrafluoropropane | C3H2F4Cl2 | 70192-63-1 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234da | 2,3-Dichloro-1,1,1,3-tetrafluoropropane | C3H2F4Cl2 | 146916-90-7 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234fa | 1,3-Dichloro-1,1,3,3-tetrafluoropropane | C3H2F4Cl2 | 76140-39-1 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-234fb | 1,1-Dichloro-1,3,3,3-tetrafluoropropane | C3H2F4Cl2 | 64712-27-2 | 0.01–0.28[b] | 184.9[7] | |||||||||
HCFC | R-235 | Chloropentafluoropropane | C3H2F5Cl | 134237-41-5 | 0.03–0.52[15] | 168.5[7] | |||||||||
HCFC | R-235ca | 1-Chloro-1,2,2,3,3-pentafluoropropane | C3H2F5Cl | 28103-66-4 | 0.03–0.52[b] | 168.5[7] | |||||||||
HCFC | R-235cb | 3-Chloro-1,1,1,2,3-pentafluoropropane | C3H2F5Cl | 422-02-6 | 0.03–0.52[b] | 168.5[7] | |||||||||
HCFC | R-235cc | 1-Chloro-1,1,2,2,3-pentafluoropropane | C3H2F5Cl | 679-99-2 | 0.03–0.52[b] | 168.5[7] | |||||||||
HCFC | R-235da | 2-Chloro-1,1,1,3,3-pentafluoropropane | C3H2F5Cl | 134251-06-2 | 0.03–0.52[b] | 168.5[7] | |||||||||
HCFC | R-235fa | 1-Chloro-1,1,3,3,3-pentafluoropropane | C3H2F5Cl | 677-55-4 | 0.03–0.52[b] | 168.5[7] | |||||||||
HFC | R-236cb | 1,1,1,2,2,3-Hexafluoropropane | C3H2F6 | 677-56-5 | 13.6[3] | 0[d] | 1,210[5] | 152[7] | −1.5 | ||||||
HFC | R-236ea | 1,1,1,2,3,3-Hexafluoropropane | C3H2F6 | 431-63-0 | 10.7[3] | 0[14] | 1,330[5] | 152[7] | 139.29[9] | 3,502[9] | |||||
HFC | R-236fa | 1,1,1,3,3,3-Hexafluoropropane | C3H2F6 | 690-39-1 | 240[3] | 0[14] | 8,060[5] | 1,000[11] A1[11] | 55,000[11] | 340[11] | 152[7] | −1.05±.35[8] | 124.92[9] | 3,200[9] | |
HFC | R-236me | 1,2,2,2-Tetrafluoroethyl difluoromethyl ether | C3H2F6O | 57041-67-5 | 5.8[4] | 0[d] | 989[4] | 168[7] | |||||||
HCFC | R-241 | Tetrachlorofluoropropane | C3H3FCl4 | 134190-49-1 | 0.004–0.09[15] | 199.9[7] | |||||||||
HCFC | R-242 | Trichlorodifluoropropane | C3H3F2Cl3 | 134237-42-6 | 0.005–0.13[15] | 183.4[7] | |||||||||
HCFC | R-243 | Dichlorotrifluoropropane | C3H3F3Cl2 | 134237-43-7 | 0.007–0.12[15] | 167[7] | |||||||||
HCFC | R-243ca | 1,3-Dichloro-1,2,2-trifluoropropane | C3H3F3Cl2 | 67406-68-2 | 0.007–0.12[b] | 167[7] | |||||||||
HCFC | R-243cb | 1,1-Dichloro-2,2,3-trifluoropropane | C3H3F3Cl2 | 70192-70-0 | 0.007–0.12[b] | 167[7] | |||||||||
HCFC | R-243cc | 1,1-Dichloro-1,2,2-trifluoropropane | C3H3F3Cl2 | 7125-99-7 | 0.007–0.12[b] | 167[7] | |||||||||
HCFC | R-243da | 2,3-Dichloro-1,1,1-trifluoropropane | C3H3F3Cl2 | 338-75-0 | 0.007–0.12[b] | 167[7] | |||||||||
HCFC | R-243ea | 1,3-Dichloro-1,2,3-trifluoropropane | C3H3F3Cl2 | 151771-08-3 | 0.007–0.12[b] | 167[7] | |||||||||
HCFC | R-243ec | 1,3-Dichloro-1,1,2-trifluoropropane | C3H3F3Cl2 | 149329-27-1 | 0.007–0.12[b] | 167[7] | |||||||||
HCFC | R-244 | Chlorotetrafluoropropane | C3H3F4Cl | 134190-50-4 | 0.009–0.14[15] | 150.5[7] | |||||||||
HCFC | R-244ba | 2-Chloro-1,2,3,3-tetrafluoropropane | C3H3F4Cl | 149329-28-2 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244bb | 2-Chloro-1,1,1,2-tetrafluoropropane | C3H3F4Cl | 421-73-8 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244ca | 3-Chloro-1,1,2,2-tetrafluoropropane | C3H3F4Cl | 679-85-6 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244cb | 1-Chloro-1,2,2,3-tetrafluoropropane | C3H3F4Cl | 67406-66-0 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244cc | 1-Chloro-1,1,2,2-tetrafluoropropane | C3H3F4Cl | 421-75-0 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244da | 2-Chloro-1,1,3,3-tetrafluoropropane | C3H3F4Cl | 19041-02-2 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244db | 2-Chloro-1,1,1,3-tetrafluoropropane | C3H3F4Cl | 117970-90-8 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244ea | 3-Chloro-1,1,2,3-tetrafluoropropane | C3H3F4Cl | 0.009–0.14[b] | 150.5[7] | ||||||||||
HCFC | R-244eb | 3-Chloro-1,1,1,2-tetrafluoropropane | C3H3F4Cl | 151771-09-4 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244ec | 1-Chloro-1,1,2,3-tetrafluoropropane | C3H3F4Cl | 149448-09-9 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244fa | 3-Chloro-1,1,1,3-tetrafluoropropane | C3H3F4Cl | 149329-29-3 | 0.009–0.14[b] | 150.5[7] | |||||||||
HCFC | R-244fb | 1-Chloro-1,1,3,3-tetrafluoropropane | C3H3F4Cl | 2730-64-5 | 0.009–0.14[b] | 150.5[7] | |||||||||
HFC | R-245ca | 1,1,2,2,3-Pentafluoropropane | C3H3F5 | 679-86-7 | 6.2[3] | 0[14] | 716[5] | 134[7] | 174.42[9] | 3,925[9] | |||||
HFC | R-245cb | Pentafluoropropane | C3H3F5 | 1814-88-6 | 0[d] | 134[7] | |||||||||
HFC | R-245ea | 1,1,2,3,3-Pentafluoropropane | C3H3F5 | 24270-66-4 | 0[d] | 134[7] | |||||||||
HFC | R-245eb | 1,1,1,2,3-Pentafluoropropane | C3H3F5 | 431-31-2 | 0[d] | 134[7] | |||||||||
HFC | R-245fa | 1,1,1,3,3-Pentafluoropropane | C3H3F5 | 460-73-1 | 7.6[3] | 0[14][17] | 858[5] | 300[11] B1[11] | 34,000[11] | 190[11] | 134[7] | 15[19] | 154.05[9] | 3,640[9] | |
HFC | R-245mc | Methyl pentafluoroethyl ether | C3H3F5O | 22410-44-2 | 0[d] | 150[7] | |||||||||
HFC | R-245mf | Difluoromethyl 2,2,2-trifluoroethyl ether | C3H3F5O | 1885-48-9 | 2.2[4] | 0[d] | 286[4] | 150[7] | |||||||
HFC | R-245qc | Difluoromethyl 1,1,2-trifluoroethyl ether | C3H3F5O | 69948-24-9 | 0[d] | 150[7] | |||||||||
HCFC | R-251 | Trichlorofluoropropane | C3H4FCl3 | 134190-51-5 | 0.001–0.01[15] | 165.4[7] | |||||||||
HCFC | R-252 | Dichlorodifluoropropane | C3H4F2Cl2 | 134190-52-6 | 0.005–0.04[15] | 149[7] | |||||||||
HCFC | R-252ca | 1,3-Dichloro-2,2-difluoropropane | C3H4F2Cl2 | 1112-36-3 | 0.005–0.04[b] | 149[7] | |||||||||
HCFC | R-252cb | 1,1-Dichloro-2,2-difluoropropane | C3H4F2Cl2 | 1112-01-2 | 0.005–0.04[b] | 149[7] | |||||||||
HCFC | R-252dc | 1,2-Dichloro-1,1-difluoropropane | C3H4F2Cl2 | 7126-15-0 | 0.005–0.04[b] | 149[7] | |||||||||
HCFC | R-252ec | 1,1-Dichloro-1,2-difluoropropane | C3H4F2Cl2 | 151771-10-7 | 0.005–0.04[b] | 149[7] | |||||||||
HCFC | R-253 | Chlorotrifluoropropane | C3H4F3Cl | 134237-44-8 | 0.003–0.03[15] | 132.5[7] | |||||||||
HCFC | R-253ba | 2-Chloro-1,2,3-trifluoropropane | C3H4F3Cl | 151771-11-8 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253bb | 2-Chloro-1,1,2-trifluoropropane | C3H4F3Cl | 69202-10-4 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253ca | 1-Chloro-2,2,3-trifluoropropane | C3H4F3Cl | 56758-54-4 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253cb | 1-Chloro-1,2,2-trifluoropropane | C3H4F3Cl | 70192-76-6 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253ea | 3-Chloro-1,1,2-trifluoropropane | C3H4F3Cl | 121612-65-5 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253eb | 1-Chloro-1,2,3-trifluoropropane | C3H4F3Cl | 151771-12-9 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253ec | 1-Chloro-1,1,2-trifluoropropane | C3H4F3Cl | 134251-05-1 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253fa | 3-Chloro-1,3,3-trifluoropropane | C3H4F3Cl | 0.003–0.03[b] | 132.5[7] | ||||||||||
HCFC | R-253fb | 3-Chloro-1,1,1-trifluoropropane | C3H4F3Cl | 460-35-5 | 0.003–0.03[b] | 132.5[7] | |||||||||
HCFC | R-253fc | 1-Chloro-1,1,3-trifluoropropane | C3H4F3Cl | 83124-56-5 | 0.003–0.03[b] | 132.5[7] | |||||||||
HFC | R-254cb | 1,1,2,2-Tetrafluoropropane | C3H4F4 | 40723-63-5 | 0[d] | 116.1[7] | |||||||||
HFC | R-254pc | Methyl 1,1,2,2-tetrafluoroethyl ether | C3H4F4O | 425-88-7 | 2.6[3] | 0[d] | 359[3] | 132.1[7] | |||||||
HCFC | R-261 | Dichlorofluoropropane | C3H5FCl2 | 134237-45-9 | 0.002–0.02[b] | 131[7] | |||||||||
HCFC | R-261ba | 1,2-Dichloro-2-fluoropropane | C3H5FCl2 | 420-97-3 | 0.002–0.02[15] | 131[7] | |||||||||
HCFC | R-262 | Chlorodifluoropropane | C3H5F2Cl | 134190-53-7 | 0.002–0.02[15] | 114.5[7] | |||||||||
HCFC | R-262ca | 1-Chloro-2,2-difluoropropane | C3H5F2Cl | 420-99-5 | 0.002–0.02[b] | 114.5[7] | |||||||||
HCFC | R-262fa | 3-Chloro-1,1-difluoropropane | C3H5F2Cl | 83124-57-6 | 0.002–0.02[b] | 114.5[7] | |||||||||
HCFC | R-262fb | 1-Chloro-1,3-difluoropropane | C3H5F2Cl | 151771-13-0 | 0.002–0.02[b] | 114.5[7] | |||||||||
HFC | R-263 | Trifluoropropane | C3H5F3 | 94458-05-6 | 0[d] | 98.1[7] | |||||||||
HCFC | R-271 | Chlorofluoropropane | C3H6FCl | 134190-54-8 | 0.001–0.03[15] | 96.5[7] | |||||||||
HCFC | R-271b | 2-Chloro-2-fluoropropane | C3H6FCl | 420-44-0 | 0.001–0.03[b] | 96.5[7] | |||||||||
HCFC | R-271d | 2-Chloro-1-fluoropropane | C3H6FCl | 20372-78-5 | 0.001–0.03[b] | 96.5[7] | |||||||||
HCFC | R-271fb | 1-Chloro-1-fluoropropane | C3H6FCl | 430-55-7 | 0.001–0.03[b] | 96.5[7] | |||||||||
HFC | R-272 | Difluoropropane | C3H6F2 | 94458-04-5 | 0[d] | 80.1[7] | |||||||||
HFC | R-281 | Fluoropropane | C3H7F | 106857-11-8 | 0[d] | 62.1[7] | |||||||||
HC | R-290 | Propane | C3H8 or CH3CH2CH3 | 74-98-6 | 13 days[22] | < 0(smog)[e] | 3.3[3]–9.5[22] | 1,000[11] A3[11] | 5,300[11] | 9.5[11] | 44.1[7] | −42.1±.2[8] | 96.7[9] | 4,248[9] | |
CFC | R-C316 | Dichlorohexafluorocyclobutane | C4Cl2F6 | 356-18-3 | 74.6 ± 3(E),114.1 ± 10 (Z)[24] | 0.40(E), 0.49(Z)[24] | 4,160(E), 5,400(Z)[24] | 232.9[7] | |||||||
CFC | R-C317 | Chloroheptafluorocyclobutane | C4ClF7 | 377-41-3 | 216.5[7] | ||||||||||
PFC | R-C318 | Octafluorocyclobutane (Perfluorocyclobutane) | C4F8 or -(CF2)4- | 115-25-3 | 3,200[3] | 0[14] | 10,300[3] | 1,000[11] A1[11] | 69,000[11] | 570[11] | 200[7] | −6[8][19] | 115.23[9] | 2,777[9] | |
PFC | R-3-1-10 | Decafluorobutane (Perfluorobutane) | C4F10 | 355-25-9 | 2,600[3] | 0[14] | 8,860[3] | 238[7] | −1.7[8] | ||||||
HFC | R-329ccb | 1,1,1,2,2,3,3,4,4-Nonafluorobutane | C4HF9 | 375-17-7 | 0[d] | 220[7] | |||||||||
HFC | R-338eea | 1,1,1,2,3,4,4,4-Octafluorobutane | C4H2F8 | 75995-72-1 | 0[d] | 202[7] | |||||||||
HFC | R-347ccd | 1,1,1,2,2,3,3-Heptafluorobutane | C4H3F7 | 662-00-0 | 0[d] | 184.1[7] | |||||||||
HFC | R-347mcc | Perfluoropropyl methyl ether | C4H3F7O | 375-03-1 | 5.2[3] | 0[d] | 575[3] | 200.1[7] | |||||||
HFC | R-347mmy | Perfluoroisopropyl methyl ether | C4H3F7O | 22052-84-2 | 3.4[4] | 0[d] | 343[4] | 200.1[7] | |||||||
HFC | R-365mfc | 1,1,1,3,3-Pentafluorobutane | C4H5F5 | 406-58-6 | 8.6[3] | 0[14][17] | 804[3] | 148.1[7] | |||||||
PFC | R-4-1-12 | Dodecafluoropentane (Perfluoropentane) | C5F12 | 678-26-2 | 4,100[3] | 0[14] | 9,160[3] | 288[7] | |||||||
PFC | R-5-1-14 | Tetradecafluorohexane (Perfluorohexane) | C6F14 | 355-42-0 | 3,200[3] | 0[14] | 9,300[3] | 338[7] | 56[8] | ||||||
CFC | R-400 | R-12/114(50/50 wt%) OR (60/40)(must be specified) |
50% CCl2F2 · 50% C2F4Cl2 OR 60% CCl2F2 · 40% C2F4Cl2 |
200[note 1] OR 180[note 1] |
1.0[note 2] | 10,450[note 1] 10,540[note 1] |
1,000[11] A1[11] 1,000[11] A1[11] |
28,000[11] 30,000[11] |
160[11] 170[11] |
141.6[7] 136.9[7] |
|||||
HCFC | R-401A | R-22/152a/124 (53±2/13+.5,-1.5/34±1) | 53±2% CHClF2 · 13+.5,-1.5% C2H4F2 · 34±1% C2HF4Cl | MP-39[9][26] | 8.514[note 1] | 0.03398[note 2] | 1,182[note 1] | 1,000[11] A1[11] | 27,000[11] | 110[11] | 94.4[7] | −34.4/−28.8[19] | 105.27[9] | 4,613[9] | |
HCFC | R-401B | R-22/152a/124 (61±2/11+.5,-1.5/28±1) | 61±2% CHClF2 · 11+.5,-1.5% C2H4F2 · 28±1% C2HF4Cl | MP-66[9][26] | 9.098[note 1] | 0.03666[note 2] | 1,288[note 1] | 1,000[11] A1[11] | 30,000[11] | 120[11] | 92.8[7] | −35.7/−30.8[19] | 103.54[9] | 4,682[9] | |
HCFC | R-401C | R-22/152a/124 (33±2/15+.5,-1.5/52±1) | 33±2% CHClF2 · 15+.5,-1.5% C2H4F2 · 52±1% C2HF4Cl | MP-52[26] | 7.186[note 1] | 0.02794[note 2] | 933[note 1] | 1,000[11] A1[11] | 20,000[11] | 84[11] | 101[7] | −30.5/−23.8[19] | |||
HCFC | R-402A | R-125/290/22 (60±2/2±1/38±2) | 60±2% C2HF5 · 2±1% C3H8 · 38±2% CHClF2 | HP-80[9][26] | 22.2?[note 1] | 0.019[note 2] | 2,788[note 1] | 1,000[11] A1[11] | 33,000[11] | 140[11] | 101.5[7] | −49.2/−47.0[19] | 76.03[9] | 4,234[9] | |
HCFC | R-402B | R-125/290/22 (38±2/2±1/60±2) | 38±2% C2HF5 · 2±1% C3H8 · 60±2% CHClF2 | HP-81[9][26] | 18.46?[note 1] | 0.03[note 2] | 2,416[note 1] | 1,000[11] A1[11] | 63,000[11] | 240[11] | 94.7[7] | −47.2/−44.9[19] | 83.03[9] | 4,525[9] | |
HCFC | R-403A | R-290/22/218 (5+.2,-2/75±2/20±0) | 5+.2,-2% C3H8 · 75±2% CHClF2 · 20±0% C3F8 | ISCEON 69-S[9] | 529.6?[note 1] | 0.0375[note 2] | 3,124[note 1] | 1,000[11] A2[27] | 33,000[11] | 120[11] | 92[7] | −44.0/−42.3[19] | 91.22[9] | 4,688[9] | |
HCFC | R-403B | R-290/22/218 (5+.2,-2/56±2/39±0) | 5+.2,-2% C3H8 · 56±2% CHClF2 · 39±0% C3F8 | ISCEON 69-L[9] | 1,021.32?[note 1] | 0.028[note 2] | 4,457[note 1] | 1,000[11] A1[11] | 70,000[11] | 290[11] | 103.3[7] | −43.8/−42.3[19] | 88.72[9] | 4,399[9] | |
HFC | R-404A | R-125/143a/134a (44±2/52±1/4±2) | 44±2% C2HF5 · 52±1% C2H3F3 · 4±2% C2H2F4 | HP-62,[9][26] FX-70[9][26] | 40.36[note 1] | 0[note 2] | 3,922[note 1] | 1,000[11] A1[11] | 130,000[11] | 500[11] | 97.6[7] | −46.6/−45.8[19] | 72.14[9] | 3,735[9] | |
HCFC | R-405A | R-22/152a/142b/C318 (45±0/7±1/5.5±1/42.5±2) | 45±0% CHClF2 · 7±1% C2H4F2 · 5.5±1% C2H3F2Cl · 42.5±2% C4F8 | GREENCOOL G2015[9] | 1,366.4825[note 1] | 0.02635[note 2] | 5,328[note 1] | 1,000[11] A1? | 57,000[11] | 260[11] | 111.9[7] | −32.9/−24.5[19] | 106[9] | 4,289[9] | |
HCFC | R-406A | R-22/600a/142b (55±2/4±1/41±0) | 55±2% CHClF2 · 4±1% C4H10 · 41±0% C2H3F2Cl | GHG[9][26] | 14.419?[note 1] | 0.0562[note 2] | 1,943[note 1] | 1,000[11] A2[11] | 21,000[11] | 25[11] | 89.9[7] | −32.7/−23.5[19] | 116.5[9] | 4,881[9] | |
HCFC | R-406B | R-22/600a/142b (65±2/4±1/31±0) | 65±2% CHClF2 · 4±1% C4H10 · 31±0% C2H3F2Cl | GHG-HP[9] | 13.829?[note 1] | 0.0542[note 2] | 1,893[note 1] | 1,000? A2? | 21,000? | 25? | 88.6[7] | ||||
HFC | R-407A | R-32/125/134a (20±2/40±2/40±2) | 20±2% CH2F2 · 40±2% C2HF5 · 40±2% C2H2F4 | Klea 60[9][26] | 18.18[note 1] | 0[note 2] | 2,107[note 1] | 1,000[11] A1[11] | 83,000[28] | 300[28] | 90.1[7] | −45.2/−38.7[19] | 81.91[9] | 4,487[9] | |
HFC | R-407B | R-32/125/134a (10±2/70±2/20±2) | 10±2% CH2F2 · 70±2% C2HF5 · 20±2% C2H2F4 | Klea 61[9] | 23.59[note 1] | 0[note 2] | 2,804[note 1] | 1,000[11] A1[11] | 79,000[28] | 330[28] | 102.9[7] | −46.8/−42.4[19] | 74.38[9] | 4,083[9] | |
HFC | R-407C | R-32/125/134a (23±2/25±2/52±2) | 23±2% CH2F2 · 25±2% C2HF5 · 52±2% C2H2F4 | Klea 66,[9] AC9000[26] | 15.657[note 1] | 0[note 2] | 1,774[note 1] | 1,000[11] A1[11] | 81,000[28] | 290[28] | 86.2[7] | −43.8/−36.7[19] | 86.05[9] | 4,634[9] | |
HFC | R-407D | R-32/125/134a (15±2/15±2/70±2) | 15±2% CH2F2 · 15±2% C2HF5 · 70±2% C2H2F4 | 14.885[note 1] | 0[note 2] | 1,627[note 1] | 1,000[11] A1[11] | 68,000[28] | 250[28] | 91[7] | −39.4/−32.7[19] | 91.57[9] | 4,483[9] | ||
HFC | R-407E | R-32/125/134a (25±2/15±2/60±2) | 25±2% CH2F2 · 15±2% C2HF5 · 60±2% C2H2F4 | 13.975[note 1] | 0[note 2] | 1,552[note 1] | 1,000[11] A1[11] | 80,000[28] | 280[28] | 83.8[7] | −42.8/−35.6[19] | 88.77[9] | 4,734[9] | ||
HFC | R-407F | R-32/125/134a (30±2/30±2/40±2) | 30±2% CH2F2 · 30±2% C2HF5 · 40±2% C2H2F4 | Genetron Performax LT[26] | 15.77[note 1] | 0[note 2] | 1,825[note 1] | 1,000[29] A1[29] | 95,000[28] | 320[28] | 82.1[7] | −46.1/−39.7[29] | |||
HCFC | R-408A | R-125/143a/22 (7±2/46±1/47±2) | 7±2% C2HF5 · 46±1% C2H3F3 · 47±2% CHClF2 | FX-10[9][26] | 31.59[note 1] | 0.0235[note 2] | 3,152[note 1] | 1,000[11] A1[11] | 95,000[11] | 340[11] | 87[7] | −45.5/−45.0[19] | 83.5[9] | 4,340[9] | |
HCFC | R-409A | R-22/124/142b (60±2/25±2/15±1) | 60±2% CHClF2 · 25±2% C2HF4Cl · 15±1% C2H3F2Cl | FX-56[9][26] | 11.335[note 1] | 0.046[note 2] | 1,585[note 1] | 1,000[11] A1[11] | 29,000[11] | 110[11] | 97.4[7] | −35.4/−27.5[19] | 106.92[9] | 4,600[9] | |
HCFC | R-409B | R-22/124/142b (65±2/25±2/10±1) | 65±2% CHClF2 · 25±2% C2HF4Cl · 10±1% C2H3F2Cl | FX-57[9] | 11.04[note 1] | 0.045[note 2] | 1,560[note 1] | 1,000[11] A1[11] | 30,000[11] | 120[11] | 96.7[7] | −36.5/−29.7[19] | 104.36[9] | 4,711[9] | |
HFC | R-410A | R-32/125 (50+.5,–1.5/50+1.5,–.5) | 50+.5,–1.5% CH2F2 · 50+1.5,–.5% CHF2CF3[30] | AZ-20,[9] Puron,[9] Suva 9100[9] | 16.95[note 1] | 0[note 2] | 2,088[note 1] | 1,000[11] A1[11] | 140,000[28] | 420[28] | 72.6[7] | −51.6/−51.5[19] | 70.17[9] | 4,770[9] | |
HFC | R-410B | R-32/125 (45±1/55±1) | 45±1% CH2F2 · 55±1% CHF2CF3[30] | AC9100[26] | 18.155[note 1] | 0[note 2] | 2,229[note 1] | 1,000? A1[11] | 140,000[28] | 430[28] | 75.6[7] | −51.5/−51.4[19] | |||
HCFO | R-411A | R-1270/22/152a (1.5+0,–1/87.5+2,–0/11+0,–1) | 1.5+0,–1% C3H6 · 87.5+2,–0% CHClF2 · 11+0,–1% C2H4F2 | GREENCOOL G2018a[9] | 10.834[note 1] | 0.04375[note 2] | 1,597[note 1] | 990[11] A2[11] | 14,000[11] | 46[11] | 82.4[7] | −39.7/−37.2[19] | 99.06[9] | 4,954[9] | |
HCFO | R-411B | R-1270/22/152a (3+0,–1/94+2,–0/3+0,–1) | 3+0,–1% C3H6 · 94+2,–0% CHClF2 · 3+0,–1% C2H4F2 | GREENCOOL G2018b[9] | 11.682[note 1] | 0.047[note 2] | 1,705[note 1] | 980[11] A2[11] | 13,000[11] | 45[11] | 83.1[7] | −41.6/−41.3[19] | 95.95[9] | 4,947[9] | |
HCFO | R-411C | R-1270/22/152a (3+0,–1/95.5+2,–0/1.5+0,–1) | 3+0,–1% C3H6 · 95.5+2,–0% CHClF2 · 1.5+0,–1% C2H4F2 | GREENCOOL G2018c[9] | 11.841[note 1] | 0.04775[note 2] | 1,730[note 1] | 970? A2? | 12,000? | 44? | 83.4[7] | 95.5[9] | 4,950[9] | ||
HCFC | R-412A | R-22/218/142b (70±2/5±2/25±1) | 70±2% CHClF2 · 5±2% C3F8 · 25±1% C2H3F2Cl | Arcton TP5R[9] | 142.875[note 1] | 0.0525[note 2] | 2,286[note 1] | 1,000[11] A2[11] | 22,000[11] | 82[11] | 92.2[7] | −36.4/−28.8[19] | 107.5[9] | 4,881[9] | |
HFC | R-413A | R-218/134a/600a (9±1/88±2/3+0,–1) | 9±1% C3F8 · 88±2% C2H2F4 · 3+0,–1% C4H10 | ISCEON 49[9] | 246.68?[note 1] | 0[note 2] | 2,053[note 1] | 1,000[11] A2[11] | 22,000[11] | 94[11] | 104[7] | −29.3/−27.6[19] | 101.39[9] | 4,240[9] | |
HCFC | R-414A | R-22/124/600a/142b (51±2/28.5±2/4±.5/16.5+.5,–1) | 51±2% CHClF2 · 28.5±2% C2HF4Cl · 4±.5% C4H10 · 16.5+.5,–1% C2H3F2Cl | GHG-X4,[9] Autofrost,[9] Chill-It[9] | 11.2065?[note 1] | 0.04332[note 2] | 1,478[note 1] | 1,000[11] A1[11] | 26,000[11] | 100[11] | 96.9[7] | −34.0/−25.8[19] | 110.72[9] | 4,702[9] | |
HCFC | R-414B | R-22/124/600a/142b (50±2/39±2/1.5±.5/9.5+.5,–1) | 50±2% CHClF2 · 39±2% C2HF4Cl · 1.5±.5% C4H10 · 9.5+.5,–1% C2H3F2Cl | Hot Shot,[9][26] Kar Kool[9] | 10.1425?[note 1] | 0.04023[note 2] | 1,362[note 1] | 1,000[11] A1[11] | 23,000[11] | 95[11] | 101.5[7] | −34.4/−26.1[19] | 108[9] | 4,592[9] | |
HCFC | R-415A | R-22/152a (82±1/18±1) | 82±1% CHClF2 · 18±1% C2H4F2 | 10.092[note 1] | 0.041[note 2] | 1,507[note 1] | 1,000[11] A2[11] | 57,000[11] | 190[11] | 81.9[7] | −37.5/−34.7[19] | ||||
HCFC | R-415B | R-22/152a (25±1/75±1) | 25±1% CHClF2 · 75±1% C2H4F2 | 4.05[note 1] | 0.0125[note 2] | 546[note 1] | 1,000[11] A2[11] | 52,000[11] | 120[11] | 70.2[7] | −23.4/−21.8[19] | ||||
HCFC | R-416A | R-134a/124/600 (59+.5,–1/39.5+1,–.5/1.5+1,–.2) | 59+.5,-1% C2H2F4 · 39.5+1,–.5% C2HF4Cl · 1.5+1,–.2% C4H10 | FRIGC (FR-12)[9] | 10.731?[note 1] | 0.00869[note 2] | 1,084[note 1] | 1,000[11] A1[11] | 14,000[11] | 62[11] | 111.9[7] | −38.0/−32.9[19] | 108.22[9] | 4,020[9] | |
HFC | R-417A | R-125/134a/600 (46.6±1.1/50±1/3.4+.1,–.4) | 46.6±1.1% C2HF5 · 50±1% C2H2F4 · 3.4+.1,–.4% C4H10 | ISCEON 59,[9] NU-22[9] | 20.922?[note 1] | 0[note 2] | 2,346[note 1] | 1,000[11] A1[11] | 13,000[11] | 56[11] | 106.7[7] | −41.2/−40.1[19] | 89.89[9] | 4,102[9] | |
HFC | R-417B | R-125/134a/600 (79±1/18.3±1/2.7+.1,–.5) | 79±1% C2HF5 · 18.3±1% C2H2F4 · 2.7+.1,–.5% C4H10 | 25.796?[note 1] | 0[note 2] | 3,027[note 1] | 1,000[29] A1[29] | 15,000[29] | 70[29] | 113.1[7] | −44.9/−41.5[29] | ||||
HCFC | R-418A | R-290/22/152a (1.5±.5/96±1/2.5±.5) | 1.5±.5% C3H8 · 96±1% CHClF2 · 2.5±.5% C2H4F2 | 11.735?[note 1] | 0.048[note 2] | 1,741[note 1] | 1,000[11] A2[11] | 59,000[11] | 200[11] | 84.6[7] | −42.6/−36.0[19] | ||||
HFC | R-419A | R-125/134a/E170 (77±1/19±1/4±1) | 77±1% C2HF5 · 19±1% C2H2F4 · 4±1% C2H6O | 24.9906[note 1] | 0[note 2] | 2,967[note 1] | 1,000[11] A2[11] | 70,000[11] | 310[11] | 109.3[7] | −25.0/−24.2[19] | ||||
HCFC | R-420A | R-134a/142b (88+1,–0/12+0,–1) | 88+1,–0% C2H2F4 · 12+0,–1% C2H3F2Cl | Choice Refrigerant[26] | 14.468[note 1] | 0.0084[note 2] | 1,548[note 1] | 1,000[11] A1[11] | 45,000[11] | 190[11] | 101.8[7] | −34.4/−28.8[19] | |||
HFC | R-421A | R-125/134a (58±1/42±1) | 58±1% C2HF5 · 42±1% C2H2F4 | Choice R421A[26] | 22.7[note 1] | 0[note 2] | 2,631[note 1] | 1,000[11] A1[11] | 61,000[11] | 280[11] | 111.7[7] | ||||
HFC | R-421B | R-125/134a (85±1/15±1) | 85±1% C2HF5 · 15±1% C2H2F4 | Choice 421B[26] | 26.75[note 1] | 0[note 2] | 3,190[note 1] | 1,000[11] A1[11] | 69,000[11] | 330[11] | 116.9[7] | ||||
HFC | R-422A | R-125/134a/600a (85.1±1/11.5±1/3.4+.1,–.4) | 85.1±1% C2HF5 · 11.5±1% C2H2F4 · 3.4+.1,–.4% C4H10 | ISCEON 79[26] | 26.697?[note 1] | 0[note 2] | 3,143[note 1] | 1,000[11] A1[11] | 63,000[11] | 290[11] | 113.6[7] | ||||
HFC | R-422B | R-125/134a/600a (55±1/42±1/3+.1,–.5) | 55±1% C2HF5 · 42±1% C2H2F4 · 3+.1,–.5% C4H10 | ICOR XAC1[26] | 22.19?[note 1] | 0[note 2] | 2,526[note 1] | 1,000[11] A1[11] | 56,000[11] | 250[11] | 108.5[7] | ||||
HFC | R-422C | R-125/134a/600a (82±1/15±1/3+.1,–.5) | 82±1% C2HF5 · 15±1% C2H2F4 · 3+.1,–.5% C4H10 | ICOR XLT1[26] | 26.24?[note 1] | 0[note 2] | 3,085[note 1] | 1,000[11] A1[11] | 62,000[11] | 290[11] | 113.4[7] | ||||
HFC | R-422D | R-125/134a/600a (65.1+.9,–1.1/31.5±1/3.4+.1,–.4) | 65.1+.9,–1.1% C2HF5 · 31.5±1% C2H2F4 · 3.4+.1,–.4% C4H10 | ISCEON MO29[26] | 23.697?[note 1] | 0[note 2] | 2,729[note 1] | 1,000[11] A1[11] | 58,000[11] | 260[11] | 109.9[7] | ||||
HFC | R-423A | R-134a/227ea (52.5±1/47.5±1) | 52.5±1% C2H2F4 · 47.5±1% C3HF7 | 23.595[note 1] | 0[note 2] | 2,280[note 1] | 1,000[11] A1[11] | 59,000[11] | 310[11] | 126[7] | |||||
HFC | R-424A | R-125/134a/600a/600/601a (50.5±1/47±1/.9+.1,–.2/1+.1,+.2/.6+.1,–.2) | 50.5±1% C2HF5 · 47±1% C2H2F4 · 1.9+.3,–.1% C4H10 · .6+.1,–.2% C5H12 | RS-44 (new comp.)[26] | 21.525?[note 1] | 0[note 2] | 2,440?[note 1] | 970[11] A1[11] | 23,000[11] | 100[11] | 108.4[7] | ||||
HFC | R-425A | R-32/134a/227ea (18.5±.5/69.5±.5/12±.5) | 18.5±.5% CH2F2 · 69.5±.5% C2H2F4 · 12±.5% C3HF7 | 14.7405[note 1] | 0[note 2] | 1,505[note 1] | 1,000[11] A1[11] | 72,000[28] | 260[28] | 90.3[7] | |||||
HFC | R-426A | R-125/134a/600/601a (5.1±1/93±1/1.3+.1,–.2/.6+.1,–.2) | 5.1±1% C2HF5 · 93±1% C2H2F4 · 1.3+.1,–.2% C4H10 · .6+.1,–.2% C5H12 | RS-24 (new comp.)[26] | 14.727?[note 1] | 0[note 2] | 1,508?[note 1] | 990[11] A1[11] | 20,000[11] | 83[11] | 101.6[7] | ||||
HFC | R-427A | R-32/125/143a/134a (15±2/25±2/10±2/50±2) | 15±2% CH2F2 · 25±2% C2HF5 · 10±2% C2H3F3 · 50±2% C2H2F4 | Forane 427A[26] | 20.185[note 1] | 0[note 2] | 2,138[note 1] | 1,000[11] A1[11] | 79,000[28] | 290[28] | 90.4[7] | ||||
HFC | R-428A | R-125/143a/290/600a (77.5±1/20±1/.6+.1,–.2/1.9+.1,–.2) | 77.5±1% C2HF5 · 20±1% C2H3F3 · .6+.1,–.2% C3H8 · 1.9+.1,–.2% C4H10 | RS-52[26] | 33.175?[note 1] | <0(smog)[note 2] | 3,607[note 1] | 1,000[11] A1[11] | 83,000[31] | 370[31] | 107.5[7] | ||||
HFC | R-429A | R-E170/152a/600a (60±1/10±1/30±1) | 60±1% C2H6O · 10±1% C2H4F2 · 30±1% C4H10 | 3.749?[note 1] | <0(smog)[note 2] | 13.9[note 1] | 1,000[11] A3[11] | 6,300[11] | 13[11] | 50.8[7] | |||||
HFC | R-430A | R-152a/600a (76±1/24±1) | 76±1% C2H4F2 · 24±1% C4H10 | 3.944?[note 1] | 0[note 2] | 95[note 1] | 1,000[11] A3[11] | 8,000[11] | 21[11] | 64[7] | |||||
HFC | R-431A | R-290/152a (71±1/29±1) | 71±1% C3H8 · 29±1% C2H4F2 | 8.926?[note 1] | <0(smog)[note 2] | 38.3[note 1] | 1,000[11] A3[11] | 5,500[11] | 11[11] | 48.8[7] | |||||
HO | R-432A | R-1270/E170 (80±1/20±1) | 80±1% C3H6 · 20±1% C2H6O | 9.603?[note 1] | <0(smog)[note 2] | 1.64[note 1] | 710[11] A3[11] | 1,200[11] | 2.1[11] | 42.8[7] | |||||
HO | R-433A | R-1270/290 (30±1/70±1) | 30±1% C3H6 · 70±1% C3H8 | 12 ± 3[e] | < 0(smog)[e] | 2.85[note 1] | 880[11] A3[11] | 3,100[11] | 5.5[11] | 43.5[7] | −44.6/−44.2? | ||||
HO | R-433B | R-1270/290 (5±1/95±1) | 5±1% C3H6 · 95±1% C3H8 | 12 ± 3[e] | < 0(smog)[e] | 3.23[note 1] | 950[32] A3[32] | 4,500[32] | 8.1[32] | 44[7] | −42.7/−42.5[32] | ||||
HO | R-433C | R-1270/290 (25±1/75±1) | 25±1% C3H6 · 75±1% C3H8 | 12 ± 3[e] | < 0(smog)[e] | 2.93[note 1] | 790[32] A3[32] | 3,600[32] | 6.6[32] | 43.6[7] | −44.3/−43.9[32] | ||||
HFC | R-434A | R-125/143a/134a/600a (63.2±1/18±1/16±1/2.8+.1,–.2) | 63.2±1% C2HF5 · 18±1% C2H3F3 · 16±1% C2H2F4 · 2.8+.1,–.2% C4H10 | RS-45[26] | 30.264?[note 1] | 0[note 2] | 3,245[note 1] | 1,000[11] A1[11] | 73,000[11] | 320[11] | 105.7[7] | −45.0/−42.3[33] | |||
HFC | R-435A | R-E170/152a (80±1/20±1) | 80±1% C2H6O · 20±1% C2H4F2 | 0.292[note 1] | <0(smog)[note 2] | 25.6[note 1] | 1,000[11] A3[11] | 8,500[11] | 17[11] | 49[7] | −26.1/−25.9[11] | ||||
HC | R-436A | R-290/600a (56±1/44±1) | 56±1% C3H8 · 44±1% C4H10 | 12 ± 3[e] | <0(smog)[note 2] | 3.17[note 1] | 1,000[11] A3[11] | 4,000[11] | 8[11] | 49.3[7] | −34.3/−26.2[11] | ||||
HC | R-436B | R-290/600a (52±1/48±1) | 52±1% C3H8 · 48±1% C4H10 | 12 ± 3[e] | <0(smog)[note 2] | 3.16[note 1] | 1,000[11] A3[11] | 4,000[11] | 8[11] | 49.9[7] | −33.4/−25.0[11] | ||||
HFC | R-437A | R-125/134a/600/601 (19.5+.5,–1.8/78.5+1.5,–.7/1.4+.1,–.2/.6+.1,–.2) | 19.5+.5,–1.8% C2HF5 · 78.5+1.5,–.7% C2H2F4 · 1.4+.1,–.2% C4H10 · .6+.1,–.2% C5H12 | 16.885?[note 1] | 0[note 2] | 1,805?[note 1] | 990[11] A1[11] | 19,000[11] | 81[11] | 103.7[7] | −32.9/−29.2[11] | ||||
HFC | R-438A | R-32/125/134a/600/601a (8.5+.5,-1.5/45±1.5/44.2±1.5/1.7+.1,-.2/.6+.1,-.2) | 8.5+.5,-1.5% CH2F2 · 45±1.5% C2HF5 · 44.2±1.5% C2H2F4 · 1.7+.1,-.2% C4H10 · .6+.1,-.2% C5H12 | KDD5,[26] ISCEON MO99[26] | 19.9305?[note 1] | 0[note 2] | 2,265?[note 1] | 990[27] A1[27] | 20,000[28] | 79[28] | 99.1[7] | −43.0/−36.4[27] | |||
HFC | R-439A | R-32/125/600a (50±1/47±1/3±.5) | 50±1% CH2F2 · 47±1% C2HF5 · 3±.5% C4H10 | 16.44?[note 1] | 0[note 2] | 1,983[note 1] | 990[18] A2[18] | 26,000[18] | 76[18] | 71.2[7] | −52.0/−51.8[18] | ||||
HFC | R-440A | R-290/134a/152a (.6±.1/1.6±.6/97.8±.5) | .6±.1% C3H8 · 1.6±.6% C2H2F4 · 97.8±.5% C2H4F2 | 1.6652?[note 1] | <0(smog)[note 2] | 144[note 1] | 1,000[18] A2[18] | 12,000[18] | 31[18] | 66.2[7] | −25.5/−24.3[18] | ||||
HC | R-441A | R-170/290/600a/600 (3.1±.3/54.8±2/6±.6/36.1±2) | 3.1±.3% C2H6 · 54.8±2% C3H8 · 42.1±2.6% C4H10 | HCR-188C[26] | 12 ± 3[e] | <0(smog)[note 2] | 3.6[note 1] | 1,000[18] A3[18] | 3,200[18] | 6.3[18] | 48.3[7] | −41.9/−20.4[18] | |||
HFC /
HFO[34] |
R-448A | R-32/125/134a/1234ze/1234yf
(26%/26%/21%/7%/20%)[34] |
26% CH2F2 · 26% C2HF5 · 21% C2H2F4 · 7% C3H2F4 · |
Solistice N-40[34] | 0[34] | 1273[34] | A1[34] | 189.9[34] | −45.9[35] | 83.7[34] | 4,660[34] | ||||
HFO | R-449A | R-32/R-125/134a/1234yf (24.3%/24.7%/25.7%/25.3%) |
24.3% CH2F2 · 24.7% C2HF5 · 25.7% C2H2F4 · 25.3% C3H2F4 |
Forane 449a[36] | 0 | 1,282[36] | A1[36] | 87.2[36] | −45.9[36] | 81.5[36] | |||||
HFO | R-452B | R-32/R-125/1234yf (67.0%/7.0%/26.0%) |
67.0% CH2F2 · 7.0% C2HF5 · 26.0% C3H2F4 |
Opteon XL55,[37] Solstice L41y[38] | 0 | 676[37][38] | A2L[38] | 63.5[38] | −50.9/−50.1[38] | 76.0[38] | 5,220[38] | ||||
HFC | R-453A | R-32/125/134a/227ea/600/601a (20%/20%/53.8%/5%/0.6%/0.6%) |
20.0% CH2F2 · 20.0% C2HF5 · 53.8% C2H2F4 · 5.0% C3HF7 · 0.6% C4H10 · 0.6% C5H12 |
RS-70[39] | 0 | 1,765[39] | 1,000[39] A1[39] | 88.8[39] | −42.2[39] | 87.9[39] | 4,530[39] | ||||
HFO | R-454A | R-32/1234yf (35.0%/65.0%) | 35.0% CH2F2 · 65.0% C3H2F4 |
Opteon XL40[40] | 0 | 239[40] | A2L[40] | 80.5[40] | −48.3[40] | 78.9[40] | |||||
HFO | R-454B | R-32/1234yf (68.9%/31.1%) | 68.9% CH2F2 · 31.1% C3H2F4 |
Opteon XL41,[41] Puron Advance[42] | 0 | 466[41] | A2L[41] | 62.6[41] | −50.9[41] | 77.0[41] | |||||
HFO | R-454C | R-32/1234yf (21.5%/78.5%) | 21.5% CH2F2 · 78.5% C3H2F4 |
Opteon XL20[43] | 0 | 148[43] | A2L[43] | 90.8[43] | −45.9[43] | 82.4[43] | |||||
HFO | R-455A | R-32/1234yf/744 (75.5%/21.5%/3%) | 21.5% CH2F2 · 75.5% C3H2F4 · 3% CO2 |
Solstice L40x[44] | 0 | 146[44] | A2L[44] | 87.5[44] | −52.3/−39.4[44] | 85.6[44] | 4,660[44] | ||||
HFO | R-456A | R-32/134a/1234ze(E) (6.0%/45.0%/49.0%) | 6.0% CH2F2 · 45.0% C2H2F4 · 49.0% C3H2F4 |
0 | 687 | 102.4 | |||||||||
HFO | R-457A | R-32/152a/1234yf (18.0%/12.0%/70.0%) |
18.0% CH2F2 · 12.0% C2H4F2 · 70.0% C3H2F4 |
Forane 457a[45] | 0 | 139[46] | A2L[46] | 92.6 | |||||||
HFC | R-458A | R-32/125/134a/227ea/236fa (20.5%/4.0%/61.4%/13.5%/0.6%) | 20.5% CH2F2 · 4.0% C2HF5 · 61.4% C2H3F3 · 13.5% C3HF7 · 0.6% C3H2F6 |
0 | 1,650[47] | 92.0 | |||||||||
HFO | R-459A | R-32/1234yf(E)/1234ze(E) (68.0%/26.0%/6.0%) | 68.0% CH2F2 · 26.0% C3H2F4 · 6.0% C3H2F4 |
Forane 459a[45] | 0 | 460 | |||||||||
HFC/H | R-466A | R-32/125/13I1 (49/11.5/39.5) | 49% CH2F2 · 11.5% C2HF5 · 39.5% CIF3 |
Solstice N41[48] | 0[48] | 733[48] | A1[48] | −51.7[48] | 76.5[48] | 5144[48] | |||||
HCFC | R-500 | R-12/152a (73.8/26.2) | 73.8% CCl2F2 · 26.2% C2H4F2 | Carrene #7[9] | 74.1668[note 1] | 0.738[note 2] | 8,077[note 1] | 1,000[11] A1[11] | 30,000[11] | 120[11] | 99.3[7] | −33/0[19] | 102.15[9] | 4,173[9] | |
HCFC | R-501 | R-22/12 (75/25) | 75% CHClF2 · 25% CCl2F2 | 34[note 1] | 0.2875[note 2] | 4,083[note 1] | 1,000[11] A1[11] | 54,000[11] | 210[11] | 93.1[7] | −41/−41[19] | 96.19[9] | 4,764[9] | ||
HCFC | R-502 | R-22/115 (48.8/51.2) | 48.8% CHClF2 · 51.2% C2F5Cl | 876.256[note 1] | 0.24968[note 2] | 4,657[note 1] | 1,000[11] A1[11] | 73,000[11] | 330[11] | 111.6[7] | −45/19[19] | 80.73[9] | 4,019[9] | ||
HCFC | R-503 | R-23/13 (40.1/59.9) | 40.1% CHF3 · 59.9% CClF3 | 491.63[note 1] | 0.599[note 2] | 14,560[note 1] | 1,000[11] A1? | 40,000? | 200? | 87.2[7] | −88/88[19] | 18.43[9] | 4,265[9] | ||
HCFC | R-504 | R-32/115 (48.2/51.8) | 48.2% CH2F2 · 51.8% C2F5Cl | 882.9618[note 1] | 0.22792[note 2] | 4,143[note 1] | 1,000[11] A1? | 140,000[28] | 450[28] | 79.2[7] | −57/17[19] | 62.13[9] | 4,439[9] | ||
HCFC | R-505 | R-12/31 (78/22) | 78% CCl2F2 · 22% CH2FCl | 78.0836+[note 1] | 0.7844[note 2] | 8,504+[note 1] | 350? B2? | 10,000? | 20? | 103.5[7] | −30/115[19] | 117.78[9] | 4,730[9] | ||
HCFC | R-506 | R-31/114 (55.1/44.9) | 55.1% CH2FCl · 44.9% C2F4Cl2 | 134.90938+[note 1] | 0.46002[note 2] | 4,495+[note 1] | 350? B2? | 10,000? | 20? | 93.7[7] | −12/18[19] | 142.22[9] | 5,157[9] | ||
HFC | R-507[A] | R-125/143a (50/50) | 50% C2HF5 · 50% C2H3F3 | AZ-50[9][26] | 40.5[note 1] | 0[note 2] | 3,985[note 1] | 1,000[11] A1[11] | 130,000[11] | 520[11] | 98.9[7] | −46.7/−40[19] | 70.74[9] | 3,715[9] | |
HFC | R-508[A] | R-23/116 (39/61) | 39% CHF3 · 61% C2F6 | Klea 5R3[9][26] | 6,205.3[note 1] | 0[note 2] | 13,214[note 1] | 1,000[11] A1[11] | 55,000[11] | 220[11] | 100.1[7] | −86/−86[19] | 11.01[9] | 3,701[9] | |
HFC | R-508B | R-23/116 (46/54) | 46% CHF3 · 54% C2F6 | Suva 95[9][26] | 5,524.2[note 1] | 0[note 2] | 13,396[note 1] | 1,000[11] A1[11] | 52,000[11] | 200[11] | 95.4[7] | -88.3/−45.6[19] | 12.06[9] | 3,834[9] | |
HCFC | R-509[A] | R-22/218 (44/56) | 44% CHClF2 · 56% C3F8 | Arcton TP5R2[9] | 1,461.28[note 1] | 0.022[note 2] | 5,741[note 1] | 1,000[11] A1[11] | 75,000[11] | 390[11] | 124[7] | −47/0[19] | 87.22[9] | 4,033[9] | |
HC | R-510[A] | R-E170/600a (88±.5/12±.5) | 88±.5% C2H6O · 12±.5% C4H10 | 1.4532?[note 1] | <0(smog)[note 2] | 1.24[note 1] | 1,000[11] A3[11] | 7,300[11] | 14[11] | 47.2[7] | −25.2/−25.2[11] | ||||
HC | R-511[A] | R-290/E170 (95±1/5±1) | 95±1% C3H8 · 5±1% C2H6O | 11.40075?[note 1] | < 0(smog)[e] | 3.19[note 1] | 1,000[28] A3[28] | 5,300[28] | 9.5[28] | 44.2[7] | −42.1/−20-40[28] | ||||
HFO | R-513A | R-1234yf/134a (56%/44%) | 56% C3H2F4 · 44% C2H2F4 | 0[49] | 573[49] | A1[49] | 108.4[49] | −29.4[49] | 96.5[49] | 3,766[46] | |||||
HFO | R-514A | R-1336mzz-Z/trans-1,2-Dichloroethene(t-DCE)(74.7%/25.3%)[50] | 74.7% C4H2F6 · 25.3% C2H2CL2[51] | 0 | 2 | B1 | 139.6 | 29.1 | 96.5 | 3,520 | |||||
HFO | R-515B | R-1234ze/227ea | 299[52] | ||||||||||||
HC | R-600 | Butane | C4H10 or CH3CH2CH2CH3 | 106-97-8 | 6.8 days[22] | 0[17] | 4.0[3]–6.5[22] | 1,000[11] A3[11] | 4,000? | 9.6? | 58.1[7] | 0[19]±1[8] | 152.01[9] | 3,796[9] | |
HC | R-600a | Isobutane | C4H10 or CH(CH3)2CH3 | 75-28-5 | 12 ± 3[53][e] | 0[17][54] | 3[54] | 1,000[11] A3[11] | 4,000[11] | 9.6[11] | 58.1[7] | −11.7[8] | 134.7[9] | 3,640[9] | |
HC | R-601 | Pentane | C5H12 or CH3CH2CH2CH2CH3 | 109-66-0 | 12 ± 3[e] | 0[17] | 4 ± 2[f] | 600[11] A3[33] | 1,000[33] | 2.9[33] | 72.1[7] | 36.1[33]±.2[8] | 196.56[9] | 3,358[9] | |
HC | R-601a | Isopentane | C5H12 or (CH3)2CHCH2CH3 | 78-78-4 | 12 ± 3[e] | 0[17] | 4 ± 2[f] | 600[11] A3[11] | 1,000[11] | 2.9[11] | 72.1[7] | 27.7[8] | 187.78[9] | 3,378[9] | |
HC | R-610 | Ethoxyethane (Diethyl ether) | CH3CH2OCH2CH3 | 60-29-7 | 12 ± 3[e] | < 0(smog)[e] | 4 ± 2[f] | 400[11] A3? | 74.1[7] | 34.6[8] | 193.65[9] | 3,640[9] | |||
HC | R-611 | Methyl formate | HCOOCH3 | 107-31-3 | 12 ± 3[e] | 0[17][54] | < 25[17][54] | 100[11] B2[11] | 60.1[7] | 32[8][19] | 213.55[9] | 6,000[9] | |||
HC | HC-12a | Propane/isobutane[55] | 40–70% C3H8 · 30–60% C4H6 (by volume) | −33 | |||||||||||
HC | HC-22a | Propane[55] | C3H8 98% by volume | −42 | |||||||||||
HC | HC-502a | Propane/ethane[55] | C3H8 60–100% · C2H6 3-7% (by volume) | −49 | |||||||||||
HFC / HFO | DR-14A[56] | 415 | −20.4 | 110.7 | 3,960 | ||||||||||
HFC | SP34E[57] | R-134a (98.5%) | C2H2F4 (98.5%) | ||||||||||||
R-630 | Methylamine | CH3NH2 | 74-89-5 | 31.1[7] | −6[8] | 156.89[9] | 7,460[9] | ||||||||
R-631 | Ethylamine | CH3CH2(NH2) | 75-04-7 | 45.1[7] | 16.6[8] | 183[9] | 5,620[9] | ||||||||
R-702 | Hydrogen | H2 | 1333-74-0 | 5.8[3] | A3[11] | 2.016[7] | −252.87[8] | −239.95[21] | 1,300[21] | ||||||
R-704 | Helium | He | 7440-59-7 | Unlimited[g] | 0[g] | 0[g] | 9,340? A1[11] | 4.002[7] | −268.93[8] | −267.96[21] | 227[21] | ||||
R-717 | Ammonia | NH3 | 7664-41-7 | < 0.019165[58] | 0[58] | 0[58] | 25[11] B2L[18] | 320[11] | 0.22[11] | 17.03[7] | −33.34[8] | 132.4[59] | 11,280[59] | ||
R-718 | Water/Steam | H2O | 7732-18-5 | 0.026 | 0[60] | 0.2 ± 0.2[3] | A1[11] | 18.02[7] | 100[19] | 373.946[21] | 22,060[21] | ||||
R-720 | Neon | Ne | 7440-01-9 | Unlimited[g] | 0[g] | 0[g] | 9,340? A1[11] | 20.18[7] | −246.08[8] | −228.75[21] | 2,760[21] | ||||
R-728 | Nitrogen | N2 | 7727-37-9 | Unlimited[g] | 0[g] | 0[g] | A1[11] | 28.01[7] | −195.79[8] | −146.9[21] | 3,390[21] | ||||
R-729 | Air N2/O2/Ar (78.082/20.945/.934 vol%) | 78.082% N2 · 20.945% O2 · .934% Ar | Unlimited[g] | 0[60][g] | 0.00054+[3] | A1? | 28.97[7] | −192.97? | −140.53[9] | 3,785[9] | |||||
R-732 | Oxygen | O2 | 7782-44-7 | Unlimited[g] | < 0[g] | 0[g] | A1? | 32[7] | −182.95[8] | −118.6[21] | 5,050[21] | ||||
R-740 | Argon | Ar | 7440-37-1 | Unlimited[g] | 0[g] | 0[g] | 9,340? A1[11] | 39.95[7] | −185.85[8] | −122.4[21] | 4,870[21] | ||||
R-744 | Carbon dioxide | CO2 | 124-38-9 | 29,300-36,100[61] | 0[17] | 1[3] | 5,000[11] A1[11] | 40,000[11] | 72[11] | 44[7] | −56.56 at 518 kPa[note 3][62] | 31.04[21] | 7,380[21] | ||
R-744A | Nitrous oxide | N2O | 10024-97-2 | 114[3] | 0.017[20] | 265[5] | A1? | 44[7] | −88.48[8] | 36.4[21] | 7,240[21] | ||||
R-764 | Sulfur dioxide | SO2 | 7446-09-5 | 5[63] B1[11] | 100[63] | 0.262[63] | 64.1[7] | −10[8][19] | 157.65[9] | 7,880[9] | |||||
R-784 | Krypton | Kr | 7439-90-9 | Unlimited[g] | 0[g] | 0[g] | 9,340? A1? | 83.80[7] | −153.22[8] | −63.8[21] | 5,500[21] | ||||
CFO | R-1112a | 1,1-Dichloro-2,2-difluoroethylene | C2Cl2F2 | 79-35-6 | 132.9[7] | ||||||||||
CFO | R-1113 | Chlorotrifluoroethylene | C2ClF3 | 79-38-9 | 116.5[7] | −27.8[8] | |||||||||
PFO | R-1114 | Tetrafluoroethylene | C2F4 | 116-14-3 | 0[d] | 100[7] | −76.3[8] | ||||||||
HCO | R-1120 | Trichloroethylene (trielene) | C2HCl3 | 79-01-6 | 131.4[7] | 87.2[8] | 297.78[9] | 4,909[9] | |||||||
HCO | R-1130(E) | trans-1,2-Dichloroethylene | C2H2Cl2 | 156-60-5 | 0[17] | < 25[17] | 96.9[7] | 48.5[8] | 243.28[9] | 5,481[9] | |||||
HFO | R-1132a | 1,1-Difluoroethylene | C2H2F2 | 75-38-7 | 0[d] | 64[7] | −83[64] | 29.7[9] | 4,458[9] | ||||||
HCO | R-1140 | Chloroethylene (vinyl chloride) | C2H3Cl | 75-01-4 | 100? B3[6] | 62.5[7] | −13.4[8] | 151.83[9] | 5,150[9] | ||||||
HFO | R-1141 | Fluoroethylene (vinyl fluoride) | C2H3F | 75-02-5 | 0[d] | 46[7] | −72.2[8] | ||||||||
HO | R-1150 | Ethene (Ethylene) | CH2=CH2 | 74-85-1 | 12 ± 3[e] | < 0(smog)[e] | 3.7[3] | 200[11] A3[11] | 28.05[7] | −103.7[8] | 9.19[9] | 5,040[9] | |||
PFO | R-1216 | Hexafluoropropylene | C3F6 | 116-15-4 | 1,000+[3][4] | 0[d] | 17,340+[3] | 150[7] | −28[8] | ||||||
PFO | R-1218 | Hexafluoropropene trimer | (C3F6)3 | 6792-31-0 | 0[d] | 450.1[7] | |||||||||
HCFO | R-1224yd(Z) | (Z)-2,3,3,3,-Tetrafluoro-1-Chloropropene[65][66][67] | (Z)-CF3-CF=CHCl | 111512-60-8 | 0.032 (21 days)[68] | 0.00012[68] | <1[68] | 148.5[68] | 14°C[68] | 156°C[68] | 3330[68] | ||||
HCFO | R-1233zd(E) | trans-1-chloro-3,3,3-trifluoropropene | C3H2ClF3 | 102687-65-0 | 0.0712328[69] | 0[69] | 1[69] | 130.5[7] | 19 | ||||||
HFO | R-1234yf | 2,3,3,3-Tetrafluoropropene | C3H2F4 | 754-12-1 | 0.030116[70] | 0[54] | 4[54][70] | 500[71] A2L[18] | 16,000[72] | 75[72] | 114[7] | −29.4[72] | |||
HFO | R-1234ze(E) | trans-1,3,3,3-tetrafluoropropene | C3H2F4 | 29118-24-9 | 0[54] | 6[54] | 800[28] A2L[28] | 16,000[28] | 75[28] | 114[7] | −19.0[8][28] | ||||
HO | R-1270 | Propene (Propylene) | C3H6 or CH3CH=CH2 | 115-07-1 | 12 ± 3[e] | < 0(smog)[e] | 1.8[3] | 500[11] A3[11] | 1,000[11] | 1.7[11] | 42.1[7] | −47.6[8] | 92.42[9] | 4,665[9] | |
HFO | R-1336mzz(E)[56] | trans-1,1,1,4,4,4-hexafluoro-2-butene | C4H2F6 | 66711-86-2 | 0 | 18 | 7.5 | 137.7 | 3,150 | ||||||
HFO | R-1336mzz(Z) (DR-2)[56][73] | cis-1,1,1,4,4,4-hexafluoro-2-butene | CF3CH=CHCF3(Z) | 692-49-9 | 0 | 2 | A1 | 37.4 | 171.3 | 2,900 | |||||
T y p e |
ASHRAE number |
IUPAC chemical name | Molecular formula |
CAS no/ blend name |
Atmospheric lifetime (years) |
Semi- empirical ODP |
Net GWP 100-yr |
OEL/PEL ppm (v/v) & ASHRAE 34 safety group |
RCL/IDLH | Molecular mass u |
Boiling, or bubble/dew /azeotropic point(s) °C |
Critical temp. °C |
Critical pressure, absolute kPa | ||
ppm (v/v) |
g/m3 |
Type and flammability
[edit]
|
LFL = Lower Flammability Limit |
Compounds used as refrigerants may be described using either the appropriate prefix above or with the prefixes "R-" or "Refrigerant." Thus, CFC-12 may also be written as R-12 or Refrigerant 12.
An alkene, olefin, or olefine is an unsaturated compound containing at least one carbon-carbon double bond.[77]
- Educated Estimates
- ^ a b c d e Some CFCs are assumed to be similar in terms of Semi-Empirical ODP being one.[4][12]
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci cj ck cl cm cn co cp cq cr Some HCFCs are assumed to be similar in terms of Semi-Empirical ODP.[4][15]
- ^ a b c d e f g h i j k l Some HCFCs are assumed to be similar in terms of Atmospheric Lifetime[3][4] & net GWP over a 100-year time horizon.[3][4]
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae All HFCs, HFOs, PFCs & PFOs are assumed to be similar in terms of Semi-Empirical ODP being zero.[14][17]
- ^ a b c d e f g h i j k l m n o p q r s t u v w Most hydrocarbons are assumed to be similar to Methane in terms of Atmospheric Lifetime being 12 ± 3 years[3] & Semi-Empirical ODP being < 0(smog chemistry).[20]
- ^ a b c Pentane, Isopentane & Ethoxyethane (Diethyl ether) is assumed to have a net GWP over 100-yr to be 4 ± 2.
- ^ a b c d e f g h i j k l m n o p q r s t Air, nitrogen, oxygen & the noble gases are assumed to have an unlimited Atmospheric Lifetime, a Semi-Empirical ODP of zero (except oxygen being slightly less than zero) & net GWP over 100-yr to be zero (except air being the sum of its parts).
See also
[edit]References
[edit]- ^ a b "ANSI/ASHRAE Standard 34-2022 : Designation and Safety Classification of Refrigerants". Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2022. ISSN 1041-2336. Retrieved 2024-01-09.
- ^ "Refrigerant blends to challenge hydrocarbon efficiencies". 22 December 2019.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci P. Forster; V. Ramaswamy; P. Artaxo; T. Berntsen; R. Betts; D.W. Fahey; J. Haywood; J. Lean; D.C. Lowe; G. Myhre; J. Nganga; R. Prinn; G. Raga; M. Schulz; R. Van Dorland (2007). "Chapter 2: Changes in Atmospheric Constituents and in Radiative Forcing". In Solomon, S.; Miller, H.L.; Tignor, M.; Averyt, K.B.; Marquis, M.; Chen, Z.; Manning, M.; Qin, D. (eds.). Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York, NY, US: Cambridge University Press. Archived from the original on 1 December 2016. Retrieved 9 October 2016.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc John S. Daniel; Guus J.M. Velders; A.R. Douglass; P.M.D. Forster; D.A. Hauglustaine; I.S.A. Isaksen; L.J.M. Kuijpers; A. McCulloch; T.J. Wallington (2006). "Chapter 8. Halocarbon Scenarios, Ozone Depletion Potentials, and Global Warming Potentials" (PDF). Scientific Assessment of Ozone Depletion: 2006. Geneva, Switzerland: World Meteorological Organization. Retrieved 9 October 2016.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae Myhre, G., D. Shindell, F.‐M. Bréon, W. Collins, J. Fuglestvedt, J. Huang, D. Koch, J.‐F. Lamarque, D. Lee, B. Mendoza, T. Nakajima, A. Robock, G. Stephens, T. Takemura and H. Zhang, 2013: Anthropogenic and Natural Radiative Forcing. In: Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Stocker, T.F., D. Qin, G.‐K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, US.
- ^ a b "Addenda to ANSI/ASHRAE Standard 34-1997". ANSI/ASHRAE Standard 34-1997, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2000-11-15. ISSN 1041-2336. Archived from the original (PDF) on 2016-10-10. Retrieved 2016-10-10.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci cj ck cl cm cn co cp cq cr cs ct cu cv cw cx cy cz da db dc dd de df dg dh di dj dk dl dm dn do dp dq dr ds dt du dv dw dx dy dz ea eb ec ed ee ef eg eh ei ej ek el em en eo ep eq er es et eu ev ew ex ey ez fa fb fc fd fe ff fg fh fi fj fk fl fm fn fo fp fq fr fs ft fu fv fw fx fy fz ga gb gc gd ge gf gg gh gi gj gk gl gm gn go gp gq gr gs gt gu gv gw gx gy gz ha hb hc hd he hf hg hh hi hj hk hl hm hn ho hp hq hr hs ht hu hv hw hx hy hz ia ib ic id ie if ig ih ii ij ik il im in io ip iq ir is it iu iv iw ix iy iz ja jb jc jd je jf jg jh ji jj jk jl jm jn jo jp jq jr js jt ju jv jw jx jy jz ka kb kc kd ke kf kg kh ki kj kk kl km kn ko kp kq kr ks kt ku kv kw kx ky kz la lb lc ld le lf lg lh li lj lk ll lm ln lo lp lq lr ls lt lu lv lw lx ly lz ma mb mc md Wieser, Michael E.; Coplen, Tyler B. (2010-12-12). "Atomic weights of the elements 2009 (IUPAC Technical Report)". Pure and Applied Chemistry. 83 (2): 359–396. doi:10.1351/PAC-REP-10-09-14. ISSN 1365-3075. S2CID 95898322.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw Wikipedia:Chemical infobox#References
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci cj ck cl cm cn co cp cq cr cs ct cu cv cw cx cy cz da db dc dd de df dg dh di dj dk dl dm dn do dp dq dr ds dt du dv dw dx dy dz ea eb ec ed ee ef eg eh ei ej ek el em en eo ep eq er es et eu ev ew ex ey ez fa fb fc fd fe ff fg fh fi fj fk fl fm fn fo fp fq fr fs ft fu fv fw fx fy fz ga gb gc gd ge gf gg gh gi gj gk gl gm gn go gp gq gr gs gt gu gv gw gx gy gz ha hb hc hd he hf hg hh hi hj hk hl hm hn ho hp hq hr hs ht hu hv hw hx hy hz ia Schoen, J. Andrew, "Listing of Refrigerants" (PDF), Andy's HVAC/R Web Page, archived from the original (PDF) on 2009-03-19, retrieved 2011-12-17
- ^ a b c d e Intergovernmental Panel on Climate Change, ed. (2014), "Anthropogenic and Natural Radiative Forcing", Climate Change 2013 - the Physical Science Basis, Cambridge University Press, pp. 659–740, doi:10.1017/cbo9781107415324.018, ISBN 9781107415324
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci cj ck cl cm cn co cp cq cr cs ct cu cv cw cx cy cz da db dc dd de df dg dh di dj dk dl dm dn do dp dq dr ds dt du dv dw dx dy dz ea eb ec ed ee ef eg eh ei ej ek el em en eo ep eq er es et eu ev ew ex ey ez fa fb fc fd fe ff fg fh fi fj fk fl fm fn fo fp fq fr fs ft fu fv fw fx fy fz ga gb gc gd ge gf gg gh gi gj gk gl gm gn go gp gq gr gs gt gu gv gw gx gy gz ha hb hc hd he hf hg hh hi hj hk hl hm hn ho hp hq hr hs ht hu hv hw hx hy hz ia ib ic id ie if ig ih ii ij ik il im in io ip iq ir is it iu iv iw ix iy iz ja jb jc jd je jf jg jh ji jj jk jl jm jn jo jp jq jr js jt ju jv jw jx jy jz ka kb kc kd ke kf kg kh ki kj kk kl km kn ko kp kq kr ks kt ku kv kw kx ky kz la lb lc ld le lf lg lh li lj lk ll lm ln lo lp lq lr ls lt lu lv lw lx ly lz ma mb mc md me mf mg mh mi mj mk ml mm mn mo mp mq mr ms mt mu mv mw mx my mz na nb nc nd ne nf ng nh ni nj nk nl nm nn no np nq nr ns nt nu nv nw nx "Addenda m, n, o, p, q, r, s, t, u, and v to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2008-06-26. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c d e f g h i j k l m n o "Class I Ozone-depleting Substances". Science - Ozone Layer Protection. US EPA. 2007. Archived from the original on 2010-12-10. Retrieved 2010-12-16.
- ^ a b c d "ANSI/ASHRAE Addendum t to ANSI/ASHRAE Standard 34-2019: Designation and Safety Classification of Refrigerants" (PDF). ANSI/ASHRAE Standard 34-2019: Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. July 25, 2019. ISSN 1041-2336. Retrieved 2024-01-08.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x "Global Warming Potentials of ODS Substitutes". Science - Ozone Layer Protection. US EPA. 2007. Archived from the original on 2010-10-16. Retrieved 2010-12-16.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac "Class II Ozone-depleting Substances". Science - Ozone Layer Protection. US EPA. 2007. Archived from the original on 2010-12-09. Retrieved 2010-12-16.
- ^ The Montreal Protocol on Substances that Deplete the Ozone Layer. UNEP, 2000. ISBN 92-807-1888-6
- ^ a b c d e f g h i j k l m n o p q Montreal Protocol on Substances that Deplete the Ozone Layer: 2006 Report of the Rigid and Flexible Foams Technical Options Committee (FTOC); 2006 Assessment (PDF), Nairobi, Kenya: United Nations Environment Programme (UNEP) Ozone Secretariat, March 2007, ISBN 978-92-807-2826-2, retrieved 2010-12-16
- ^ a b c d e f g h i j k l m n o p q r s "Addenda e, f, g, and h to ANSI/ASHRAE Standard 34-2010" (PDF). ANSI/ASHRAE Standard 34-2010, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2011-02-03. ISSN 1041-2336. Retrieved 2011-12-18.[permanent dead link]
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd "Addenda d, j, l, m, and t to ANSI/ASHRAE Standard 34-2004" (PDF). ANSI/ASHRAE Standard 34-2004, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2007-03-03. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c Ravishankara, A. R.; Daniel, John S.; Portmann, Robert W. (2009-08-27), "Supporting Online Material for - Nitrous Oxide (N2O): The Dominant Ozone-Depleting Substance Emitted in the 21st Century" (PDF), Science, 326 (5949), Washington, DC: 123–125, Bibcode:2009Sci...326..123R, doi:10.1126/science.1176985, PMID 19713491, S2CID 2100618,
Methane's influence on ozone is very dependent on altitude. In the troposphere and lower stratosphere it induces ozone production via "smog chemistry"(10), while at higher altitudes it causes ozone losses [...] The net effect is generally a gain in column ozone due to methane increases, both in the stratospheric column and total column(11). Thus, unlike for N2O, a calculated ODP for methane would likely be negative.
- ^ a b c d e f g h i j k l m n o p q r s t u v Critical point (thermodynamics)#Table of liquid–vapor critical temperature and pressure for selected substances
- ^ a b c d e f Hodnebrog, ∅.; Dalsøren, S.; Myhre, G. (2018), "Lifetimes, direct and indirect radiative forcing, and global warming potentials of ethane (C2H6), propane (C3H8), and butane (C4H10)", Atmos. Sci. Lett., 2018, 19:e804 (2): e804, Bibcode:2018AtScL..19E.804H, doi:10.1002/asl.804
- ^ Lide, D. R., ed. (2005). CRC Handbook of Chemistry and Physics (86th ed.). Boca Raton (FL): CRC Press. p. 3.22. ISBN 978-0-8493-0486-6.
- ^ a b c Papadimitriou, Vassileios C.; McGillen, Max R.; Smith, Shona C.; Jubb, Aaron M.; Portmann, Robert W.; Hall, Bradley D.; Fleming, Eric L.; Jackman, Charles H.; Burkholder, James B. (2013). "1,2-Dichlorohexafluoro-cyclobutane (1,2-c-C4F6Cl2, R-316c) a Potent Ozone Depleting Substance and Greenhouse Gas: Atmospheric Loss Processes, Lifetimes, and Ozone Depletion and Global Warming Potentials for the (E) and (Z) Stereoisomers". The Journal of Physical Chemistry A. 117 (43): 11049–11065. Bibcode:2013JPCA..11711049P. doi:10.1021/jp407823k. hdl:2060/20140012685. PMID 24079521. S2CID 25162740.
- ^ Hydrocarbons are assumed to be similar to Methane in terms of Semi-Empirical ODP being < 0(smog chemistry)
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag Composition of Refrigerant Blends, US EPA, 18 November 2014, retrieved 2022-07-19
- ^ a b c d "Addenda af and ag to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2009-06-25. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah "Addenda i, j, k, l, n, and o to ANSI/ASHRAE Standard 34-2010" (PDF). ANSI/ASHRAE Standard 34-2010, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2011-06-30. ISSN 1041-2336. Retrieved 2011-12-18.[permanent dead link]
- ^ a b c d e f g h i j "Addenda a, b, and d to ANSI/ASHRAE Standard 34-2010" (PDF). ANSI/ASHRAE Standard 34-2010, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2010-07-01. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b IPCC Assessment Report 4 (AR4) 2007, Table 2.14, page 212
- ^ a b "Addenda a, b, c, d, e, f, g, and h to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2007-06-28. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c d e f g h i j "Addenda x, y, aa, ab, ac, ad, and ae to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2009-01-29. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c d e "Addenda i, j, and k to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2008-01-24. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c d e f g h i j "Solstice® N40 (R-448A) | European Refrigerants". www.honeywell-refrigerants.com. Retrieved 2020-12-13.
- ^ "Solstice N40 TDS" (PDF).
- ^ a b c d e f "Forane® 449A (XP40) Refrigerant - Product Information". Arkema. Archived from the original on 2020-10-16. Retrieved 2020-10-14.
- ^ a b "Opteon™ XL55 Refrigerant - Product Information" (PDF). Chemours. Retrieved 2020-10-13.[permanent dead link]
- ^ a b c d e f g "Solstice® L41y (R-452B) Refrigerant - Brochure" (PDF). Honeywell. Retrieved 2020-10-13.
- ^ a b c d e f g h "Features and uses of RS-70" (PDF). Gas Servei. Retrieved 2022-07-19.
- ^ a b c d e f "Opteon™ XL40 Refrigerant - Product Information" (PDF). Chemours. Retrieved 2020-10-13.[permanent dead link]
- ^ a b c d e f "Opteon™ XL41 Refrigerant - Product Information" (PDF). Chemours. Retrieved 2020-10-13.
- ^ "Carrier Introduces Puron Advance™". Carrier. 19 December 2018. Retrieved 2020-10-13.
- ^ a b c d e f "Opteon™ XL20 Refrigerant - Product Information" (PDF). Chemours. Retrieved 2020-10-13.[permanent dead link]
- ^ a b c d e f g "Solstice® L40X (R-455A) | European Refrigerants" (PDF). www.honeywell-refrigerants.com. Retrieved 2018-09-24.
- ^ a b "Fluorinated alternatives in residential and light commercial applications - Forane Refrigerants" (PDF). Arkema. Retrieved 2020-10-13.
- ^ a b c "Protection of Stratospheric Ozone: Listing of Substitutes Under the Significant New Alternatives Policy Program". Federal Register. 2020-06-12. Retrieved 2020-07-01.
- ^ "Federal Register :: Protection of Stratospheric Ozone: Determination 33 for Significant New Alternatives Policy Program". www.federalregister.gov. Retrieved 2019-08-16.
- ^ a b c d e f g "Solstice® N41 (R-466A)". advancedmaterials.honeywell.com. Retrieved 2024-03-17.
- ^ a b c d e f "Opteon™ XP10 (R-513A) refrigerant". www.chemours.com. Retrieved 2018-12-12.
- ^ https://www.opteon.com/en/-/media/files/opteon/opteon-xp30-product-information.pdf?la=en&rev=dbb567acf6554988840dff8d3c725d97 [bare URL PDF]
- ^ "Trane adopts new low GWP refrigerant R514A". 15 June 2016.
- ^ "Honeywell launches R515B, its latest nonflammable HFO, as R134a replacement". 4 February 2020.
- ^ PRODUCT SAFETY DATA SHEET - PRODUCT: RS-45 (R434A) (PDF), Refrigerant Solutions Limited, 2001-10-01, archived from the original (PDF) on 2011-07-03, retrieved 2011-12-16
- ^ a b c d e f g h TRANSITIONING TO LOW-GWP - ALTERNATIVES IN DOMESTIC REFRIGERATION (PDF), US EPA, October 2010, retrieved 2011-12-17
- ^ a b c "HC Refrigerant".
- ^ a b c http://hpc2017.org/wp-content/uploads/2017/05/O.3.3.4-Novel-Working-Fluid-HFO-1336mzzE-for-Use-in-Waste-Heat-Recovery-Applications.pdf [bare URL PDF]
- ^ "EPA Adds SP34E to SNAP Program".
- ^ a b c "II. ADVANTAGES OF AMMONIA AS A REFRIGERANT". Ammonia: The Natural Refrigerant of Choice (An IIAR Green Paper). International Institute of Ammonia Refrigeration. Archived from the original on 2011-07-26. Retrieved 2010-12-21.
- ^ a b "Ammonia - NH3 - Properties". Engineering Toolbox. Retrieved 2011-12-18.
- ^ a b "Refrigerants - Environment Properties". Engineering ToolBox. Archived from the original on 2013-03-14. Retrieved 2011-12-27.
- ^ Archer, David (2005). "Fate of fossil fuel CO
2 in geologic time" (PDF). Journal of Geophysical Research. 110 (C9): C09S05.1–6. Bibcode:2005JGRC..110.9S05A. doi:10.1029/2004JC002625. Retrieved 27 July 2007. - ^ Span R, Wagner W (1996-11-01). "A New Equation of State for Carbon Dioxide Covering the Fluid Region from the Triple-Point Temperature to 1100 K at Pressures up to 800 MPa". Journal of Physical and Chemical Reference Data. 25 (6): 1519. Bibcode:1996JPCRD..25.1509S. doi:10.1063/1.555991.
- ^ a b c "CDC - NIOSH Pocket Guide to Chemical Hazards - Sulfur dioxide", National Institute for Occupational Safety and Health, Centers for Disease Control and Prevention 1600 Clifton Rd. Atlanta, GA 30333, USA, 2010-11-18, retrieved 2012-02-06
- ^ "ICSC 0687 - VINYLIDENE FLUORIDE". www.ilo.org. Retrieved 2018-06-18.
- ^ "New HCFO refrigerant is ASHRAE listed". Cooling Post. 2017-10-23. Retrieved 2021-02-06.
- ^ "NEC develops cooling technology for data centers that reduces air conditioning power by 50%". NEC. Retrieved 2021-02-06.
- ^ "NEC, NTT develop data center cooling system using new low pressure refrigerant". www.datacenterdynamics.com. Retrieved 2021-02-06.
- ^ a b c d e f g https://www.coolingpost.com/world-news/new-hcfo-refrigerant-ashrae-listed/
- ^ a b c "Solstice® LBA Technical Brochure | Blowing Agents". www.honeywell-blowingagents.com. Retrieved 2016-07-05.
- ^ a b GM First to Market Greenhouse Gas-Friendly Air Conditioning Refrigerant in U.S., Warren, Michigan: General Motors, 2010-07-23, retrieved 2010-12-27
- ^ "ANSI/ASHRAE Addendum c to ANSI/ASHRAE Standard 34-2010: Designation and Safety Classification of Refrigerants" (PDF). ASHRAE. 2011-07-27.
- ^ a b c "Addendum w to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2008-11-18. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ https://docs.lib.purdue.edu/cgi/viewcontent.cgi?article=2524&context=iracc [bare URL PDF]
- ^ "Numbering Scheme for Ozone-Depleting Substances and their Substitutes". Science - Ozone Layer Protection. US EPA. 2007. Retrieved 2011-12-18.
- ^ "ANSI/ASHRAE Addendum ak to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2010-02-24. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ a b c "ANSI/ASHRAE Addenda z, ah, ai, and aj to ANSI/ASHRAE Standard 34-2007" (PDF). ANSI/ASHRAE Standard 34-2007, Designation and Safety Classification of Refrigerants. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers. 2010-01-28. ISSN 1041-2336. Archived from the original (PDF) on 2011-10-12. Retrieved 2011-12-18.
- ^ Wade, Leroy G. Jr. (2006). Organic Chemistry (Sixth ed.). Upper Saddle River, New Jersey: Pearson Prentice Hall. pp. 279. ISBN 978-0-13-147871-8. OCLC 56876670.
Notes
[edit]- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci cj ck cl cm cn co cp cq cr cs ct cu cv cw cx cy cz da db dc dd de df dg dh di dj dk dl dm dn do dp dq dr ds dt du dv dw dx dy dz ea eb ec ed ee ef eg eh ei ej ek el em en eo ep eq er es et eu ev ew ex Blend Calculation using the following information: (a) Hydrocarbons are assumed to be similar to Methane in terms of Atmospheric Lifetime being 12 ± 3 years, (b) Pentane & Isopentane is assumed to have a net GWP over 100-yr to be 4 ± 2
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw Blend Calculation using the following information:[4][12][15][14][17][25]
- ^ Triple point; substance sublimes at atmospheric pressure.