2
0
2017
pap
gad
0
journal
Original
Papovic, S.[Snezana]
Gadzuric, S.[Slobodan]
Tot, A.[Aleksandar]
Bester-Rogac, M.[Marija]
Pavlovic, K.[Ksenija]
Vranes, M.[Milan]
J. Chem. Thermodyn.
2017
2020-09-29
A comparative study on the interactions of [bmim][NTf2] ionic liquid with selected four- to seven-membered-ring lactones
Experimental densities and viscosities of binary mixtures of 1-butyl-3-methylimidazolium bis(trifluoro methylsulfonyl)imide ionic liquid, [bmim][NTf2], with selected lactones, namely: b-butyrolactone (BBL), c-valerolactone (GVL), d-valerolactone (DVL) and e-caprolactone (ECL), are measured at atmospheric pressure (p = 0.1 MPa) in the temperature range from T = (293.15 to 323.15) K over the whole composition range. From the experimental density and viscosity results, we data calculated excess parameters and fitted using Redlich Kister s polynomial equation. The thermal expansion coefficients are also derived from the acquired experimental density values. Derived density and viscosity are compared with available literature data for the corresponding {[bmim][NTf2] + GBL (c-butyrolactone)} binary mixtures. Volumetric and viscometric parameters indicate different interactions and geometrical fitting of the lactone molecule with ionic liquid depending on the number of carbon atoms of the lactone. Thermodynamic parameters of viscous flow are also calculated. The influence of the molecular solvent structure and effects of the lactones properties on the nature of interactions in the studied binary mixtures with [bmim][NTf2] are discussed from the obtained volumetric and viscosity values and also density functional theory calculations provided in this work.
Imidazolium ionic liquid
Interactions
Lactones
Volumetric properties
Viscosity
10.1016/j.jct.2016.12.032
107
170-181
1
InChI=1S/C4H6O2/c1-3-2-4(5)6-3/h3H,2H2,1H3
GSCLMSFRWBPUSK-UHFFFAOYSA-N
4-methyl-2-oxetanone
.beta.-butyrolactone
.beta.-methyl-.beta.-propiolactone
.beta.-methylpropiolactone
2-oxetanone, 4-methyl-
3-butanolide
3-hydroxybutyric acid .beta.-lactone
3-hydroxybutyric acid lactone
3-methyl-3-propiolactone
butanoic acid, 3-hydroxy-, .beta.-lactone
butyric acid, 3-hydroxy-, .beta.-lactone
C4H6O2
1
Commercial source
1
99
2
Stated by supplier
2
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
3
0.0048
2
Karl Fischer titration
2
InChI=1S/C5H8O2/c1-4-2-3-5(6)7-4/h4H,2-3H2,1H3
GAEKPEKOJKCEMS-UHFFFAOYSA-N
.gamma.-valerolactone
2(3H)-furanone, dihydro-5-methyl-
4-methylbutyrolactone
4-pentanolide
5-methyloxolan-2-one
5-methyltetrahydro-2-furanone
dihydro-5-methyl-2(3H)-furanone
dihydro-5-methyl-2-furanone
C5H8O2
1
Commercial source
1
99
2
Stated by supplier
2
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
3
0.0052
2
Karl Fischer titration
3
InChI=1S/C5H8O2/c6-5-3-1-2-4-7-5/h1-4H2
OZJPLYNZGCXSJM-UHFFFAOYSA-N
1-oxacyclohexan-2-one
.delta.-valerolactone
2H-pyran-2-one, tetrahydro-
5-valerolactone
oxan-2-one
tetrahydro-2-pyranone
tetrahydro-2H-pyran-2-one
valeric acid, .delta.-hydroxy-, lactone
C5H8O2
1
Commercial source
1
99
2
Stated by supplier
2
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
3
0.0098
2
Karl Fischer titration
4
InChI=1S/C6H10O2/c7-6-4-2-1-3-5-8-6/h1-5H2
PAPBSGBWRJIAAV-UHFFFAOYSA-N
6-hexanolactone
.epsilon.-caprolactone
2-oxepanone
6-hexanolide
caprolactone
oxepan-2-one
C6H10O2
1
Commercial source
1
99
2
Stated by supplier
2
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
Dried in a desiccator
Fractional distillation
Molecular sieve treatment
3
0.0061
2
Karl Fischer titration
5
InChI=1S/C8H15N2.C2F6NO4S2/c1-3-4-5-10-7-6-9(2)8-10;3-1(4,5)14(10,11)9-15(12,13)2(6,7)8/h6-8H,3-5H2,1-2H3;/q+1;-1
INDFXCHYORWHLQ-UHFFFAOYSA-N
1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide
1-butyl-3-methyl-1H-imidazolium bis((trifluoromethyl)sulfonyl)amide
1-butyl-3-methylimidazolium 1,1,1-trifluoro-N-[(trifluoromethyl)sulfonyl]methanesulfonamide
1-butyl-3-methylimidazolium bis((trifluoromethyl)sulfonyl)amide
1-butyl-3-methylimidazolium bis((trifluoromethyl)sulfonyl)imide
1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide [BMIM][NTf2]
C10H15F6N3O4S2
1
Commercial source
1
99
2
Stated by supplier
2
Dried in a desiccator
Dried by vacuum heating
Dried in a desiccator
Dried by vacuum heating
3
0.0073
2
Karl Fischer titration
1
1
1
Principal objective of the work
AB
TRC
8/18/2017
1
Speed of sound, m/s
Sing-around technique in a fixed-path interferometer
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
2
Frequency, MHz
Liquid
3
1
1
Temperature, K
Liquid
1
293.15
5
1
1371.04
6
1
2.99
1
298.15
5
1
1352.77
6
1
2.95
1
303.15
5
1
1334.65
6
1
2.92
1
308.15
5
1
1316.65
6
1
2.89
1
313.15
5
1
1298.78
6
1
2.85
1
318.15
5
1
1281.08
6
1
2.82
1
323.15
5
1
1263.57
6
1
2.78
2
1
1
Principal objective of the work
AB
TRC
8/18/2017
1
Refractive index (Na D-line)
Standard Abbe refractometry
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1.414
4
1
0.003
1
298.15
5
1
1.412
4
1
0.003
1
303.15
5
1
1.41
4
1
0.003
1
308.15
5
1
1.407
4
1
0.003
1
313.15
5
1
1.405
4
1
0.003
1
318.15
5
1
1.403
4
1
0.003
1
323.15
5
1
1.401
4
1
0.003
3
1
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1055.933
7
1
1.966
1
298.15
5
1
1050.682
7
1
1.966
1
303.15
5
1
1045.305
7
1
1.965
1
308.15
5
1
1039.853
7
1
1.965
1
313.15
5
1
1034.331
7
1
1.964
1
318.15
5
1
1028.792
7
1
1.964
1
323.15
5
1
1023.194
7
1
1.963
4
1
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
0.00168
3
1
7e-05
1
298.15
5
1
0.00155
3
1
6e-05
1
303.15
5
1
0.00148
3
1
6e-05
1
308.15
5
1
0.0014
3
1
6e-05
1
313.15
5
1
0.00133
3
1
5e-05
1
318.15
5
1
0.00125
3
1
5e-05
1
323.15
5
1
0.00118
3
1
5e-05
5
2
1
Principal objective of the work
AB
TRC
8/18/2017
1
Speed of sound, m/s
Sing-around technique in a fixed-path interferometer
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
2
Frequency, MHz
Liquid
3
1
1
Temperature, K
Liquid
1
293.15
5
1
1447.3
5
1
3.1
1
298.15
5
1
1429.2
5
1
3.1
1
303.15
5
1
1411.3
5
1
3.1
1
308.15
5
1
1393.5
5
1
3
1
313.15
5
1
1375.9
5
1
3
1
318.15
5
1
1358.4
5
1
3
1
323.15
5
1
1341.2
5
1
2.9
6
2
1
Principal objective of the work
AB
TRC
8/18/2017
1
Refractive index (Na D-line)
Standard Abbe refractometry
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1.434
4
1
0.003
1
298.15
5
1
1.432
4
1
0.003
1
303.15
5
1
1.43
4
1
0.003
1
308.15
5
1
1.427
4
1
0.003
1
313.15
5
1
1.425
4
1
0.003
1
318.15
5
1
1.423
4
1
0.003
1
323.15
5
1
1.421
4
1
0.003
7
2
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1053.989
7
1
1.966
1
298.15
5
1
1049.282
7
1
1.965
1
303.15
5
1
1044.575
7
1
1.965
1
308.15
5
1
1039.869
7
1
1.965
1
313.15
5
1
1035.16
7
1
1.964
1
318.15
5
1
1030.45
7
1
1.964
1
323.15
5
1
1025.736
7
1
1.963
8
2
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
0.00199
3
1
8e-05
1
298.15
5
1
0.00182
3
1
7e-05
1
303.15
5
1
0.00167
3
1
7e-05
1
308.15
5
1
0.00153
3
1
6e-05
1
313.15
5
1
0.00142
3
1
6e-05
1
318.15
5
1
0.00132
3
1
5e-05
1
323.15
5
1
0.00123
3
1
5e-05
9
3
1
Principal objective of the work
AB
TRC
8/18/2017
1
Speed of sound, m/s
Sing-around technique in a fixed-path interferometer
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
2
Frequency, MHz
Liquid
3
1
1
Temperature, K
Liquid
1
293.15
5
1
1587.22
6
1
3.4
1
298.15
5
1
1569.16
6
1
3.37
1
303.15
5
1
1551.27
6
1
3.34
1
308.15
5
1
1533.45
6
1
3.3
1
313.15
5
1
1516.01
6
1
3.27
1
318.15
5
1
1498.63
6
1
3.23
1
323.15
5
1
1481.5
6
1
3.2
10
3
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1108.533
7
1
1.971
1
298.15
5
1
1103.965
7
1
1.971
1
303.15
5
1
1099.439
7
1
1.97
1
308.15
5
1
1094.829
7
1
1.97
1
313.15
5
1
1090.27
7
1
1.969
1
318.15
5
1
1085.706
7
1
1.969
1
323.15
5
1
1081.159
7
1
1.969
11
3
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
0.00368
3
1
0.00015
1
298.15
5
1
0.0033
3
1
0.00013
1
303.15
5
1
0.00298
3
1
0.00012
1
308.15
5
1
0.0027
3
1
0.00011
1
313.15
5
1
0.00247
3
1
0.0001
1
318.15
5
1
0.00225
3
1
9e-05
1
323.15
5
1
0.00209
3
1
9e-05
12
4
1
Principal objective of the work
AB
TRC
8/18/2017
1
Speed of sound, m/s
Sing-around technique in a fixed-path interferometer
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
2
Frequency, MHz
Liquid
3
1
1
Temperature, K
Liquid
1
293.15
5
1
1567.76
6
1
3.37
1
298.15
5
1
1548.28
6
1
3.33
1
303.15
5
1
1528.99
6
1
3.29
1
308.15
5
1
1509.98
6
1
3.26
1
313.15
5
1
1491.2
6
1
3.22
1
318.15
5
1
1472.68
6
1
3.18
1
323.15
5
1
1454.52
6
1
3.15
13
4
1
Principal objective of the work
AB
TRC
8/18/2017
1
Refractive index (Na D-line)
Standard Abbe refractometry
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1.463
4
1
0.003
1
298.15
5
1
1.461
4
1
0.003
1
303.15
5
1
1.459
4
1
0.003
1
308.15
5
1
1.457
4
1
0.003
1
313.15
5
1
1.455
4
1
0.003
1
318.15
5
1
1.454
4
1
0.003
1
323.15
5
1
1.452
4
1
0.003
14
4
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1075.92
7
1
1.968
1
298.15
5
1
1071.669
7
1
1.968
1
303.15
5
1
1067.409
7
1
1.967
1
308.15
5
1
1063.153
7
1
1.967
1
313.15
5
1
1058.9
7
1
1.966
1
318.15
5
1
1054.649
7
1
1.966
1
323.15
5
1
1050.403
7
1
1.966
15
4
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
0.00663
3
1
0.00027
1
298.15
5
1
0.00576
3
1
0.00023
1
303.15
5
1
0.00504
3
1
0.0002
1
308.15
5
1
0.00444
3
1
0.00018
1
313.15
5
1
0.00395
3
1
0.00016
1
318.15
5
1
0.00353
3
1
0.00014
1
323.15
5
1
0.00317
3
1
0.00013
16
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
1
293.15
5
1
1441.612
7
1
2.029
1
298.15
5
1
1436.673
7
1
2.028
1
303.15
5
1
1431.581
7
1
2.027
1
308.15
5
1
1426.615
7
1
2.026
1
313.15
5
1
1421.584
7
1
2.025
1
318.15
5
1
1416.583
7
1
2.023
1
323.15
5
1
1411.542
7
1
2.022
17
1
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
1055.933
7
1
1.966
1
293.15
5
2
0.0493
3
1
1119.771
7
1
2.585
1
293.15
5
2
0.1001
4
1
1167.523
7
1
2.353
1
293.15
5
2
0.1526
4
1
1207.484
7
1
2.266
1
293.15
5
2
0.2001
4
1
1240.414
7
1
2.159
1
293.15
5
2
0.3001
4
1
1291.505
7
1
2.104
1
293.15
5
2
0.4013
4
1
1329.172
7
1
2.067
1
293.15
5
2
0.5004
4
1
1358.851
7
1
2.051
1
293.15
5
2
0.5995
4
1
1382.954
7
1
2.042
1
293.15
5
2
0.6929
4
1
1401.023
7
1
2.032
1
293.15
5
2
0.814
4
1
1415.805
7
1
2.038
1
293.15
5
2
0.9001
4
1
1434.724
7
1
2.038
1
293.15
5
2
1
5
1
1441.612
7
1
2.029
1
298.15
5
2
0
5
1
1050.682
7
1
1.966
1
298.15
5
2
0.0493
3
1
1114.584
7
1
2.585
1
298.15
5
2
0.1001
4
1
1162.325
7
1
2.352
1
298.15
5
2
0.1526
4
1
1202.281
7
1
2.266
1
298.15
5
2
0.2001
4
1
1235.243
7
1
2.155
1
298.15
5
2
0.3001
4
1
1286.399
7
1
2.104
1
298.15
5
2
0.4013
4
1
1324.121
7
1
2.067
1
298.15
5
2
0.5004
4
1
1353.839
7
1
2.051
1
298.15
5
2
0.5995
4
1
1377.944
7
1
2.042
1
298.15
5
2
0.6929
4
1
1396.049
7
1
2.031
1
298.15
5
2
0.814
4
1
1410.842
7
1
2.036
1
298.15
5
2
0.9001
4
1
1429.792
7
1
2.037
1
298.15
5
2
1
5
1
1436.673
7
1
2.028
1
303.15
5
2
0
5
1
1045.305
7
1
1.965
1
303.15
5
2
0.0493
3
1
1109.249
7
1
2.585
1
303.15
5
2
0.1001
4
1
1157.054
7
1
2.352
1
303.15
5
2
0.1526
4
1
1197.004
7
1
2.265
1
303.15
5
2
0.2001
4
1
1229.972
7
1
2.155
1
303.15
5
2
0.3001
4
1
1281.211
7
1
2.103
1
303.15
5
2
0.4013
4
1
1318.982
7
1
2.066
1
303.15
5
2
0.5004
4
1
1348.709
7
1
2.05
1
303.15
5
2
0.5995
4
1
1372.858
7
1
2.04
1
303.15
5
2
0.6929
4
1
1390.949
7
1
2.03
1
303.15
5
2
0.814
4
1
1405.722
7
1
2.035
1
303.15
5
2
0.9001
4
1
1424.691
7
1
2.035
1
303.15
5
2
1
5
1
1431.581
7
1
2.027
1
308.15
5
2
0
5
1
1039.853
7
1
1.965
1
308.15
5
2
0.0493
3
1
1103.89
7
1
2.586
1
308.15
5
2
0.1001
4
1
1151.732
7
1
2.352
1
308.15
5
2
0.1526
4
1
1191.761
7
1
2.265
1
308.15
5
2
0.2001
4
1
1224.717
7
1
2.154
1
308.15
5
2
0.3001
4
1
1276.015
7
1
2.103
1
308.15
5
2
0.4013
4
1
1313.792
7
1
2.065
1
308.15
5
2
0.5004
4
1
1343.591
7
1
2.049
1
308.15
5
2
0.5995
4
1
1367.781
7
1
2.04
1
308.15
5
2
0.6929
4
1
1385.911
7
1
2.029
1
308.15
5
2
0.814
4
1
1400.701
7
1
2.034
1
308.15
5
2
0.9001
4
1
1419.711
7
1
2.034
1
308.15
5
2
1
5
1
1426.615
7
1
2.026
1
313.15
5
2
0
5
1
1034.331
7
1
1.964
1
313.15
5
2
0.0493
3
1
1098.482
7
1
2.587
1
313.15
5
2
0.1001
4
1
1146.34
7
1
2.351
1
313.15
5
2
0.1526
4
1
1186.341
7
1
2.265
1
313.15
5
2
0.2001
4
1
1219.404
7
1
2.154
1
313.15
5
2
0.3001
4
1
1270.762
7
1
2.102
1
313.15
5
2
0.4013
4
1
1308.609
7
1
2.064
1
313.15
5
2
0.5004
4
1
1338.44
7
1
2.048
1
313.15
5
2
0.5995
4
1
1362.651
7
1
2.039
1
313.15
5
2
0.6929
4
1
1380.831
7
1
2.028
1
313.15
5
2
0.814
4
1
1395.6
7
1
2.033
1
313.15
5
2
0.9001
4
1
1414.645
7
1
2.033
1
313.15
5
2
1
5
1
1421.584
7
1
2.025
1
318.15
5
2
0
5
1
1028.792
7
1
1.964
1
318.15
5
2
0.0493
3
1
1093.011
7
1
2.588
1
318.15
5
2
0.1001
4
1
1140.961
7
1
2.352
1
318.15
5
2
0.1526
4
1
1181.016
7
1
2.265
1
318.15
5
2
0.2001
4
1
1214.089
7
1
2.154
1
318.15
5
2
0.3001
4
1
1265.51
7
1
2.101
1
318.15
5
2
0.4013
4
1
1303.394
7
1
2.063
1
318.15
5
2
0.5004
4
1
1333.28
7
1
2.047
1
318.15
5
2
0.5995
4
1
1357.541
7
1
2.038
1
318.15
5
2
0.6929
4
1
1375.74
7
1
2.027
1
318.15
5
2
0.814
4
1
1390.551
7
1
2.031
1
318.15
5
2
0.9001
4
1
1409.632
7
1
2.032
1
318.15
5
2
1
5
1
1416.583
7
1
2.023
1
323.15
5
2
0
5
1
1023.194
7
1
1.963
1
323.15
5
2
0.0493
3
1
1087.482
7
1
2.59
1
323.15
5
2
0.1001
4
1
1135.512
7
1
2.353
1
323.15
5
2
0.1526
4
1
1175.612
7
1
2.264
1
323.15
5
2
0.2001
4
1
1208.719
7
1
2.158
1
323.15
5
2
0.3001
4
1
1260.231
7
1
2.102
1
323.15
5
2
0.4013
4
1
1298.207
7
1
2.063
1
323.15
5
2
0.5004
4
1
1328.11
7
1
2.046
1
323.15
5
2
0.5995
4
1
1352.41
7
1
2.037
1
323.15
5
2
0.6929
4
1
1370.641
7
1
2.026
1
323.15
5
2
0.814
4
1
1385.49
7
1
2.031
1
323.15
5
2
0.9001
4
1
1404.584
7
1
2.032
1
323.15
5
2
1
5
1
1411.542
7
1
2.022
18
1
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
0.00168
3
1
7e-05
1
293.15
5
2
0.0493
3
1
0.00214
3
1
9e-05
1
293.15
5
2
0.1001
4
1
0.00275
3
1
0.00011
1
293.15
5
2
0.1526
4
1
0.00344
3
1
0.00014
1
293.15
5
2
0.2001
4
1
0.00475
3
1
0.0002
1
293.15
5
2
0.3001
4
1
0.00722
3
1
0.0003
1
293.15
5
2
0.4013
4
1
0.01069
4
1
0.00044
1
293.15
5
2
0.5004
4
1
0.01569
4
1
0.00064
1
293.15
5
2
0.5995
4
1
0.02226
4
1
0.00091
1
293.15
5
2
0.6929
4
1
0.02927
4
1
0.00119
1
293.15
5
2
0.814
4
1
0.04015
4
1
0.00163
1
293.15
5
2
0.9001
4
1
0.05031
4
1
0.00204
1
293.15
5
2
1
5
1
0.06208
4
1
0.00251
1
298.15
5
2
0
5
1
0.00155
3
1
6e-05
1
298.15
5
2
0.0493
3
1
0.00197
3
1
8e-05
1
298.15
5
2
0.1001
4
1
0.00252
3
1
0.0001
1
298.15
5
2
0.1526
4
1
0.00317
3
1
0.00013
1
298.15
5
2
0.2001
4
1
0.00438
3
1
0.00018
1
298.15
5
2
0.3001
4
1
0.00659
3
1
0.00027
1
298.15
5
2
0.4013
4
1
0.00961
3
1
0.00039
1
298.15
5
2
0.5004
4
1
0.01344
4
1
0.00055
1
298.15
5
2
0.5995
4
1
0.01855
4
1
0.00076
1
298.15
5
2
0.6929
4
1
0.02432
4
1
0.00099
1
298.15
5
2
0.814
4
1
0.03291
4
1
0.00134
1
298.15
5
2
0.9001
4
1
0.04125
4
1
0.00168
1
298.15
5
2
1
5
1
0.05005
4
1
0.00202
1
303.15
5
2
0
5
1
0.00148
3
1
6e-05
1
303.15
5
2
0.0493
3
1
0.00183
3
1
8e-05
1
303.15
5
2
0.1001
4
1
0.0023
3
1
0.0001
1
303.15
5
2
0.1526
4
1
0.00298
3
1
0.00012
1
303.15
5
2
0.2001
4
1
0.0039
3
1
0.00016
1
303.15
5
2
0.3001
4
1
0.00587
3
1
0.00024
1
303.15
5
2
0.4013
4
1
0.00814
3
1
0.00033
1
303.15
5
2
0.5004
4
1
0.01156
4
1
0.00047
1
303.15
5
2
0.5995
4
1
0.01574
4
1
0.00064
1
303.15
5
2
0.6929
4
1
0.02081
4
1
0.00085
1
303.15
5
2
0.814
4
1
0.02746
4
1
0.00112
1
303.15
5
2
0.9001
4
1
0.03424
4
1
0.00139
1
303.15
5
2
1
5
1
0.04124
4
1
0.00167
1
308.15
5
2
0
5
1
0.0014
3
1
6e-05
1
308.15
5
2
0.0493
3
1
0.00173
3
1
7e-05
1
308.15
5
2
0.1001
4
1
0.00213
3
1
9e-05
1
308.15
5
2
0.1526
4
1
0.00278
3
1
0.00011
1
308.15
5
2
0.2001
4
1
0.00351
3
1
0.00015
1
308.15
5
2
0.3001
4
1
0.00533
3
1
0.00022
1
308.15
5
2
0.4013
4
1
0.00728
3
1
0.0003
1
308.15
5
2
0.5004
4
1
0.01005
4
1
0.00041
1
308.15
5
2
0.5995
4
1
0.01361
4
1
0.00055
1
308.15
5
2
0.6929
4
1
0.01763
4
1
0.00072
1
308.15
5
2
0.814
4
1
0.02324
4
1
0.00094
1
308.15
5
2
0.9001
4
1
0.02809
4
1
0.00114
1
308.15
5
2
1
5
1
0.03365
4
1
0.00136
1
313.15
5
2
0
5
1
0.00133
3
1
5e-05
1
313.15
5
2
0.0493
3
1
0.00163
3
1
7e-05
1
313.15
5
2
0.1001
4
1
0.00199
3
1
8e-05
1
313.15
5
2
0.1526
4
1
0.00255
3
1
0.00011
1
313.15
5
2
0.2001
4
1
0.00321
3
1
0.00013
1
313.15
5
2
0.3001
4
1
0.00472
3
1
0.00019
1
313.15
5
2
0.4013
4
1
0.00641
3
1
0.00026
1
313.15
5
2
0.5004
4
1
0.00882
3
1
0.00036
1
313.15
5
2
0.5995
4
1
0.01175
4
1
0.00048
1
313.15
5
2
0.6929
4
1
0.01503
4
1
0.00061
1
313.15
5
2
0.814
4
1
0.01976
4
1
0.0008
1
313.15
5
2
0.9001
4
1
0.02376
4
1
0.00097
1
313.15
5
2
1
5
1
0.02828
4
1
0.00115
1
318.15
5
2
0
5
1
0.00125
3
1
5e-05
1
318.15
5
2
0.0493
3
1
0.00153
3
1
6e-05
1
318.15
5
2
0.1001
4
1
0.00186
3
1
8e-05
1
318.15
5
2
0.1526
4
1
0.00236
3
1
0.0001
1
318.15
5
2
0.2001
4
1
0.00294
3
1
0.00012
1
318.15
5
2
0.3001
4
1
0.00423
3
1
0.00017
1
318.15
5
2
0.4013
4
1
0.00576
3
1
0.00024
1
318.15
5
2
0.5004
4
1
0.00774
3
1
0.00032
1
318.15
5
2
0.5995
4
1
0.01026
4
1
0.00042
1
318.15
5
2
0.6929
4
1
0.01301
4
1
0.00053
1
318.15
5
2
0.814
4
1
0.01682
4
1
0.00068
1
318.15
5
2
0.9001
4
1
0.02035
4
1
0.00083
1
318.15
5
2
1
5
1
0.02391
4
1
0.00097
1
323.15
5
2
0
5
1
0.00118
3
1
5e-05
1
323.15
5
2
0.0493
3
1
0.00146
3
1
6e-05
1
323.15
5
2
0.1001
4
1
0.00172
3
1
7e-05
1
323.15
5
2
0.1526
4
1
0.00221
3
1
9e-05
1
323.15
5
2
0.2001
4
1
0.0027
3
1
0.00011
1
323.15
5
2
0.3001
4
1
0.00392
3
1
0.00016
1
323.15
5
2
0.4013
4
1
0.00518
3
1
0.00021
1
323.15
5
2
0.5004
4
1
0.00691
3
1
0.00028
1
323.15
5
2
0.5995
4
1
0.00902
3
1
0.00037
1
323.15
5
2
0.6929
4
1
0.0114
4
1
0.00046
1
323.15
5
2
0.814
4
1
0.01441
4
1
0.00059
1
323.15
5
2
0.9001
4
1
0.01727
4
1
0.0007
1
323.15
5
2
1
5
1
0.02064
4
1
0.00084
19
2
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
1053.989
7
1
1.966
1
293.15
5
2
0.0505
3
1
1108.435
7
1
2.47
1
293.15
5
2
0.1001
4
1
1153.24
7
1
2.345
1
293.15
5
2
0.1492
4
1
1191.446
7
1
2.244
1
293.15
5
2
0.1998
4
1
1223.25
7
1
2.144
1
293.15
5
2
0.3008
4
1
1274.043
7
1
2.112
1
293.15
5
2
0.4031
4
1
1317.286
7
1
2.073
1
293.15
5
2
0.5048
4
1
1347.031
7
1
2.052
1
293.15
5
2
0.6031
4
1
1373.157
7
1
2.047
1
293.15
5
2
0.6973
4
1
1393.956
7
1
2.041
1
293.15
5
2
0.7994
4
1
1413.303
7
1
2.042
1
293.15
5
2
0.8711
4
1
1426.6
7
1
2.036
1
293.15
5
2
1
5
1
1441.612
7
1
2.029
1
298.15
5
2
0
5
1
1049.282
7
1
1.965
1
298.15
5
2
0.0505
3
1
1103.664
7
1
2.469
1
298.15
5
2
0.1001
4
1
1148.418
7
1
2.344
1
298.15
5
2
0.1492
4
1
1186.577
7
1
2.243
1
298.15
5
2
0.1998
4
1
1218.361
7
1
2.141
1
298.15
5
2
0.3008
4
1
1269.117
7
1
2.111
1
298.15
5
2
0.4031
4
1
1312.353
7
1
2.072
1
298.15
5
2
0.5048
4
1
1342.098
7
1
2.051
1
298.15
5
2
0.6031
4
1
1368.219
7
1
2.046
1
298.15
5
2
0.6973
4
1
1389.013
7
1
2.04
1
298.15
5
2
0.7994
4
1
1408.364
7
1
2.041
1
298.15
5
2
0.8711
4
1
1421.669
7
1
2.035
1
298.15
5
2
1
5
1
1436.673
7
1
2.028
1
303.15
5
2
0
5
1
1044.575
7
1
1.965
1
303.15
5
2
0.0505
3
1
1098.863
7
1
2.467
1
303.15
5
2
0.1001
4
1
1143.543
7
1
2.342
1
303.15
5
2
0.1492
4
1
1181.67
7
1
2.242
1
303.15
5
2
0.1998
4
1
1213.417
7
1
2.14
1
303.15
5
2
0.3008
4
1
1264.123
7
1
2.11
1
303.15
5
2
0.4031
4
1
1307.332
7
1
2.071
1
303.15
5
2
0.5048
4
1
1337.066
7
1
2.05
1
303.15
5
2
0.6031
4
1
1363.162
7
1
2.045
1
303.15
5
2
0.6973
4
1
1383.94
7
1
2.039
1
303.15
5
2
0.7994
4
1
1403.286
7
1
2.04
1
303.15
5
2
0.8711
4
1
1416.593
7
1
2.034
1
303.15
5
2
1
5
1
1431.581
7
1
2.027
1
308.15
5
2
0
5
1
1039.869
7
1
1.965
1
308.15
5
2
0.0505
3
1
1094.085
7
1
2.465
1
308.15
5
2
0.1001
4
1
1138.712
7
1
2.341
1
308.15
5
2
0.1492
4
1
1176.803
7
1
2.241
1
308.15
5
2
0.1998
4
1
1208.522
7
1
2.139
1
308.15
5
2
0.3008
4
1
1259.203
7
1
2.109
1
308.15
5
2
0.4031
4
1
1302.39
6
1
2.07
1
308.15
5
2
0.5048
4
1
1332.109
7
1
2.049
1
308.15
5
2
0.6031
4
1
1358.201
7
1
2.044
1
308.15
5
2
0.6973
4
1
1378.985
7
1
2.038
1
308.15
5
2
0.7994
4
1
1398.335
7
1
2.039
1
308.15
5
2
0.8711
4
1
1411.63
7
1
2.032
1
308.15
5
2
1
5
1
1426.615
7
1
2.026
1
313.15
5
2
0
5
1
1035.16
7
1
1.964
1
313.15
5
2
0.0505
3
1
1089.308
7
1
2.463
1
313.15
5
2
0.1001
4
1
1133.866
7
1
2.34
1
313.15
5
2
0.1492
4
1
1171.928
7
1
2.24
1
313.15
5
2
0.1998
4
1
1203.61
7
1
2.138
1
313.15
5
2
0.3008
4
1
1254.26
7
1
2.108
1
313.15
5
2
0.4031
4
1
1297.418
7
1
2.069
1
313.15
5
2
0.5048
4
1
1327.123
7
1
2.048
1
313.15
5
2
0.6031
4
1
1353.205
7
1
2.043
1
313.15
5
2
0.6973
4
1
1373.982
7
1
2.037
1
313.15
5
2
0.7994
4
1
1393.329
7
1
2.038
1
313.15
5
2
0.8711
4
1
1406.617
7
1
2.031
1
313.15
5
2
1
5
1
1421.584
7
1
2.025
1
318.15
5
2
0
5
1
1030.45
7
1
1.964
1
318.15
5
2
0.0505
3
1
1084.534
7
1
2.462
1
318.15
5
2
0.1001
4
1
1129.046
7
1
2.339
1
318.15
5
2
0.1492
4
1
1167.057
7
1
2.239
1
318.15
5
2
0.1998
4
1
1198.73
7
1
2.138
1
318.15
5
2
0.3008
4
1
1249.349
7
1
2.107
1
318.15
5
2
0.4031
4
1
1292.486
7
1
2.068
1
318.15
5
2
0.5048
4
1
1322.167
7
1
2.047
1
318.15
5
2
0.6031
4
1
1348.239
7
1
2.042
1
318.15
5
2
0.6973
4
1
1369.019
7
1
2.036
1
318.15
5
2
0.7994
4
1
1388.353
7
1
2.037
1
318.15
5
2
0.8711
4
1
1401.625
7
1
2.03
1
318.15
5
2
1
5
1
1416.583
7
1
2.023
1
323.15
5
2
0
5
1
1025.736
7
1
1.963
1
323.15
5
2
0.0505
3
1
1079.757
7
1
2.461
1
323.15
5
2
0.1001
4
1
1124.224
7
1
2.338
1
323.15
5
2
0.1492
4
1
1162.18
7
1
2.238
1
323.15
5
2
0.1998
4
1
1193.829
7
1
2.14
1
323.15
5
2
0.3008
4
1
1244.4
7
1
2.107
1
323.15
5
2
0.4031
4
1
1287.508
7
1
2.068
1
323.15
5
2
0.5048
4
1
1317.181
7
1
2.046
1
323.15
5
2
0.6031
4
1
1343.248
7
1
2.041
1
323.15
5
2
0.6973
4
1
1364.021
7
1
2.035
1
323.15
5
2
0.7994
4
1
1383.348
7
1
2.035
1
323.15
5
2
0.8711
4
1
1396.604
7
1
2.03
1
323.15
5
2
1
5
1
1411.542
7
1
2.022
20
2
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
0.00199
3
1
8e-05
1
293.15
5
2
0.0505
3
1
0.00251
3
1
0.0001
1
293.15
5
2
0.1001
4
1
0.00321
3
1
0.00013
1
293.15
5
2
0.1492
4
1
0.00428
3
1
0.00018
1
293.15
5
2
0.1998
4
1
0.0056
3
1
0.00023
1
293.15
5
2
0.3008
4
1
0.00884
3
1
0.00036
1
293.15
5
2
0.4031
4
1
0.01388
4
1
0.00057
1
293.15
5
2
0.5048
4
1
0.01918
4
1
0.00078
1
293.15
5
2
0.6031
4
1
0.02588
4
1
0.00105
1
293.15
5
2
0.6973
4
1
0.03312
4
1
0.00135
1
293.15
5
2
0.7994
4
1
0.04231
4
1
0.00172
1
293.15
5
2
0.8711
4
1
0.05045
4
1
0.00204
1
293.15
5
2
1
5
1
0.06208
4
1
0.00251
1
298.15
5
2
0
5
1
0.00182
3
1
7e-05
1
298.15
5
2
0.0505
3
1
0.00221
3
1
9e-05
1
298.15
5
2
0.1001
4
1
0.00276
3
1
0.00011
1
298.15
5
2
0.1492
4
1
0.00357
3
1
0.00015
1
298.15
5
2
0.1998
4
1
0.00471
3
1
0.00019
1
298.15
5
2
0.3008
4
1
0.0072
3
1
0.0003
1
298.15
5
2
0.4031
4
1
0.01111
4
1
0.00045
1
298.15
5
2
0.5048
4
1
0.01534
4
1
0.00063
1
298.15
5
2
0.6031
4
1
0.02069
4
1
0.00084
1
298.15
5
2
0.6973
4
1
0.02655
4
1
0.00108
1
298.15
5
2
0.7994
4
1
0.03416
4
1
0.00139
1
298.15
5
2
0.8711
4
1
0.04079
4
1
0.00166
1
298.15
5
2
1
5
1
0.05005
4
1
0.00202
1
303.15
5
2
0
5
1
0.00167
3
1
7e-05
1
303.15
5
2
0.0505
3
1
0.00198
3
1
8e-05
1
303.15
5
2
0.1001
4
1
0.00245
3
1
0.0001
1
303.15
5
2
0.1492
4
1
0.00313
3
1
0.00013
1
303.15
5
2
0.1998
4
1
0.00403
3
1
0.00017
1
303.15
5
2
0.3008
4
1
0.00601
3
1
0.00025
1
303.15
5
2
0.4031
4
1
0.00911
3
1
0.00037
1
303.15
5
2
0.5048
4
1
0.01252
4
1
0.00051
1
303.15
5
2
0.6031
4
1
0.01718
4
1
0.0007
1
303.15
5
2
0.6973
4
1
0.02162
4
1
0.00088
1
303.15
5
2
0.7994
4
1
0.02785
4
1
0.00113
1
303.15
5
2
0.8711
4
1
0.03315
4
1
0.00135
1
303.15
5
2
1
5
1
0.04124
4
1
0.00167
1
308.15
5
2
0
5
1
0.00153
3
1
6e-05
1
308.15
5
2
0.0505
3
1
0.00181
3
1
7e-05
1
308.15
5
2
0.1001
4
1
0.00222
3
1
9e-05
1
308.15
5
2
0.1492
4
1
0.00279
3
1
0.00012
1
308.15
5
2
0.1998
4
1
0.00353
3
1
0.00015
1
308.15
5
2
0.3008
4
1
0.00516
3
1
0.00021
1
308.15
5
2
0.4031
4
1
0.00778
3
1
0.00032
1
308.15
5
2
0.5048
4
1
0.0106
4
1
0.00043
1
308.15
5
2
0.6031
4
1
0.01412
4
1
0.00058
1
308.15
5
2
0.6973
4
1
0.01797
4
1
0.00073
1
308.15
5
2
0.7994
4
1
0.02282
4
1
0.00093
1
308.15
5
2
0.8711
4
1
0.02709
4
1
0.0011
1
308.15
5
2
1
5
1
0.03365
4
1
0.00136
1
313.15
5
2
0
5
1
0.00142
3
1
6e-05
1
313.15
5
2
0.0505
3
1
0.00165
3
1
7e-05
1
313.15
5
2
0.1001
4
1
0.002
3
1
8e-05
1
313.15
5
2
0.1492
4
1
0.00245
3
1
0.0001
1
313.15
5
2
0.1998
4
1
0.00317
3
1
0.00013
1
313.15
5
2
0.3008
4
1
0.0045
3
1
0.00018
1
313.15
5
2
0.4031
4
1
0.00665
3
1
0.00027
1
313.15
5
2
0.5048
4
1
0.00902
3
1
0.00037
1
313.15
5
2
0.6031
4
1
0.01205
4
1
0.00049
1
313.15
5
2
0.6973
4
1
0.01514
4
1
0.00062
1
313.15
5
2
0.7994
4
1
0.01914
4
1
0.00078
1
313.15
5
2
0.8711
4
1
0.0227
4
1
0.00092
1
313.15
5
2
1
5
1
0.02828
4
1
0.00115
1
318.15
5
2
0
5
1
0.00132
3
1
5e-05
1
318.15
5
2
0.0505
3
1
0.00152
3
1
6e-05
1
318.15
5
2
0.1001
4
1
0.00179
3
1
7e-05
1
318.15
5
2
0.1492
4
1
0.00222
3
1
9e-05
1
318.15
5
2
0.1998
4
1
0.0028
3
1
0.00012
1
318.15
5
2
0.3008
4
1
0.00403
3
1
0.00017
1
318.15
5
2
0.4031
4
1
0.00576
3
1
0.00024
1
318.15
5
2
0.5048
4
1
0.00784
3
1
0.00032
1
318.15
5
2
0.6031
4
1
0.01041
4
1
0.00042
1
318.15
5
2
0.6973
4
1
0.01296
4
1
0.00053
1
318.15
5
2
0.7994
4
1
0.01642
4
1
0.00067
1
318.15
5
2
0.8711
4
1
0.01925
4
1
0.00078
1
318.15
5
2
1
5
1
0.02391
4
1
0.00097
1
323.15
5
2
0
5
1
0.00123
3
1
5e-05
1
323.15
5
2
0.0505
3
1
0.00141
3
1
6e-05
1
323.15
5
2
0.1001
4
1
0.00166
3
1
7e-05
1
323.15
5
2
0.1492
4
1
0.00204
3
1
8e-05
1
323.15
5
2
0.1998
4
1
0.00249
3
1
0.0001
1
323.15
5
2
0.3008
4
1
0.00359
3
1
0.00015
1
323.15
5
2
0.4031
4
1
0.00519
3
1
0.00021
1
323.15
5
2
0.5048
4
1
0.00698
3
1
0.00028
1
323.15
5
2
0.6031
4
1
0.00922
3
1
0.00038
1
323.15
5
2
0.6973
4
1
0.01145
4
1
0.00047
1
323.15
5
2
0.7994
4
1
0.01432
4
1
0.00058
1
323.15
5
2
0.8711
4
1
0.01668
4
1
0.00068
1
323.15
5
2
1
5
1
0.02064
4
1
0.00084
21
3
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
1108.533
7
1
1.971
1
293.15
5
2
0.0532
3
1
1156.676
7
1
2.373
1
293.15
5
2
0.1004
4
1
1196.303
7
1
2.279
1
293.15
5
2
0.1504
4
1
1229.634
7
1
2.189
1
293.15
5
2
0.1999
4
1
1257.203
7
1
2.115
1
293.15
5
2
0.2988
4
1
1300.904
7
1
2.088
1
293.15
5
2
0.4006
4
1
1337.767
7
1
2.059
1
293.15
5
2
0.5005
4
1
1362.898
7
1
2.042
1
293.15
5
2
0.5999
4
1
1384.823
7
1
2.038
1
293.15
5
2
0.7
4
1
1402.176
7
1
2.035
1
293.15
5
2
0.8013
4
1
1418.257
7
1
2.034
1
293.15
5
2
0.8986
4
1
1429.226
7
1
2.034
1
293.15
5
2
1
5
1
1441.612
7
1
2.029
1
298.15
5
2
0
5
1
1103.965
7
1
1.971
1
298.15
5
2
0.0532
3
1
1152.034
7
1
2.372
1
298.15
5
2
0.1004
4
1
1191.605
7
1
2.277
1
298.15
5
2
0.1504
4
1
1224.893
7
1
2.188
1
298.15
5
2
0.1999
4
1
1252.423
7
1
2.112
1
298.15
5
2
0.2988
4
1
1296.08
7
1
2.087
1
298.15
5
2
0.4006
4
1
1332.91
7
1
2.058
1
298.15
5
2
0.5005
4
1
1358.018
7
1
2.041
1
298.15
5
2
0.5999
4
1
1379.925
7
1
2.037
1
298.15
5
2
0.7
4
1
1397.265
7
1
2.034
1
298.15
5
2
0.8013
4
1
1413.334
7
1
2.033
1
298.15
5
2
0.8986
4
1
1424.293
7
1
2.033
1
298.15
5
2
1
5
1
1436.673
7
1
2.028
1
303.15
5
2
0
5
1
1099.439
7
1
1.97
1
303.15
5
2
0.0532
3
1
1147.366
7
1
2.37
1
303.15
5
2
0.1004
4
1
1186.863
7
1
2.276
1
303.15
5
2
0.1504
4
1
1220.093
7
1
2.187
1
303.15
5
2
0.1999
4
1
1247.579
7
1
2.111
1
303.15
5
2
0.2988
4
1
1291.172
7
1
2.086
1
303.15
5
2
0.4006
4
1
1327.956
7
1
2.057
1
303.15
5
2
0.5005
4
1
1353.028
7
1
2.04
1
303.15
5
2
0.5999
4
1
1374.903
7
1
2.036
1
303.15
5
2
0.7
4
1
1392.224
7
1
2.033
1
303.15
5
2
0.8013
4
1
1408.276
7
1
2.032
1
303.15
5
2
0.8986
4
1
1419.219
7
1
2.032
1
303.15
5
2
1
5
1
1431.581
7
1
2.027
1
308.15
5
2
0
5
1
1094.829
7
1
1.97
1
308.15
5
2
0.0532
3
1
1142.723
7
1
2.368
1
308.15
5
2
0.1004
4
1
1182.163
7
1
2.275
1
308.15
5
2
0.1504
4
1
1215.342
7
1
2.186
1
308.15
5
2
0.1999
4
1
1242.793
7
1
2.11
1
308.15
5
2
0.2988
4
1
1286.334
7
1
2.085
1
308.15
5
2
0.4006
4
1
1323.083
7
1
2.056
1
308.15
5
2
0.5005
4
1
1348.129
7
1
2.039
1
308.15
5
2
0.5999
4
1
1369.986
7
1
2.034
1
308.15
5
2
0.7
4
1
1387.287
7
1
2.032
1
308.15
5
2
0.8013
4
1
1403.328
7
1
2.031
1
308.15
5
2
0.8986
4
1
1414.263
7
1
2.03
1
308.15
5
2
1
5
1
1426.615
7
1
2.026
1
313.15
5
2
0
5
1
1090.27
7
1
1.969
1
313.15
5
2
0.0532
3
1
1138.1
7
1
2.367
1
313.15
5
2
0.1004
4
1
1177.467
7
1
2.273
1
313.15
5
2
0.1504
4
1
1210.596
7
1
2.185
1
313.15
5
2
0.1999
4
1
1238.009
7
1
2.109
1
313.15
5
2
0.2988
4
1
1281.496
7
1
2.084
1
313.15
5
2
0.4006
4
1
1318.197
7
1
2.055
1
313.15
5
2
0.5005
4
1
1343.214
7
1
2.038
1
313.15
5
2
0.5999
4
1
1365.029
7
1
2.033
1
313.15
5
2
0.7
4
1
1382.314
7
1
2.031
1
313.15
5
2
0.8013
4
1
1398.329
7
1
2.029
1
313.15
5
2
0.8986
4
1
1409.251
7
1
2.029
1
313.15
5
2
1
5
1
1421.584
7
1
2.025
1
318.15
5
2
0
5
1
1085.706
7
1
1.969
1
318.15
5
2
0.0532
3
1
1133.472
7
1
2.365
1
318.15
5
2
0.1004
4
1
1172.787
7
1
2.272
1
318.15
5
2
0.1504
4
1
1205.87
7
1
2.183
1
318.15
5
2
0.1999
4
1
1233.251
7
1
2.108
1
318.15
5
2
0.2988
4
1
1276.688
7
1
2.083
1
318.15
5
2
0.4006
4
1
1313.341
7
1
2.054
1
318.15
5
2
0.5005
4
1
1338.327
7
1
2.037
1
318.15
5
2
0.5999
4
1
1360.127
7
1
2.032
1
318.15
5
2
0.7
4
1
1377.379
7
1
2.03
1
318.15
5
2
0.8013
4
1
1393.369
7
1
2.028
1
318.15
5
2
0.8986
4
1
1404.27
7
1
2.028
1
318.15
5
2
1
5
1
1416.583
7
1
2.023
1
323.15
5
2
0
5
1
1081.159
7
1
1.969
1
323.15
5
2
0.0532
3
1
1128.86
7
1
2.364
1
323.15
5
2
0.1004
4
1
1168.118
7
1
2.271
1
323.15
5
2
0.1504
4
1
1201.157
7
1
2.183
1
323.15
5
2
0.1999
4
1
1228.595
7
1
2.109
1
323.15
5
2
0.2988
4
1
1271.854
7
1
2.082
1
323.15
5
2
0.4006
4
1
1308.45
7
1
2.053
1
323.15
5
2
0.5005
4
1
1333.405
7
1
2.036
1
323.15
5
2
0.5999
4
1
1355.177
7
1
2.031
1
323.15
5
2
0.7
4
1
1372.41
7
1
2.029
1
323.15
5
2
0.8013
4
1
1388.377
7
1
2.027
1
323.15
5
2
0.8986
4
1
1399.256
7
1
2.027
1
323.15
5
2
1
5
1
1411.542
7
1
2.022
22
3
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
0.00368
3
1
0.00015
1
293.15
5
2
0.0532
3
1
0.0046
3
1
0.00019
1
293.15
5
2
0.1004
4
1
0.00591
3
1
0.00024
1
293.15
5
2
0.1504
4
1
0.00747
3
1
0.00031
1
293.15
5
2
0.1999
4
1
0.00895
3
1
0.00037
1
293.15
5
2
0.2988
4
1
0.01308
4
1
0.00053
1
293.15
5
2
0.4006
4
1
0.01795
4
1
0.00073
1
293.15
5
2
0.5005
4
1
0.02377
4
1
0.00097
1
293.15
5
2
0.5999
4
1
0.03089
4
1
0.00126
1
293.15
5
2
0.7
4
1
0.03758
4
1
0.00153
1
293.15
5
2
0.8013
4
1
0.0448
4
1
0.00182
1
293.15
5
2
0.8986
4
1
0.05257
4
1
0.00213
1
293.15
5
2
1
5
1
0.06208
4
1
0.00251
1
298.15
5
2
0
5
1
0.0033
3
1
0.00013
1
298.15
5
2
0.0532
3
1
0.00409
3
1
0.00017
1
298.15
5
2
0.1004
4
1
0.00526
3
1
0.00022
1
298.15
5
2
0.1504
4
1
0.00647
3
1
0.00027
1
298.15
5
2
0.1999
4
1
0.00778
3
1
0.00032
1
298.15
5
2
0.2988
4
1
0.01115
4
1
0.00046
1
298.15
5
2
0.4006
4
1
0.01514
4
1
0.00062
1
298.15
5
2
0.5005
4
1
0.0198
4
1
0.00081
1
298.15
5
2
0.5999
4
1
0.02562
4
1
0.00104
1
298.15
5
2
0.7
4
1
0.03117
4
1
0.00127
1
298.15
5
2
0.8013
4
1
0.03732
4
1
0.00151
1
298.15
5
2
0.8986
4
1
0.04318
4
1
0.00175
1
298.15
5
2
1
5
1
0.05005
4
1
0.00202
1
303.15
5
2
0
5
1
0.00298
3
1
0.00012
1
303.15
5
2
0.0532
3
1
0.0037
3
1
0.00015
1
303.15
5
2
0.1004
4
1
0.00458
3
1
0.00019
1
303.15
5
2
0.1504
4
1
0.00564
3
1
0.00023
1
303.15
5
2
0.1999
4
1
0.00674
3
1
0.00028
1
303.15
5
2
0.2988
4
1
0.00963
3
1
0.00039
1
303.15
5
2
0.4006
4
1
0.01292
4
1
0.00053
1
303.15
5
2
0.5005
4
1
0.01677
4
1
0.00068
1
303.15
5
2
0.5999
4
1
0.02134
4
1
0.00087
1
303.15
5
2
0.7
4
1
0.02571
4
1
0.00104
1
303.15
5
2
0.8013
4
1
0.03093
4
1
0.00126
1
303.15
5
2
0.8986
4
1
0.03578
4
1
0.00145
1
303.15
5
2
1
5
1
0.04124
4
1
0.00167
1
308.15
5
2
0
5
1
0.0027
3
1
0.00011
1
308.15
5
2
0.0532
3
1
0.00321
3
1
0.00013
1
308.15
5
2
0.1004
4
1
0.00408
3
1
0.00017
1
308.15
5
2
0.1504
4
1
0.00509
3
1
0.00021
1
308.15
5
2
0.1999
4
1
0.00606
3
1
0.00025
1
308.15
5
2
0.2988
4
1
0.00842
3
1
0.00034
1
308.15
5
2
0.4006
4
1
0.01104
4
1
0.00045
1
308.15
5
2
0.5005
4
1
0.01416
4
1
0.00058
1
308.15
5
2
0.5999
4
1
0.01833
4
1
0.00075
1
308.15
5
2
0.7
4
1
0.0219
4
1
0.00089
1
308.15
5
2
0.8013
4
1
0.02549
4
1
0.00103
1
308.15
5
2
0.8986
4
1
0.02916
4
1
0.00118
1
308.15
5
2
1
5
1
0.03365
4
1
0.00136
1
313.15
5
2
0
5
1
0.00247
3
1
0.0001
1
313.15
5
2
0.0532
3
1
0.0029
3
1
0.00012
1
313.15
5
2
0.1004
4
1
0.00367
3
1
0.00015
1
313.15
5
2
0.1504
4
1
0.00449
3
1
0.00018
1
313.15
5
2
0.1999
4
1
0.00531
3
1
0.00022
1
313.15
5
2
0.2988
4
1
0.00736
3
1
0.0003
1
313.15
5
2
0.4006
4
1
0.00961
3
1
0.00039
1
313.15
5
2
0.5005
4
1
0.01224
4
1
0.0005
1
313.15
5
2
0.5999
4
1
0.01574
4
1
0.00064
1
313.15
5
2
0.7
4
1
0.01859
4
1
0.00075
1
313.15
5
2
0.8013
4
1
0.02165
4
1
0.00088
1
313.15
5
2
0.8986
4
1
0.0247
4
1
0.001
1
313.15
5
2
1
5
1
0.02828
4
1
0.00115
1
318.15
5
2
0
5
1
0.00225
3
1
9e-05
1
318.15
5
2
0.0532
3
1
0.00263
3
1
0.00011
1
318.15
5
2
0.1004
4
1
0.00324
3
1
0.00013
1
318.15
5
2
0.1504
4
1
0.00402
3
1
0.00016
1
318.15
5
2
0.1999
4
1
0.00472
3
1
0.00019
1
318.15
5
2
0.2988
4
1
0.00655
3
1
0.00027
1
318.15
5
2
0.4006
4
1
0.00849
3
1
0.00035
1
318.15
5
2
0.5005
4
1
0.01065
4
1
0.00043
1
318.15
5
2
0.5999
4
1
0.0137
4
1
0.00056
1
318.15
5
2
0.7
4
1
0.01598
4
1
0.00065
1
318.15
5
2
0.8013
4
1
0.01879
4
1
0.00076
1
318.15
5
2
0.8986
4
1
0.02114
4
1
0.00086
1
318.15
5
2
1
5
1
0.02391
4
1
0.00097
1
323.15
5
2
0
5
1
0.00209
3
1
9e-05
1
323.15
5
2
0.0532
3
1
0.00244
3
1
0.0001
1
323.15
5
2
0.1004
4
1
0.00296
3
1
0.00012
1
323.15
5
2
0.1504
4
1
0.00363
3
1
0.00015
1
323.15
5
2
0.1999
4
1
0.00426
3
1
0.00017
1
323.15
5
2
0.2988
4
1
0.00582
3
1
0.00024
1
323.15
5
2
0.4006
4
1
0.00749
3
1
0.00031
1
323.15
5
2
0.5005
4
1
0.00929
3
1
0.00038
1
323.15
5
2
0.5999
4
1
0.0112
4
1
0.00046
1
323.15
5
2
0.7
4
1
0.01385
4
1
0.00056
1
323.15
5
2
0.8013
4
1
0.01568
4
1
0.00064
1
323.15
5
2
0.8986
4
1
0.01785
4
1
0.00072
1
323.15
5
2
1
5
1
0.02064
4
1
0.00084
23
4
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Mass density, kg/m3
Vibrating tube method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
1075.92
7
1
1.968
1
293.15
5
2
0.05
3
1
1122.038
7
1
2.352
1
293.15
5
2
0.1002
4
1
1161.48
7
1
2.261
1
293.15
5
2
0.1505
4
1
1195.512
7
1
2.199
1
293.15
5
2
0.1985
4
1
1223.863
7
1
2.132
1
293.15
5
2
0.3001
4
1
1273.583
7
1
2.101
1
293.15
5
2
0.3987
4
1
1311.896
7
1
2.071
1
293.15
5
2
0.4903
4
1
1341.131
7
1
2.05
1
293.15
5
2
0.6309
4
1
1377.361
7
1
2.048
1
293.15
5
2
0.6988
4
1
1391.969
7
1
2.039
1
293.15
5
2
0.8042
4
1
1411.814
7
1
2.04
1
293.15
5
2
0.883
4
1
1424.764
7
1
2.038
1
293.15
5
2
1
5
1
1441.612
7
1
2.029
1
298.15
5
2
0
5
1
1071.669
7
1
1.968
1
298.15
5
2
0.05
3
1
1117.682
7
1
2.35
1
298.15
5
2
0.1002
4
1
1157.037
7
1
2.26
1
298.15
5
2
0.1505
4
1
1191.002
7
1
2.198
1
298.15
5
2
0.1985
4
1
1219.295
7
1
2.129
1
298.15
5
2
0.3001
4
1
1268.922
7
1
2.1
1
298.15
5
2
0.3987
4
1
1307.166
7
1
2.07
1
298.15
5
2
0.4903
4
1
1336.352
7
1
2.049
1
298.15
5
2
0.6309
4
1
1372.524
7
1
2.047
1
298.15
5
2
0.6988
4
1
1387.109
7
1
2.038
1
298.15
5
2
0.8042
4
1
1406.924
7
1
2.039
1
298.15
5
2
0.883
4
1
1419.854
7
1
2.037
1
298.15
5
2
1
5
1
1436.673
7
1
2.028
1
303.15
5
2
0
5
1
1067.409
7
1
1.967
1
303.15
5
2
0.05
3
1
1113.302
7
1
2.348
1
303.15
5
2
0.1002
4
1
1152.558
7
1
2.258
1
303.15
5
2
0.1505
4
1
1186.441
7
1
2.197
1
303.15
5
2
0.1985
4
1
1214.667
7
1
2.128
1
303.15
5
2
0.3001
4
1
1264.183
7
1
2.099
1
303.15
5
2
0.3987
4
1
1302.345
7
1
2.069
1
303.15
5
2
0.4903
4
1
1331.468
7
1
2.048
1
303.15
5
2
0.6309
4
1
1367.565
7
1
2.046
1
303.15
5
2
0.6988
4
1
1382.121
7
1
2.037
1
303.15
5
2
0.8042
4
1
1401.894
7
1
2.038
1
303.15
5
2
0.883
4
1
1414.798
7
1
2.035
1
303.15
5
2
1
5
1
1431.581
7
1
2.027
1
308.15
5
2
0
5
1
1063.153
7
1
1.967
1
308.15
5
2
0.05
3
1
1108.941
7
1
2.346
1
308.15
5
2
0.1002
4
1
1148.109
7
1
2.256
1
308.15
5
2
0.1505
4
1
1181.92
7
1
2.195
1
308.15
5
2
0.1985
4
1
1210.088
7
1
2.127
1
308.15
5
2
0.3001
4
1
1259.507
7
1
2.098
1
308.15
5
2
0.3987
4
1
1297.596
7
1
2.068
1
308.15
5
2
0.4903
4
1
1326.668
7
1
2.047
1
308.15
5
2
0.6309
4
1
1362.703
7
1
2.045
1
308.15
5
2
0.6988
4
1
1377.234
7
1
2.036
1
308.15
5
2
0.8042
4
1
1396.975
7
1
2.036
1
308.15
5
2
0.883
4
1
1409.856
7
1
2.034
1
308.15
5
2
1
5
1
1426.615
7
1
2.026
1
313.15
5
2
0
5
1
1058.9
7
1
1.966
1
313.15
5
2
0.05
3
1
1104.571
7
1
2.344
1
313.15
5
2
0.1002
4
1
1143.65
7
1
2.255
1
313.15
5
2
0.1505
4
1
1177.384
7
1
2.194
1
313.15
5
2
0.1985
4
1
1205.492
7
1
2.126
1
313.15
5
2
0.3001
4
1
1254.803
7
1
2.096
1
313.15
5
2
0.3987
4
1
1292.815
7
1
2.067
1
313.15
5
2
0.4903
4
1
1321.83
7
1
2.046
1
313.15
5
2
0.6309
4
1
1357.797
7
1
2.044
1
313.15
5
2
0.6988
4
1
1372.303
7
1
2.035
1
313.15
5
2
0.8042
4
1
1392.005
7
1
2.035
1
313.15
5
2
0.883
4
1
1404.862
7
1
2.033
1
313.15
5
2
1
5
1
1421.584
7
1
2.025
1
318.15
5
2
0
5
1
1054.649
7
1
1.966
1
318.15
5
2
0.05
3
1
1100.216
7
1
2.342
1
318.15
5
2
0.1002
4
1
1139.204
7
1
2.253
1
318.15
5
2
0.1505
4
1
1172.861
7
1
2.192
1
318.15
5
2
0.1985
4
1
1200.909
7
1
2.124
1
318.15
5
2
0.3001
4
1
1250.12
7
1
2.095
1
318.15
5
2
0.3987
4
1
1288.057
7
1
2.066
1
318.15
5
2
0.4903
4
1
1317.019
7
1
2.045
1
318.15
5
2
0.6309
4
1
1352.917
7
1
2.043
1
318.15
5
2
0.6988
4
1
1367.394
7
1
2.034
1
318.15
5
2
0.8042
4
1
1387.06
7
1
2.034
1
318.15
5
2
0.883
4
1
1399.893
7
1
2.032
1
318.15
5
2
1
5
1
1416.583
7
1
2.023
1
323.15
5
2
0
5
1
1050.403
7
1
1.966
1
323.15
5
2
0.05
3
1
1095.858
7
1
2.34
1
323.15
5
2
0.1002
4
1
1134.752
7
1
2.251
1
323.15
5
2
0.1505
4
1
1168.332
7
1
2.191
1
323.15
5
2
0.1985
4
1
1196.315
7
1
2.125
1
323.15
5
2
0.3001
4
1
1245.419
7
1
2.094
1
323.15
5
2
0.3987
4
1
1283.28
7
1
2.065
1
323.15
5
2
0.4903
4
1
1312.181
7
1
2.044
1
323.15
5
2
0.6309
4
1
1348.007
7
1
2.041
1
323.15
5
2
0.6988
4
1
1362.453
7
1
2.033
1
323.15
5
2
0.8042
4
1
1382.08
7
1
2.033
1
323.15
5
2
0.883
4
1
1394.889
7
1
2.031
1
323.15
5
2
1
5
1
1411.542
7
1
2.022
24
4
1
5
1
Principal objective of the work
AB
TRC
8/18/2017
1
Viscosity, Pa*s
Capillary tube (Ostwald; Ubbelohde) method
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
100
1
1
Temperature, K
Liquid
2
Mole fraction
5
Liquid
1
293.15
5
2
0
5
1
0.00663
3
1
0.00027
1
293.15
5
2
0.05
3
1
0.00797
3
1
0.00033
1
293.15
5
2
0.1002
4
1
0.00967
3
1
0.0004
1
293.15
5
2
0.1505
4
1
0.01148
4
1
0.00047
1
293.15
5
2
0.1985
4
1
0.0134
4
1
0.00055
1
293.15
5
2
0.3001
4
1
0.01805
4
1
0.00074
1
293.15
5
2
0.3987
4
1
0.02325
4
1
0.00095
1
293.15
5
2
0.4903
4
1
0.02859
4
1
0.00116
1
293.15
5
2
0.6309
4
1
0.03738
4
1
0.00152
1
293.15
5
2
0.6988
4
1
0.0418
4
1
0.0017
1
293.15
5
2
0.8042
4
1
0.0488
4
1
0.00198
1
293.15
5
2
0.883
4
1
0.05408
4
1
0.00219
1
293.15
5
2
1
5
1
0.06208
4
1
0.00251
1
298.15
5
2
0
5
1
0.00576
3
1
0.00023
1
298.15
5
2
0.05
3
1
0.00687
3
1
0.00028
1
298.15
5
2
0.1002
4
1
0.00829
3
1
0.00034
1
298.15
5
2
0.1505
4
1
0.00978
3
1
0.0004
1
298.15
5
2
0.1985
4
1
0.01134
4
1
0.00046
1
298.15
5
2
0.3001
4
1
0.01514
4
1
0.00062
1
298.15
5
2
0.3987
4
1
0.01936
4
1
0.00079
1
298.15
5
2
0.4903
4
1
0.02366
4
1
0.00096
1
298.15
5
2
0.6309
4
1
0.03061
4
1
0.00124
1
298.15
5
2
0.6988
4
1
0.03405
4
1
0.00138
1
298.15
5
2
0.8042
4
1
0.03948
4
1
0.0016
1
298.15
5
2
0.883
4
1
0.04358
4
1
0.00177
1
298.15
5
2
1
5
1
0.05005
4
1
0.00202
1
303.15
5
2
0
5
1
0.00504
3
1
0.0002
1
303.15
5
2
0.05
3
1
0.00597
3
1
0.00024
1
303.15
5
2
0.1002
4
1
0.00718
3
1
0.00029
1
303.15
5
2
0.1505
4
1
0.00842
3
1
0.00034
1
303.15
5
2
0.1985
4
1
0.00971
3
1
0.0004
1
303.15
5
2
0.3001
4
1
0.01278
4
1
0.00052
1
303.15
5
2
0.3987
4
1
0.01615
4
1
0.00066
1
303.15
5
2
0.4903
4
1
0.01954
4
1
0.00079
1
303.15
5
2
0.6309
4
1
0.0252
4
1
0.00102
1
303.15
5
2
0.6988
4
1
0.02807
4
1
0.00114
1
303.15
5
2
0.8042
4
1
0.03258
4
1
0.00132
1
303.15
5
2
0.883
4
1
0.03602
4
1
0.00146
1
303.15
5
2
1
5
1
0.04124
4
1
0.00167
1
308.15
5
2
0
5
1
0.00444
3
1
0.00018
1
308.15
5
2
0.05
3
1
0.00522
3
1
0.00021
1
308.15
5
2
0.1002
4
1
0.00625
3
1
0.00026
1
308.15
5
2
0.1505
4
1
0.00726
3
1
0.0003
1
308.15
5
2
0.1985
4
1
0.00836
3
1
0.00034
1
308.15
5
2
0.3001
4
1
0.01091
4
1
0.00044
1
308.15
5
2
0.3987
4
1
0.01367
4
1
0.00056
1
308.15
5
2
0.4903
4
1
0.01642
4
1
0.00067
1
308.15
5
2
0.6309
4
1
0.02093
4
1
0.00085
1
308.15
5
2
0.6988
4
1
0.02321
4
1
0.00094
1
308.15
5
2
0.8042
4
1
0.02677
4
1
0.00109
1
308.15
5
2
0.883
4
1
0.02949
4
1
0.0012
1
308.15
5
2
1
5
1
0.03365
4
1
0.00136
1
313.15
5
2
0
5
1
0.00395
3
1
0.00016
1
313.15
5
2
0.05
3
1
0.00461
3
1
0.00019
1
313.15
5
2
0.1002
4
1
0.0055
3
1
0.00023
1
313.15
5
2
0.1505
4
1
0.00641
3
1
0.00026
1
313.15
5
2
0.1985
4
1
0.00735
3
1
0.0003
1
313.15
5
2
0.3001
4
1
0.00943
3
1
0.00038
1
313.15
5
2
0.3987
4
1
0.01171
4
1
0.00048
1
313.15
5
2
0.4903
4
1
0.01407
4
1
0.00057
1
313.15
5
2
0.6309
4
1
0.01779
4
1
0.00072
1
313.15
5
2
0.6988
4
1
0.01967
4
1
0.0008
1
313.15
5
2
0.8042
4
1
0.02259
4
1
0.00092
1
313.15
5
2
0.883
4
1
0.02485
4
1
0.00101
1
313.15
5
2
1
5
1
0.02828
4
1
0.00115
1
318.15
5
2
0
5
1
0.00353
3
1
0.00014
1
318.15
5
2
0.05
3
1
0.00407
3
1
0.00017
1
318.15
5
2
0.1002
4
1
0.00487
3
1
0.0002
1
318.15
5
2
0.1505
4
1
0.00567
3
1
0.00023
1
318.15
5
2
0.1985
4
1
0.0065
3
1
0.00027
1
318.15
5
2
0.3001
4
1
0.00831
3
1
0.00034
1
318.15
5
2
0.3987
4
1
0.01027
4
1
0.00042
1
318.15
5
2
0.4903
4
1
0.01218
4
1
0.00049
1
318.15
5
2
0.6309
4
1
0.01524
4
1
0.00062
1
318.15
5
2
0.6988
4
1
0.01682
4
1
0.00068
1
318.15
5
2
0.8042
4
1
0.01924
4
1
0.00078
1
318.15
5
2
0.883
4
1
0.02107
4
1
0.00085
1
318.15
5
2
1
5
1
0.02391
4
1
0.00097
1
323.15
5
2
0
5
1
0.00317
3
1
0.00013
1
323.15
5
2
0.05
3
1
0.00369
3
1
0.00015
1
323.15
5
2
0.1002
4
1
0.00436
3
1
0.00018
1
323.15
5
2
0.1505
4
1
0.00503
3
1
0.00021
1
323.15
5
2
0.1985
4
1
0.00573
3
1
0.00023
1
323.15
5
2
0.3001
4
1
0.00726
3
1
0.0003
1
323.15
5
2
0.3987
4
1
0.0089
3
1
0.00036
1
323.15
5
2
0.4903
4
1
0.01053
4
1
0.00043
1
323.15
5
2
0.6309
4
1
0.01314
4
1
0.00053
1
323.15
5
2
0.6988
4
1
0.01449
4
1
0.00059
1
323.15
5
2
0.8042
4
1
0.01664
4
1
0.00068
1
323.15
5
2
0.883
4
1
0.01826
4
1
0.00074
1
323.15
5
2
1
5
1
0.02064
4
1
0.00084