Property
Value
Unit
Source
ω
0.6113
Relay (1.0) Calculated Property
Δf G°
-244.62
kJ/mol
Joback Calculated Property
Δf H°gas
-487.79
kJ/mol
Relay (1.0) Calculated Property
Δfus H°
13.05
kJ/mol
Joback Calculated Property
Δvap H°
53.38
kJ/mol
Relay (1.0) Calculated Property
IE
9.71
eV
Relay (1.0) Calculated Property
log 10 WS
-0.05
Relay (1.0) Calculated Property
log Poct/wat
0.794
Crippen Calculated Property
McVol
107.140
ml/mol
McGowan Calculated Property
Pc
3415.86
kPa
Joback Calculated Property
Inp
[797.00; 840.10]
Inp
797.00
NIST
Inp
805.00
NIST
Inp
839.70
NIST
Inp
840.10
NIST
I
1263.80
NIST
Tboil
422.95
K
NIST
Tc
595.20
K
Relay (1.0) Calculated Property
Tfus
203.44
K
Relay (1.0) Calculated Property
Vc
0.403
m3 /kmol
Relay (1.0) Calculated Property
Property
Value
Unit
Temperature (K)
Source
Cp,gas
[230.32; 283.50]
J/mol×K
[450.84; 615.45]
Cp,gas
230.32
J/mol×K
450.84
Joback Calculated Property
Cp,gas
239.95
J/mol×K
478.28
Joback Calculated Property
Cp,gas
249.26
J/mol×K
505.71
Joback Calculated Property
Cp,gas
258.28
J/mol×K
533.15
Joback Calculated Property
Cp,gas
266.99
J/mol×K
560.58
Joback Calculated Property
Cp,gas
275.39
J/mol×K
588.02
Joback Calculated Property
Cp,gas
283.50
J/mol×K
615.45
Joback Calculated Property
Cp,liquid
[271.60; 302.40]
J/mol×K
[275.15; 339.15]
Cp,liquid
271.60
J/mol×K
275.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
272.40
J/mol×K
276.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
273.20
J/mol×K
278.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
274.00
J/mol×K
279.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
274.80
J/mol×K
281.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
275.60
J/mol×K
282.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
276.40
J/mol×K
284.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
277.20
J/mol×K
285.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
278.00
J/mol×K
287.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
278.80
J/mol×K
288.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
279.60
J/mol×K
290.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
280.30
J/mol×K
291.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
281.10
J/mol×K
293.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
281.90
J/mol×K
294.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
282.60
J/mol×K
296.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
283.40
J/mol×K
297.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
283.60
J/mol×K
298.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
284.10
J/mol×K
299.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
284.90
J/mol×K
300.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
285.60
J/mol×K
302.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
286.40
J/mol×K
303.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
287.10
J/mol×K
305.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
287.80
J/mol×K
306.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
288.50
J/mol×K
308.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
289.20
J/mol×K
309.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
290.00
J/mol×K
311.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
290.70
J/mol×K
312.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
291.40
J/mol×K
314.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
292.10
J/mol×K
315.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
292.80
J/mol×K
317.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
293.40
J/mol×K
318.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
294.10
J/mol×K
320.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
294.80
J/mol×K
321.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
295.50
J/mol×K
323.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
296.10
J/mol×K
324.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
296.80
J/mol×K
326.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
297.50
J/mol×K
327.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
298.10
J/mol×K
329.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
298.80
J/mol×K
330.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
299.40
J/mol×K
332.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
300.00
J/mol×K
333.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
300.70
J/mol×K
335.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
301.30
J/mol×K
336.65
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
301.90
J/mol×K
338.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
Cp,liquid
302.40
J/mol×K
339.15
Heat capacity of dowanols within a temperature range of (275.15 to 339.15) K. Measurements and prediction.
η
[0.0001822; 0.0820702]
Pa×s
[225.43; 450.84]
η
0.0820702
Pa×s
225.43
Joback Calculated Property
η
0.0143235
Pa×s
263.00
Joback Calculated Property
η
0.0038675
Pa×s
300.57
Joback Calculated Property
η
0.0013969
Pa×s
338.13
Joback Calculated Property
η
0.0006185
Pa×s
375.70
Joback Calculated Property
η
0.0003176
Pa×s
413.27
Joback Calculated Property
η
0.0001822
Pa×s
450.84
Joback Calculated Property
Pvap
[0.34; 74.98]
kPa
[298.15; 413.15]
Pvap
0.34
kPa
298.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
0.48
kPa
303.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
0.67
kPa
308.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
0.94
kPa
313.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
1.27
kPa
318.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
1.71
kPa
323.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
2.26
kPa
328.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
2.97
kPa
333.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
3.84
kPa
338.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
4.95
kPa
343.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
6.29
kPa
348.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
7.96
kPa
353.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
9.95
kPa
358.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
12.38
kPa
363.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
15.27
kPa
368.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
18.70
kPa
373.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
22.65
kPa
378.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
27.42
kPa
383.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
32.80
kPa
388.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
39.18
kPa
393.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
46.38
kPa
398.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
54.75
kPa
403.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
64.10
kPa
408.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
Pvap
74.98
kPa
413.15
Isobaric vapour liquid equilibria of binary 1-propoxy-2-propanol mixtures with water and alcohols at reduced pressure
ρl
[876.28; 894.46]
kg/m3
[283.15; 303.15]
ρl
894.46
kg/m3
283.15
Volumetric properties of (1-propoxypropan-2-ol + water) mixtures between (283 and 303) K: The effect of branching on alkoxyalcohols
ρl
889.96
kg/m3
288.15
Volumetric properties of (1-propoxypropan-2-ol + water) mixtures between (283 and 303) K: The effect of branching on alkoxyalcohols
ρl
885.46
kg/m3
293.15
Volumetric properties of (1-propoxypropan-2-ol + water) mixtures between (283 and 303) K: The effect of branching on alkoxyalcohols
ρl
880.84
kg/m3
298.15
Volumetric properties of (1-propoxypropan-2-ol + water) mixtures between (283 and 303) K: The effect of branching on alkoxyalcohols
ρl
876.28
kg/m3
303.15
Volumetric properties of (1-propoxypropan-2-ol + water) mixtures between (283 and 303) K: The effect of branching on alkoxyalcohols
csound,fluid
[1211.05; 1301.94]
m/s
[283.15; 308.15]
csound,fluid
1301.94
m/s
283.15
Ultrasound speeds and molar isentropic compressions of aqueous 1-propoxypropan-2-ol mixtures from T = (283.15 to 303.15) K. Influence of solute structure
csound,fluid
1283.21
m/s
288.15
Ultrasound speeds and molar isentropic compressions of aqueous 1-propoxypropan-2-ol mixtures from T = (283.15 to 303.15) K. Influence of solute structure
csound,fluid
1282.87
m/s
288.15
Densities and Speeds of Sound of Binary Liquid Mixtures of Some n-Alkoxypropanols with Methyl Acetate, Ethyl Acetate, and n-Butyl Acetate at T = (288.15, 293.15, 298.15, 303.15, and 308.15) K
csound,fluid
1264.52
m/s
293.15
Ultrasound speeds and molar isentropic compressions of aqueous 1-propoxypropan-2-ol mixtures from T = (283.15 to 303.15) K. Influence of solute structure
csound,fluid
1266.18
m/s
293.15
Densities and Speeds of Sound of Binary Liquid Mixtures of Some n-Alkoxypropanols with Methyl Acetate, Ethyl Acetate, and n-Butyl Acetate at T = (288.15, 293.15, 298.15, 303.15, and 308.15) K
csound,fluid
1245.79
m/s
298.15
Ultrasound speeds and molar isentropic compressions of aqueous 1-propoxypropan-2-ol mixtures from T = (283.15 to 303.15) K. Influence of solute structure
csound,fluid
1247.82
m/s
298.15
Densities and Speeds of Sound of Binary Liquid Mixtures of Some n-Alkoxypropanols with Methyl Acetate, Ethyl Acetate, and n-Butyl Acetate at T = (288.15, 293.15, 298.15, 303.15, and 308.15) K
csound,fluid
1227.33
m/s
303.15
Ultrasound speeds and molar isentropic compressions of aqueous 1-propoxypropan-2-ol mixtures from T = (283.15 to 303.15) K. Influence of solute structure
csound,fluid
1229.44
m/s
303.15
Densities and Speeds of Sound of Binary Liquid Mixtures of Some n-Alkoxypropanols with Methyl Acetate, Ethyl Acetate, and n-Butyl Acetate at T = (288.15, 293.15, 298.15, 303.15, and 308.15) K
csound,fluid
1211.05
m/s
308.15
Densities and Speeds of Sound of Binary Liquid Mixtures of Some n-Alkoxypropanols with Methyl Acetate, Ethyl Acetate, and n-Butyl Acetate at T = (288.15, 293.15, 298.15, 303.15, and 308.15) K