Chemical Properties of 2-Propanol, 1-propoxy- (CAS 1569-01-3)

2-Propanol, 1-propoxy-

InChI
InChI=1S/C6H14O2/c1-3-4-8-5-6(2)7/h6-7H,3-5H2,1-2H3
InChI Key
FENFUOGYJVOCRY-UHFFFAOYSA-N
Formula
C6H14O2
SMILES
CCCOCC(C)O
Molecular Weight1
118.17
CAS
1569-01-3
Other Names
  • 1-Propoxy-2-propanol
  • 1-propoxypropan-2-ol
  • Propasol solvent P
  • Propylene glycol n-propyl ether
  • Propylene glycol-n-monopropyl ether
  • propane, 2-hydroxy-1-propoxy-
  • propylene glycol, 1-propyl ether
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Physical Properties

Property Value Unit Source
ω 0.6113 Relay (1.0) Calculated Property
Δf -244.62 kJ/mol Joback Calculated Property
Δfgas -487.79 kJ/mol Relay (1.0) Calculated Property
Δfus 13.05 kJ/mol Joback Calculated Property
Δvap 53.38 kJ/mol Relay (1.0) Calculated Property
IE 9.71 eV Relay (1.0) Calculated Property
log10WS -0.05 Relay (1.0) Calculated Property
logPoct/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]   Show Hide
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

Temperature Dependent Properties

Property Value Unit Temperature (K) Source
Cp,gas [230.32; 283.50] J/mol×K [450.84; 615.45] Show Hide
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] Show Hide
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] Show Hide
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] Show Hide
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] Show Hide
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] Show Hide
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

Datasets

Mass density, kg/m3

Fixed Measured
Temperature, K - Liquid Pressure, kPa - Liquid Mass density, kg/m3 - Liquid
283.15 100.00 895.1
283.15 1000.00 895.7
283.15 2500.00 896.7
283.15 5000.00 898.5
283.15 7500.00 900.1
283.15 10000.00 901.8
283.15 15000.00 905.0
283.15 20000.00 908.1
283.15 25000.00 911.1
293.15 100.00 886.0
293.15 1000.00 886.6
293.15 2500.00 887.7
293.15 5000.00 889.6
293.15 7500.00 891.3
293.15 10000.00 893.1
293.15 15000.00 896.5
293.15 20000.00 899.8
293.15 25000.00 902.9
303.15 100.00 876.4
303.15 1000.00 877.2
303.15 2500.00 878.4
303.15 5000.00 880.3
303.15 7500.00 882.2
303.15 10000.00 884.0
303.15 15000.00 887.6
303.15 20000.00 891.1
303.15 25000.00 894.4
313.15 100.00 866.9
313.15 1000.00 867.6
313.15 2500.00 868.9
313.15 5000.00 871.0
313.15 7500.00 873.0
313.15 10000.00 875.0
313.15 15000.00 878.8
313.15 20000.00 882.4
313.15 25000.00 885.9
323.15 100.00 857.2
323.15 1000.00 858.0
323.15 2500.00 859.3
323.15 5000.00 861.4
323.15 7500.00 863.5
323.15 10000.00 865.6
323.15 15000.00 869.6
323.15 20000.00 873.5
323.15 25000.00 877.2
333.15 100.00 847.1
333.15 1000.00 847.9
333.15 2500.00 849.3
333.15 5000.00 851.7
333.15 7500.00 853.9
333.15 10000.00 856.1
333.15 15000.00 860.3
333.15 20000.00 864.3
333.15 25000.00 868.1
343.15 100.00 837.5
343.15 1000.00 838.4
343.15 2500.00 840.0
343.15 5000.00 842.4
343.15 7500.00 844.9
343.15 10000.00 847.2
343.15 15000.00 851.8
343.15 20000.00 856.0
343.15 25000.00 860.1
353.15 100.00 827.3
353.15 1000.00 828.3
353.15 2500.00 829.9
353.15 5000.00 832.6
353.15 7500.00 835.2
353.15 10000.00 837.7
353.15 15000.00 842.5
353.15 20000.00 847.0
353.15 25000.00 851.3
Reference

Correlations

Property Value Unit Temperature (K) Source
Pvap [1.33; 202.65] kPa [323.58; 446.21] The Yaws Handbook of Vapor Pressure Show Hide
Equationln(Pvp) = A + B/(T + C)
Coefficient A1.61743e+01
Coefficient B-4.21246e+03
Coefficient C-5.84240e+01
Temperature range, min.323.58
Temperature range, max.446.21
Pvap 1.33 kPa 323.58 Calculated Property
Pvap 2.90 kPa 337.21 Calculated Property
Pvap 5.86 kPa 350.83 Calculated Property
Pvap 11.13 kPa 364.46 Calculated Property
Pvap 20.01 kPa 378.08 Calculated Property
Pvap 34.30 kPa 391.71 Calculated Property
Pvap 56.35 kPa 405.33 Calculated Property
Pvap 89.16 kPa 418.96 Calculated Property
Pvap 136.44 kPa 432.58 Calculated Property
Pvap 202.65 kPa 446.21 Calculated Property

Similar Compounds

2-Propanol, 1,1'-oxybis-. Dipropylene glycol, # 1. 2-Propanol, 1-ethoxy-. 2-Propanol, 1-butoxy-. 2-Propanol, 1-(2-methoxypropoxy)-. 2-Propanol, 1-(1-methylethoxy)-. Tri(propylene glycol) propyl ether. 1-(1-methyl-2-propoxyethoxy)-2-propanol. Tetrapropylene glycol monopropyl ether. 2-Propanol, 1-(2-ethoxypropoxy)-. 2-Propanol, 1,1'-[(1-methyl-1,2-ethanediyl)bis(oxy)]bis-. 2-Propanol, 1-(2-butoxyethoxy)-. 2-Propanol, 1-(2-methoxy-1-methylethoxy)-. dipropylene glycol, # 4. 1-Propanol, 2-(2-hydroxypropoxy)-.

Find more compounds similar to 2-Propanol, 1-propoxy-.

Mixtures

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