IUPAC-NIST Solubility Database
NIST Standard Reference Database 106

Glass Ball as Bullet Solubility System: Hydrocarbons C1-C3 with Statical copolymer of 2,6-dimethyl-1,4phenylene oxide (2.5 mol %)
Components:
   (1) Hydrocarbons C1-C3; ; []  NIST Chemistry WebBook for detail
   (2) Statistical copolymer of 2,6-dimethyl-1,4-phenylene oxide (97.5 mol %) and 2,6-diphenyl-1,4-phenylene oxide (2.5 mol %); ; []  NIST Chemistry WebBook for detail
Original Measurements:
   O.M. Ilinitch, G.L. Semin, M.V. Chertova and K.I. Zamaraev, J. Membr. Sci. 66, 1-8 (1992).

 Variables:
   Temperature = 293.2 K
   Pressure = 0-100 MPa

 Prepared By:
   O. M. Ilinitch

 Experimental Data:   (Subscripts 1,2,3, ..., in column headings refer to components 1,2,3, ...)
   
Solubility C /cm3 (STP) cm-3 of hydrocarbons in the copolymer
Chemical NamePressure [kPa]Solubility
Methane CH4 [74-82-8]28.00.6
Methane CH4 [74-82-8]34.70.4
Methane CH4 [74-82-8]50.00.7
Methane CH4 [74-82-8]66.61.2
Methane CH4 [74-82-8]86.61.4
Methane CH4 [74-82-8]96.01.5
Propane C3H8 [74-98-6]3.32.8
Propane C3H8 [74-98-6]6.33.6
Propane C3H8 [74-98-6]9.64.3
Propane C3H8 [74-98-6]13.35.1
Propane C3H8 [74-98-6]18.75.8
Propane C3H8 [74-98-6]24.06.6
Propane C3H8 [74-98-6]29.37.3
Propane C3H8 [74-98-6]29.34.9
Propane C3H8 [74-98-6]33.35.5
Propane C3H8 [74-98-6]34.47.9
Propane C3H8 [74-98-6]40.08.4
Propane C3H8 [74-98-6]46.79.4
Propane C3H8 [74-98-6]53.310.2
Propane C3H8 [74-98-6]61.311.2
Ethane C2H6 [74-84-0]2.70.9
Ethane C2H6 [74-84-0]5.31.6
Ethane C2H6 [74-84-0]8.02.2
Ethane C2H6 [74-84-0]10.72.6
Ethane C2H6 [74-84-0]13.32.9
Ethane C2H6 [74-84-0]17.33.4
Ethane C2H6 [74-84-0]21.33.8
Ethane C2H6 [74-84-0]25.34.4
Propene C3H6 [115-07-1]1.62.0
Propene C3H6 [115-07-1]4.02.9
Propene C3H6 [115-07-1]6.74.0
Propene C3H6 [115-07-1]10.64.9
Propene C3H6 [115-07-1]14.05.6
Propene C3H6 [115-07-1]20.06.8
Propene C3H6 [115-07-1]26.77.6
Propene C3H6 [115-07-1]33.39.0
Propene C3H6 [115-07-1]38.79.6
Propene C3H6 [115-07-1]53.311.5
 Method/Apparatus/Procedure:
   The conventional McBain sorption spring balance was used.

 Source and Purity of Materials:
   The copolymer was prepared via oxidative copolycondensation of two monomers. The purity of product 99.9 %, it had density 1.10 g/cm3 and Tg =754K. All the gases had a purity >99.9 %.

 Estimated Errors:
   Solubility: 0.1 (compiler)
   Temperature: ± 0.1 K
   Pressure: ± 0.2 kPa