1994
DOI: 10.1021/je00015a018
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Densities and Viscosities of 1,1,1-Trichloroethane + Paraffins and + Cycloparaffins at 298.15 K

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Cited by 41 publications
(28 citation statements)
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“…Cyclo-paraffins with cis configuration typically possess a higher density than their trans configurations (symmetry structure) because of the twisted structure of cis configuration, e.g., cis-decalin (0.897 g/cm 3 ) versus trans-decalin (0.870 g/cm 3 ) [13]. For alkyl-substituted cyclo-paraffins, such as methylcyclohexane (0.765 g/cm 3 ), butylcyclohexane (0.796 g/cm 3 ) [14], and l,2dimethylcyclohexane (0.796 g/cm 3 ) [15], the increased chain length of the alkyl substituent and alkyl substituent number can slightly increase the density. Moreover, the position of alkyl substituents affects the fuel density.…”
Section: Relationship Between Density and Fuel Compositionmentioning
confidence: 99%
“…Cyclo-paraffins with cis configuration typically possess a higher density than their trans configurations (symmetry structure) because of the twisted structure of cis configuration, e.g., cis-decalin (0.897 g/cm 3 ) versus trans-decalin (0.870 g/cm 3 ) [13]. For alkyl-substituted cyclo-paraffins, such as methylcyclohexane (0.765 g/cm 3 ), butylcyclohexane (0.796 g/cm 3 ) [14], and l,2dimethylcyclohexane (0.796 g/cm 3 ) [15], the increased chain length of the alkyl substituent and alkyl substituent number can slightly increase the density. Moreover, the position of alkyl substituents affects the fuel density.…”
Section: Relationship Between Density and Fuel Compositionmentioning
confidence: 99%
“…Lennard-Jones parameters were obtained from the method of Chung et al (Chung et al, 1988). Extremely limited kinematic viscosity data from several sources (DeLorenzi, Fermeglia, & Torriano, 1994;Geist & Cannon, 1946;Knothe & Steidley, 2005;Koelbel, Siemes, & Luther, 1949) were located and converted to dynamic viscosity with the equation of state, and then used to obtain the coefficients in Table 2. A deviation plot as a function of temperature is shown in Figure 73.…”
Section: Propylcyclohexanementioning
confidence: 99%
“…Excess speeds of sound, calculated in a manner similar to the one in this current work, for methylcyclohexane and ethylcyclohexane in either dodecane or hexadecane were not statistically different from zero. 51 For viscosity, Lorenzi et al 52 reported small positive viscosity deviations (<0.04 mm 2 •s −1 ) for 1,1,1,-trichlomethane mixed with butylcylohexane and small negative viscosity deviations (> −0.045 mm 2 •s −1 ) for 1,1,1,-trichlomethane mixed with cyclohexane, methylcyclohexane, and ethylcyclohexane. In our laboratory, we determined that the Gibbs energies of activation for viscous flow for binary mixtures of methyl-and ethylcyclohexane in dodecane and hexadecane were smaller than the error in the values themselves.…”
Section: Introductionmentioning
confidence: 99%
“…48,49 Table 1 also shows that the excess molar volume, speed of sound, and viscosity have been determined for mostly short-chain alkyl-cyclohexanes. 48,51,52 From their speed of sound measurements, Oswal and Maisuria 48 calculated positive excess isentropic compressibilities for mixtures of cyclohexane with octane, but negative excess isentropic compressibilities for mixtures of cyclohexane with hexane and heptane as well as mixtures of methylcyclohexane in hexane. Excess speeds of sound, calculated in a manner similar to the one in this current work, for methylcyclohexane and ethylcyclohexane in either dodecane or hexadecane were not statistically different from zero.…”
Section: Introductionmentioning
confidence: 99%