• Title of article

    Internal pressure and solubility parameter as a function of pressure

  • Author/Authors

    Verdier، نويسنده , , Sylvain and Andersen، نويسنده , , Simon Ivar، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    13
  • From page
    125
  • To page
    137
  • Abstract
    The main goal of this work was to measure the solubility parameter of a complex mixture, such as a crude oil, especially as a function of pressure. Thus, its definition is explained, as well as the main approximations generally used in literature. Then, the internal pressure is investigated, since it is presented as an alternative of the solubility parameter. In this work, the assumption that internal pressure is a measure of the physical solubility parameter was made, i.e. representing the dispersion and polar forces. As for the pressure influence, it was seen that internal pressure reaches a maximum contrary to solubility parameter. irect method was chosen to estimate internal pressure, using thermal expansivities (determined by microcalorimetry) and isothermal compressibilities (determined by density measurements). The uncertainty is within 2% for the expansivity and 0.1% for the density. Five pure compounds (four hydrocarbons and 1 alcohol) were investigated at 303.15 K and up to 30 MPa, as well as a dead crude oil. The “physical” solubility parameter is slightly increasing with pressure (up to 0.8 MPa1/2 for cyclohexane) and, at 0.1 MPa, the difference with literature data is less than 1 MPa1/2 for hydrocarbons. On the contrary, the difference reaches 9 MPa1/2 for ethanol as expected, due to the presence of hydrogen bonding. A dead crude oil was also studied and its solubility parameter is within the expected range. bic equations of states (Peng–Robinson and Soave–Redlich–Kwong) were able to approximate the “physical” solubility parameter of n-heptane (within 0.2 MPa1/2), providing that the volumes were measured and used as input. The Peng–Robinson equation gave somewhat better results.
  • Keywords
    Solubility parameter , Thermal expansivity , internal pressure , Data , Experimental method , isothermal compressibility
  • Journal title
    Fluid Phase Equilibria
  • Serial Year
    2005
  • Journal title
    Fluid Phase Equilibria
  • Record number

    1985163