Browsing by Author "Roper, Vaughan Phillip"
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Item Derivation of an infinite-dilution activity coefficient model and application to two-component vapor-liquid equilibria data(1988) Roper, Vaughan Phillip; Kobayashi, RikiInfinite-dilution fugacity coefficients were obtained for the binary system fluorene/phenanthrene at thirteen temperatures by fitting total pressure across the entire mole fraction range by a computer routine. A thermodynamically consistent routine, that allowed for both positive and negative pressure derivations from the ideal values, was used to correlate data over the full mole fraction range from 0 to 1. The four-suffix Margules activity coefficient model without modification essentially served this purpose since total pressures and total pressure derivatives with respect to mole fraction were negligible compared to pressure measurement precision. The water/ethanol system studied by Kolbe and Gmehling and binary systems studied by Maher, Srivastava and Smith comprised of aniline, chlorobenzene, acetonitrile and other polar compounds were fit for total pressure across the entire mole fraction range for binary Vapor-Liquid-Equilibria (VLE) using the rigorous, thermodynamically consistent expression derived by Ibl and Dodge from the Gibbs-Duhen Relation. Data correlation was performed using a computer least squares procedure. Infinite-dilution fugacity coefficients were obtained using a modified Margules activity coefficient model which gives residual values of x$\sb1$ dly$\gamma\sb1$ + x$\sb2$ dln$\gamma\sb2$ across the mole fraction range that lie between the value of vd$\Pi$/dx$\sb1$/RT at x$\sb1$ = 0 and x$\sb1$ = 1. x$\sb1$ and $\gamma\sb1$ and x$\sb2$ and $\gamma\sb2$ are the mole fraction and activity coefficient of components 1 and 2 respectively. v is the mixture liquid molar volume, $\Pi$ is total pressure, R is the ideal gas constant, and T is temperature in absolute units. This correlational procedure, a modified Margules model, yielded infinite-dilution fugacity coefficients differing from the non-rigorous Margules model (derived for a binary at constant pressure) by a few percent but in some cases by as much as ten percent. The modified version is necessary in fitting binary total pressure versus mole fraction data to an expression totally consistent with Gibb's Phase Rule. Its application implies that the derivative of pressure with respect to mole fraction may affect the values of activity coefficients determined, especially at either infinite-dilution axis where the absolute value of this derivative is greatest.Item The response of human blood platelets to shear stress in rotational and capillary viscometers(1985) Roper, Vaughan Phillip; Hellums, Jesse D.; Philpott, Charles W.; McIntire, Larry V.Part 1 of this study concerns the dependence of shear-induced platelet aggregation on platelet concentration. Uniform shear stesses of 5, 75, 1, 15, 2, and 25 dynes per square centimeter were applied to platelet suspensions by Couette flow viscometry for 3 seconds. Relative-Platelet-Aggregation (RPA) is defined as the number of platelets aggregated during shear divided by the number present before shear. Whole blood from a group of normal, healthy, non-smoking human subjects was centrifuged to prepare platelet plasma with various platelet concentrations. Aggregation was determined by electronic particle counts both before and after the specimens were exposured to shear in the viscometer. RPA was found to be proportional to initial platelet concentration at all shear stresses studied. RPA increased with shear stress up to 15 dynes per square centimeter, where RPA was a maximum (82 percent for a platelet concentration of 31, per microliter). Shear stresses higher that 15 resulted in lower levels of aggregation (57 percent at a stress of 25). Part IX outlines the procedures and equipment needed to investigate shear stress-induced platelet reactions at very small times of specimen exposure to shear. A review of the role of ionic calcium as a platelet activator is presented. Internal platelet calcium can be localized and quantitated by electron microscopy. Measurement of calcium redistribution can be used as an aggregation stimulation indicator. A capillary viscometer-nitrogen freezer apparatus and freeze drying system were designed and constructed to prepare specimen for these purposes.