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Your search keyword '"O'Hare, P.A.G."' showing total 192 results
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192 results on '"O'Hare, P.A.G."'

1. Thermodynamic studies of mordenite, dehydrated mordenite, and gibbsite

Author

Johnson, G.K., Tasker, I.R., Flotow, H.E., O'Hare, P.A.G., and Wise, W.S.

Subjects
Zeolites -- Research, Thermodynamics -- Research, Calorimetry -- Usage, Earth sciences
Abstract

Thermodynamic studies were conducted on mordenite, dehydrated mordenite and gibbsite using calorimetric measurements. Though calorimetry, the thermodynamic properties and values of mordenite and dehydrated mordenite with temperatures ranging from zero to 500 Kelvin and zero to 900 Kelvin, respectively, were obtained. The average binding energy and entropy of zeolitic water in mordenite and the point of enthalpy of formation of gibbsite were also calculated and determined.

Published
1992

26. Fluorine-combustion calorimetric determinations of the standard molar enthalpy changes for the formation of SiSe2(cr), SiSe1.94(cr), and SiSe1.94(vit), and for the transition: SiSe1.94(vit) = SiSe1.94(cr) at the temperature T = 298.15 K. Implications of the results for the enthalpies of dissociation Dom(Se—SiSe) and Dom(SiSe). Thermodynamic properties of SiSe(g)

Author

Tomaszkiewicz, Iwona, primary, Susman, S., additional, Volin, K.J., additional, and O'Hare, P.A.G., additional

Published
1994
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41. Thermochemistry of germanium monoselenide, and the GeSe bond dissociation enthalpy

Author

O'Hare, P.A.G, Susman, S, and Volin, K.J

Abstract

The standard molar enthalpy of formation ΔfHmoof GeSe(cr) has been determined by fluorine-combustion calorimetry to be −(51.4±1.5) kJ·mol−1at T= 298.15 K and po= 101.325 kPa. Combination of this result with auxiliary enthalpies of formation and sublimation from the literature gave the bond-dissociation enthalpy Dmo(GeSe) = (485±4) kJ·mol−1at T→0 for the reaction: GeSe(g, 1∑+) = Ge(g, 3P0) + Se(g, 3P2). Dissociation enthalpies of the other germanium chalcogenides are also discussed. Thermodynamic quantities for GeSe(cr) from 298.15 to 800 K have been calculated and tabulated.

Published
1989
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42. A new value for the standard molar enthalpy of formation ΔfHomof silicon sesquitelluride Si2Te3at the temperature 298.15 K by combustion calorimetry in fluorine, and an assessment of the results of previous studies that lead to ΔfHom(Si2Te3)

Author

O'Hare, P.A.G., Hope, G.A., and Beck, Charles M.

Abstract

A high-precision isoperibol calorimeter has been used to measure the standard specific energy of combustion in fluorine of a carefully characterized specimen of silicon sesquitelluride, and the standard molar enthalpy of formation at T= 298.15 K; ΔfHom(Si2Te3, cr) = -(71±6) kJ·mol-1, has been derived. This result is compared with those calculated from high-temperature studies: the agreement with Brebrick (J. Chem. Phys.1968,49, 2584) is very good, but with Exsteen et al. (J. Phys. Chem.1967,71, 4130) is only fair.

Published
1993
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43. Solution-calorimetric determination of the standard molar enthalpies of formation of the pseudobinary compounds Zr(AlxFe1 - x)2at the temperature 298.15 K

Author

Klein, R., Jacob, I., O'Hare, P.A.G., and Goldberg, R.N.

Abstract

Standard molar enthalpies of formation ΔfHomat the temperature T= 298.15 K have been determined from calorimetric measurements of the enthalpies of reaction ΔfHomof six compositions in the Zr(AlxFe1 - x)2pseudobinary system with (hydrofluoric acid + nitric acid). The following results (with uncertainties given as twice the standard deviation of the mean) are reported. See Table.

Published
1994
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