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Thermophysical Properties of Tetramethylmethane and Tetramethylsilane Gas Calculated by Means of an Isotropic Temperature-Dependent Potential (2000)

Zarkova, L. ; Pirgov, P. ; Hohm, U. ; [et al.]

Springer

International journal of thermophysics 21 (2000), S. 1439-1461

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ISSN: 1572-9567

Keywords: diffusion ; intermolecular potentials ; Raman and Rayleigh spectra ; second virial coefficients ; tetramethylmethane ; tetramethylsilane ; transport properties ; viscosity

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract An isotropic temperature-dependent potential (ITDP) is calculated for the description of binary interactions in gaseous tetramethylmethane, C(CH3)4, and tetramethylsilane, Si(CH3)4. The potential parameters of C(CH3)4 and Si(CH3)4 are determined by solving an inverse problem of minimization of the sum of weighted squared relative deviations between experimental and calculated pure gas viscosity (η), second (pVT)-virial coefficient (B), and second acoustic virial coefficient (β) data. At T=0 K they are obtained for C(CH3)4 and Si(CH3)4, respectively, as repulsive parameter n=28.02(12) and 20.79(11), equilibrium distance r m=5.7790(30)×10−10 and 5.9051(36)×10−10 m, potential well depth ε/k B=586.32(42) and 674.75(91) K, and the first excited-level enlargement δ=0.0141(3)×10−10 and 0.0188(3)×10−10 m. The influence of the temperature on the potential parameters r m(T) and ε(T) is implied in the temperature dependence of the effective excited-state enlargement, calculated via the vibrational partition function. The calculated complete sets of normal vibrational frequencies for C(CH3)4 and Si(CH3)4 are consistent with the available experimental data. In addition, good agreement is observed between the calculations and new Raman spectroscopic measurements on C(CH3)4. Tables for recommended thermophysical properties (B, η, and self-diffusion ρD) and effective potential parameters (r m and ε) of the two globular gases are given for the temperature range between 250 and 800 K.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006706510540

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Vanadium (V) complexes in molten salts of interest for the catalytic oxidation of sulphur dioxide (1997)

Boghosian, S. ; Borup, F. ; Chrissanthopoulos, A.

Springer

Catalysis letters 48 (1997), S. 145-150

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ISSN: 1572-879X

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract High temperature Raman spectroscopy is used for the first time for establishing the structural and vibrational properties of VV complexes in V2O5- Cs2S2O7 (0≤ XV2O5 0≤ 0.24) and V2O5- Cs2S2O7- Cs2SO4 (0≤ XV2O5 0≤ 0.25) molten salt mixtures at 450°C under static equilibrium conditions. Based on Raman band intensity correlations and band assignments it is found that the VV complex present in V2O5- Cs2S2O7 molten mixtures has a dimeric (VO)2O(SO4)4 4-configuration containing a V-O-V bridge. Addition of Cs2SO4 in V2O5- Cs2S2O7 mixtures results in the reaction of the VV dimer with sulfate ions and the spectral data obtained are accounted for by the following reaction scheme: (VO)2O(SO4)4 4-+2SO4 2-→ 2VO2(SO4)2 3-+ S2O7 2-. The results are of value for the progress on the mechanistic understanding of the SO2 oxidation at the molecular level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1019003826690

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