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1

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Refractivity virial coefficients of gaseous CH4, C2H4, C2H6, CO2, SF6, H2, N2, He, and Ar (1991)

Achtermann, H. J. ; Magnus, G. ; Bose, T. K.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 94 (1991), S. 5669-5684

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Accurate values of the second and third refractivity virial coefficients BR and CR of gaseous CH4, C2H4, C2H6, CO2, SF6, H2, N2, He (only BR is given), and Ar have been measured using the recently improved differential-interferometric technique. This device basically consists of two coupled grating interferometers. During the overflow experiment of the gas one interferometer, with two similar cells in series, measures differentially the higher-order effects of density, and the second interferometer, with two similar cells in parallel, measures at the same time the absolute value of the refractive index. The second interferometer is also used for an accurate control of the decompression during the overflow experiment. It is thus possible to extend the overflow experiments to high values of pressure. The overflow experiments were carried out up to pressures of 35 MPa. The density range extends up to two times the critical density. The third refractivity virial coefficient CR becomes significant for all the gases examined, except for He, when the measurements approach approximately the value 0.3 of the reduced density ρ/ρc. The fourth refractivity virial coefficient DR becomes significant for C2H4, C2H6, and SF6 when ρ/ρc approach approximately the value of one. The agreement between the classically calculated values of BR, based on the dipole induced dipole model, and our experimental BR values is very good for CH4, C2H4, C2H6, SF6, and Ar, but poor for CO2, H2, N2, and He. For He however, the quantum mechanical calculation of BR obtained by including both the long-range and the short-range effects on the polarizability is in remarkably good agreement with our experimental BR value. Accurate values of the first refractivity virial coefficients AR were determined independently by making absolute measurements of the refractive index as a function of pressure.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.460478

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2

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Experimental determination of the refractivity virial coefficients of atomic gases (1993)

Achtermann, H. J. ; Hong, J. G. ; Magnus, G. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 98 (1993), S. 2308-2318

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Values of the second refractivity virial coefficients BR of the atomic gases He, Ne, Ar, Kr, and Xe have been measured with a recently improved differential-interferometric technique to a high degree of accuracy. This device basically consists of two coupled grating interferometers. One interferometer, with two similar cells in series, measures differentially the higher-order effects of density while the second interferometer, with two similar cells in parallel, simultaneously measures the absolute value of the refractive index. In the range of pressure investigated (up to 40 MPa), the third refractivity virial coefficient CR becomes significant for the gases Ar, Kr, and Xe and the fourth refractivity virial coefficient DR becomes significant for Xe. The agreement between our experimental BR and the theoretical prediction based on the classical dipole–induced-dipole model is fairly good for Ar, Kr, and Xe but poor for He and Ne. For He and Ne, however, good agreement is obtained when a semiclassical approach is used. Accurate values of the first refractivity virial coefficients AR were determined independently by making absolute measurements of the refractive index as a function of pressure.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.464212

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3

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Improved method for the precise determination of the compressibility factor from refractive index measurements (1986)

Bose, T. K. ; St-Arnaud, J. M. ; Achtermann, H. J. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Review of Scientific Instruments 57 (1986), S. 26-32

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ISSN: 1089-7623

Source: AIP Digital Archive

Topics: Physics , Electrical Engineering, Measurement and Control Technology

Notes: We show that the absolute determination of the refractive index when combined with an expansion technique for obtaining the higher-order coefficients of the Lorentz–Lorenz expansion leads to precise values of density. The compressibility factor of methane calculated with the first three coefficients of the Lorentz–Lorenz expansion is comparable to the best PVT values. The optical method for the determination of the compressibility factor is shown to be not only precise, but also has the ability to produce numerous experimental points in a short time as compared to other methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1139112

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4

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Realgasfaktoren von Argon-Trifluorbrommethan-Gasgemischen aus Brechungsindex-Messungen (1982)

Rogener, H. ; Achtermann, H. -J.

Springer

Heat and mass transfer 16 (1982), S. 57-62

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ISSN: 1432-1181

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Description / Table of Contents: Zusammenfassung Aus der interferometrischen Bestimmung des Brechungsindexes wurde der Realgasfaktor von Argon-Trifluorbrommethan (R13B1)-Gasgemischen für die Temperaturen 273,15 K, 323,15 K, 373,15 K und für Drücke bis 12MPa berechnet. Zur Berechnung der Dichte wurde die Lorentz-Lorenz-Funktion ermittelt, die den Zusammenhang zwischen Brechungsindex und Dichte liefert. Zur Messung des Brechungsindexes und des Druckes wurden zwei Laser-Interferometer benutzt. Die Interferometer werden kurz beschrieben und die Versuchsdurchführung und -auswertung erläutert. Von den Ergebnissen werden die Realgasfaktoren von 22 binären Gemischen und den reinen Komponenten in Form von Diagrammen dargestellt.

Notes: Abstract The compressibility factor was calculated at the temperatures 273,15 K, 323,15 K, 373,15 K and for pressures up to 12MPa from the refractive index measurements of gaseous argon and trifluorbrommethane. In order to calculate the density it was necessary to calculate the Lorentz-Lorenz function, which provides the connection between refractive index and density. Two laser interferometers were used to measure the refractive index and the pressure. The interferometers are described briefly and the method of data treatment is explained. The compressibility factors of 22 binary mixtures and the pure compounds are taken from the results and shown in the form of diagrams.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01322807

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5

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Multi-ion counting-spark source mass spectrometry (MIC-SSMS): A new multielement technique in geo- and cosmochemistry (1997)

Jochum, K. P. ; Laue, H.-J. ; Seufert, H. M. ; [et al.]

Springer

Fresenius' journal of analytical chemistry 359 (1997), S. 385-389

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ISSN: 1432-1130

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The photoplate detection system of a spark source mass spectrometer has been recently replaced by a detector array consisting of 20 separate small channeltrons for simultaneous ion counting of up to 20 trace elements. The new multi-ion counting – spark source mass spectrometry (MIC-SSMS) technique combines the advantages of conventional SSMS with modern on-line detection of elements. It has important analytical features, such as simple and fast solid-state sample preparation, high precision (about 1–2%) and accuracy (4%) using multielement isotope dilution, high sensitivity which leads to short measuring times (10–50 min) and low detection limits (about 0.001–0.01 μg/g).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002160050593

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6

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Refractivity virial coefficients and P, ρ, T data of ethylene (1990)

Achtermann, H. J. ; Bose, T. K. ; Magnus, G.

Springer

International journal of thermophysics 11 (1990), S. 133-144

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ISSN: 1572-9567

Keywords: ethylene ; Lorentz-Lorenz expansion ; P, ρ, T data ; refractivity virial coefficients ; virial coefficients

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Virial coefficients for gaseous ethylene have been determined in the temperature range 283.15 to 373.15 K by means of a new refractive index P, ρ, T method. Measurements of the pressure and temperature dependence of the refractive index n and the density and temperature dependence of (n — ****- 1) ρ −1 were carried out by two coupled grating interferometers. From these interferometric measurements, we determined the refractivity virial coefficients A R, B R, and CR of the Lorentz-Lorenz expansion, P, ρ, T data, and the second and third virial coefficients B(T) and C(T) of the Leiden expansion. The deduced coefficients B(T) and C(T) are in excellent agreement with the accurate literature values.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00503865

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7

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Precise determination of the compressibility factor of methane, nitrogen, and their mixtures from refractive index measurements (1986)

Achtermann, H. J. ; Bose, T. K. ; Rögener, H. ; [et al.]

Springer

International journal of thermophysics 7 (1986), S. 709-720

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ISSN: 1572-9567

Keywords: compressibility factor ; grating interferometer ; refractive index ; refractivity virial coefficient

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We show that the absolute determination of the refractive index, when combined with an expansion technique for obtaining the higher-order coefficients of the Lorentz-Lorenz expansion, leads to precise values of density. A grating interferometer has been developed for the refractive index measurements as a function of pressure. The advantage of a grating interferometer is that it performs a reversible counting and generates a DC compensated signal from the interference fringes. The pressure is also measured with an interferometer, previously calibrated with an oil-type precision piston gauge. For the precise determination of the compressibility factor, the absolute measurement of the refractive index is combined with the differential technique to determine the refractivity virial coefficients of the Lorentz-Lorenz expansion. The compressibility factors of methane, nitrogen, and their mixtures have been determined at 323.15 K for pressures up to 335 bar. The optical method for the determination of the compressibility factor not only is shown to be precise, but also has the ability to produce numerous experimental points in a short time as compared to other methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00502402

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