P. Schley scite author profile

A vibrating-wire viscometer of very high precision was used to measure the viscosity of methane and of two natural gases. The experimental data were, in general, taken at temperatures of 260, 280, 300, and 320 K and at pressures up to 20 MPa, and additionally in the case of methane at temperatures of 340 and 360 K and at pressures up to 29 MPa. The estimated uncertainty is ±0.3 and ±0.5% for methane and the natural gases, respectively. The new experimental data for methane were used together with zero-density or low-density viscosity values from this study and from the literature to develop a viscosity equation for natural gas composed of two contributions. The mixing rule of Wilke [J. Chem. Phys. 18: 517 1950] was applied for the zero-density viscosity part which is based on zero-density correlations for twelve components (methane, nitrogen, carbon dioxide, ethane, propane, n-and isobutane, n-and isopentane, n-hexane, n-heptane, and n-octane) and agrees with the values derived from experiment within ±0.3%. The density dependence of the residual viscosity part was correlated with methane data only, neglecting any temperature dependence, whereas the composition dependence is characterized by a pseudo-critical viscosity value. For methane the agreement between the correlated and experimental data is within ±0.5%. The values predicted with the correlation and the experimental data agree within ±1% for both the high calorific, H, natural gas and the low calorific, L, natural gas.

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A 0.13 $\mu{\hbox {m}}$ SiGe BiCMOS Technology Featuring f$_{T} $/f$_{\max}$ of 240/330 GHz and Gate Delays Below 3 ps

Rücker

Heinemann

Winkler

et al. 2010

IEEE J. Solid-State Circuits

144

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Novel collector design for high-speed SiGe:C HBTs

Heinemann

Rücker

Barth

et al.

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A single-poly EEPROM cell for embedded memory applications

Bartolomeo

Rücker

Schley

et al. 2009

Solid-State Electronics

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Measurements of the Calorific Value of Methane with the New GERG Reference Calorimeter

et al. 2010

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A new reference calorimeter has been developed under a European research project and set-up by Physikalisch-Technische Bundesanstalt (PTB) in Germany. The objective of the project is to measure the superior calorific value (SCV) of methane and other pure gases with a measurement uncertainty of less than 0.05 %. This paper presents the measurement results obtained for methane. Nine repeatability measurements were made. The molar SCV obtained when the measurements were averaged is 890.578 kJ·mol −1 . This value agrees very accurately with the value of 890.63 kJ·mol −1 specified by ISO 6976 [Natural Gas-Calculation of Calorific Values, Density, Relative Density and Wobbe Index from Composition. International Standard ISO 6976, corrected and reprinted 1996-02-01]. Twice the standard deviation determined for the measurements is 0.023 % and is thus clearly lower than in previous 123 666 Int J Thermophys (2010) 31:665-679experiments. Two independent uncertainty analyses confirm that the envisaged total uncertainty of 0.05 % is achieved (95 % confidence level).

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P. Schley

Viscosity Measurements and Predictions for Natural Gas

A 0.13 $\mu{\hbox {m}}$ SiGe BiCMOS Technology Featuring f$_{T} $/f$_{\max}$ of 240/330 GHz and Gate Delays Below 3 ps

Novel collector design for high-speed SiGe:C HBTs

A single-poly EEPROM cell for embedded memory applications

Measurements of the Calorific Value of Methane with the New GERG Reference Calorimeter

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