Moldover, M.
and Buckley, T.
(2001),
Reference Values of the Dielectric Constant of Natural Gas Components Determined with a Cross Capacitor, International Journal of Thermophysics (Accessed May 1, 2026)
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Reference Values of the Dielectric Constant of Natural Gas Components Determined with a Cross Capacitor
Published
Author(s)
,
Abstract
We used a novel toroidal cross capacitor to measure accurately the dielectric polarizability e(p) (i.e., the dielectric constant) of helium, argon, nitrogen, methane, and carbon dioxide at T = 50 degrees C. The data extend up to 7 MPa (5 MPa for CO2) and may be useful for calibrating on-line, capacitance-based systems that are designed to measure the heating value of natural gas. The uncertainties of e, and p are 6 and (3.0 10-5 p + 84 Pa), respectively. We used the properties of helium calculated ab initio from quantum mechanics to verify that the cross capacitor deformed in a predictable manner under hydrostatic (gas) pressure. Thus, we avoided a common cause of systematic errors in measuring the dielectric constant of gases.Citation
International Journal of Thermophysics
Volume
22
Issue
No. 3
Pub Type
Journals
Keywords
argon, carbon dioxide, cross capacitor, dielectric constant, dielectric polarizability, helium, methane, molar polarizability, natural gas
Citation
Issues
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Created May 1, 2001, Updated February 19, 2017