Triple Point of Pure and Impure Deuterium
- 1 January 1988
- journal article
- Published by IOP Publishing in Metrologia
- Vol. 25 (3) , 155-163
- https://doi.org/10.1088/0026-1394/25/3/005
Abstract
The liquidus-point behaviour of high-purity and impure D2 has been studied in both normal and equilibrium states. It was found that the liquidus point in the limit of vanishing amount of condensed phase is nearly impurity independent; D2 samples doped with as much as 1% H2 had liquidus points only about 2 mK different from the purest samples available. The temperatures (on the IPTS-68) for the triple points of equilibrium and normal D2 were found to be 18.6963 K and 18.7319 K respectively; the normal boiling point of equilibrium D2 was found to be 23.6369 K; the heat of fusion was measured as 49.53 J/g; and the density of D2 gas at the triple-point temperature and pressure for normal D2 is 4.61 g/cm3. The vapour pressure of equilibrium D2 between its normal boiling and triple points can be well described by a polynomial of the form ln (P/P0) = ∑i=−14 ai(T − T0)iKeywords
This publication has 6 references indexed in Scilit:
- The Triple-point Temperature of Pure Equilibrium DeuteriumMetrologia, 1987
- Preparation of Low HD Contamination Cells for the Measurement of the Triple Point Temperature of n-D2Published by Springer Nature ,1986
- An International Intercomparison of Fixed Points by Means of Sealed Cells in the Range 13.81 K–90.686 KMetrologia, 1984
- Intercomparison of Triple Points of Argon and Oxygen of INM, IMGC and NRCMetrologia, 1978
- Thermometric Fixed Points of HydrogenMetrologia, 1977
- Gas Thermometer Determinations of the Thermodynamic Temperature Scale in the Range -183 °C to 100 °CMetrologia, 1968