Thermal Diffusion and Self-Diffusion in Ammonia

Abstract

The temperature dependence of the isotopic thermal‐diffusion factor α₀ for ammonia has been investigated with the help of an equimolar mixture of ¹⁴NH₃ and ¹⁵NH₃. A 10‐tube metal swing‐separator as well as a two‐bulb glass apparatus were used for these measurements. The value of α₀ increases with temperature, its value being 0.00±0.02 at 242°K to 0.09±0.03 at 496°K, in disagreement with the values obtained by Watson and Woernley, who observed a definite inversion in the sign of α₀ at temperature ∼290°K. The present set of observed values of α₀ also disagrees with the theoretical calculation of Monchick and Mason. Possible causes of this disagreement are: (1) inadequacy of the potential model, (2) neglect of inelastic collisions, and (3) formation of dimers. The self‐diffusion coefficient of ammonia has also been studied in the temperature range of 233° to 353°K with a two‐bulb apparatus. There is marked disagreement between observed and calculated values at low temperatures. This is also explained in terms of dimerization.