The speed of sound and derived thermodynamic properties of ethane at temperatures between 220 K and 450 K and pressures up to 10.5 MPa

The speed of sound u in carbon dioxide has been measured along seven isotherms at Ž . temperatures between 220 and 450 K by means of a spherical resonator. At supercritical temperatures, the greatest pressure on each isotherm was chosen to correspond to approximately one-half of the critical density

The speed of sound u in gaseous argon has been measured along 21 isotherms at temperatures T between 110 K and 450 K. At Te150 K, the greatest pressure on each isotherm was the lesser of 19 MPa and the pressure at which the estimated density was half its critical value. Below T=150 K, the greatest p

The speed of sound in gaseous propane has been measured along seven isotherms in the temperature range 225 K to 375 K at pressures up to the lower of 0.85 MPa and 80 per cent of the vapour pressure. The results have a precision of 0.001 per cent or better and an overall uncertainty, including an all

The speed of sound has been measured in nitrogen on four isotherms at TrK s 250, 275, 300, and 350, and at pressures between 0.1 MPa and 30 MPa. The measurements were made using a spherical resonator operating at frequencies between 5 kHz and 26 kHz where the speed of sound in nitrogen differs signi

The speed of sound has been measured in two methane-rich gas mixtures having nominal Ž . Ž compositions of 0.85CH q 0.15C H and 0.80CH q 0.10N q 0.05C H q 0.03C H q 4 2 6 4 2 2 6 3 8 . 0.02CO . The measurements were made with a spherical acoustic resonator on four 2 isotherms at TrK s 250, 275, 300

This work reports experimental data of the speed of sound in liquid trifluoromethane (HFC23, or R23) from T = (258 to 303) K at pressures up to 65 MPa, measured with a pulse-echo method adapted from Papadakis and Guedes et al. The results are fitted to a rational approximant and compared with lite