Abstract. Withdrawing of representative and reliable microsamples down to 1/100th mg is far from trivial, especially for extreme conditions such as high temperature and high pressure conditions or very corrosive media. The new Rapid On-Line SamplerInjector presented herein was designed and set-up to largely extend sampling capabilities in hazardous media. It is largely used in our laboratory to measure vapour-liquid equilibria. It has a lot of applications, both in production (process control in petroleum, chemical, nuclear plants, etc.) and academic and industrial researches and development (laboratory instruments, pilot plants…).
International audienceHydrofluoroalkenes, like hexafluoropropylene, can be considered as new fluids for refrigeration systems, and consequently volumetric and critical property data are required. In this study a vibrating-tube densitometer technique was used to determine densities at 10 different temperatures between (263 and 362) K and pressures between (0.0009 and 10) MPa. The experimental uncertainties are ( 0.0005 MPa for pressure, ( 0.02 K for the temperature, and ( 0.05 % for vapor and liquid densities. Critical properties have been determined by direct measurement and utilization of experimental densities considering scaling laws. The Wagner, Span and Wagner, Peng-Robinson, and translated Peng-Robinson equations of state are used to correlate the data
Solubility data in water of ethane, propane, isobutane, n-butane, n-pentane, and n-hexane have been obtained
as a function of temperature in vapor−liquid−liquid equilibrium (VLLE) conditions. The minimum temperature
of experiments is 288 K, while the maximum temperature, for each system, is lower than the critical temperature
of the corresponding hydrocarbon. New solubility vs temperature correlations are given herein for the studied
hydrocarbons in water. Henry's law and activity coefficients at infinite dilution are deduced from the
experimental solubility data. Good agreement is found with available literature data.
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