The INRIM staff has a recognized experience in measuring transport and thermodynamical properties of fluids, especially speed of sound, viscosity and density. The thermodynamic program of INRIM addresses to an accurate characterization of the thermo-physical properties of the fluids for energetic applications, measuring transport and thermodynamical properties of pure and blends fluids, by means of the experimental speed of sound, viscosity and density measurements, besides the develop of numerical models for the determination of the fluids EoS.
The Thermodynamics and Mechanics Division, together with the INRIM experts in cryogenic field, collaborate to merge their expertises in the thermophysical characterization of LNG.
- S. Lorefice et al., “ Design of an automatic apparatus for the calibration of on-line densimeters” in Proc. IMEKO 20th TC3, 3rd TC16 and 1st TC22 International Conference Cultivating metrological knowledge 27th to 30th November, 2007. Merida, Mexico
- S. Lago, P.A. Giuliano Albo “Thermodynamic properties of Acetone calculated from accurate experimental speed of sound measurements at low temperatures and high pressures” J.Chem.Thermodynamics 41, (2009) 506 –512.
INRIM (the former IMGC-CNR) had experience in the cryogenic field (flow, force, pressure and temperature) had been involved in several Italian projects concerning the Superconductivity, i.e.:
- Rivetti, A., Martini, G., Goria, R. and Lorefice, S. "Main components and performances of the IMGC calibration facilities for liquid helium flowrate measurements", in: Cryogenics, vol.27, February 1987: pp. 77-80.
- Rivetti, A., Martini, G., Goria, R. and Lorefice, S. "Turbine flow meter for liquid helium with the rotor magnetically levitated", in: Cryogenics, vol.27, January 1987: pp. 8-11