Measurement technique for the determination of liquid–vapor equilibrium parameters of multicomponent fluid systems using an isothermal total-pressure cell (static method)
Continuous-flow calorimeters for measuring mixing enthalpies and heat capacities of multicomponent liquid systems
Densimeter for multicomponent gaseous systems using an isothermal cell with a sinker and magnetic-coupling microbalance (Wagner-type)
Isothermal spherical resonator for multicomponent gaseous systems for determining the speed of sound and caloric properties
Vibrating-tube densimeters for multicomponent liquid mixtures at low and high pressure
Pressure, Temperature, and Humidity Metrology and Calibration Laboratory. It is located in the School of Industrial Engineering (E.T.S. de Ingenieros Industriales) and the R&D Building.
Set of metrological and calibration instrumentation for contact, radiation, and acoustic temperature measurements
Set of metrological and calibration instrumentation for pneumatic and hydraulic pressure
Set of metrological and calibration instrumentation for relative humidity
Equilibrium measurement cell for pressures up to 550 bar and temperatures up to 200 °C
Pilot plants and laboratory facilities for the experimental study of extraction and fractionation in supercritical media. Pressures up to 350 bar, temperatures up to 80 °C, and flow rates between 0.5 and 20 kg/h
Pilot plant for the integration of extraction and adsorption processes with supercritical fluids. Pressures up to 300 bar, temperatures up to 80 °C, and flow rates up to 40 kg/h
Laboratory and pilot plants for the study of processes involving reactions in supercritical fluids. Temperatures up to 400 °C, pressures up to 300 bar, and flow rates between 0.5 and 5 kg/h
Pilot plant for supercritical water oxidation for feasibility and optimization studies applied to the destruction of liquid effluents. Temperatures of 700 °C, pressures of 250 bar, and flow rate of 300 kg/h
Demonstration plant for supercritical water oxidation with a treatment capacity of 200 kg/h, temperature of 700 °C, and pressures of 300 bar
Facilities of various sizes for the experimental study of material precipitation in supercritical media. Pressures of 150 bar, temperatures of 60 °C, and flow rates up to 5 kg/h
Computer classroom: A classroom with 32 network-connected workstations.
Software packages:
Aspen Plus: Steady-state process plant simulation.
HYSYS Dynamics: Dynamic plant simulation.
HX-Net: Energy integration through pinch analysis.