Steam condensation/Steam-Air-Helium Test

Facility NameTest IdentificationMeasured ParametersModellingSimulation CodeExperimental Research ProgramCountry
CONANP20-T50-V15-H08 P20-T50-V20-H09 P20-T50-V25-H10 P20-T50-V30-H08 P20-T50-V35-H11 P20-T50-V20-H67 P20-T50-V25-H66 P20-T50-V30-H65 P20-T50-V35-H64 P25-T50-V20-H71 P25-T50-V25-H70 P25-T50-V30-H71 P25-T50-V35-H74 P25-T50-V15-H02 P25-T50-V20-H02 P25-T50-V25-H03 P25-T50-V30-H03 P25-T50-V35-H05 P05-T40-V06-H03 P05-T40-V06-H33 P05-T40-V06-H34 P05-T40-V06-H39 P05-T40-V06-H47 P05-T40-V06-H52 P05-T40-V06-H55 P05-T40-V06-H57 P05-T40-V06-H59 P05-T40-V06-H62 P05-T40-V06-H62 P05-T40-V06-H64 P05-T40-V06-H65 P05-T40-V06-H66 P05-T40-V06-H67 P05-T40-V06-H69 P05-T40-V06-H70Temperature and relative humidity of the incoming mixture, bulk mixture temperature, accumulated condensate level, volumetric flow of mixture, condesing plate temperature, helium injected mass, helium molar concentration, and pressureCondensation models: Uchida correlation, heat and mass transfer analogy, fog model with time relaxation and rain out, purely diffusive approach.FLUENT GOTHIC CFX GASFLOWSARNETItaly




Implemented as part of the Seaknot EU funded project (HORIZON-EURATOM-2021-NRT-01 under Grant Agreement No. 101060327) - WP2.6 UNIPI (2024-2026)