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WAVE SPEED MEASUREMENTS IN NON-IDEAL COMPRESSIBLE FLOWS USING THE FLEXIBLE ASYMMETRIC SHOCK TUBE (FAST)


Go-down asme-orc2015 Tracking Number 104

Presentation:
Session: Session 6: Turbine design I
Room: 1A Europe
Session start: 16:20 Mon 12 Oct 2015

Tiemo Mathijssen   T.Mathijssen@tudelft.nl
Affifliation: Delft University of Technology

Mauro Gallo   M.Gallo@tudelft.nl
Affifliation: Delft University of Technology

Emiliano Casati   E.I.M.Casati@tudelft.nl
Affifliation: Delft University of Technology

Alberto Guardone   alberto.guardone@polimi.it
Affifliation: Politecnico di Milano

Piero Colonna   P.Colonna@tudelft.nl
Affifliation: Delft University of Technology


Topics: - Working Fluids (Topics), - I prefer Oral Presentation (Presentation Preference)

Abstract:

Non-ideal compressible fluid dynamics (NICFD) are defined as compressible fluid flows occurring in the dense vapour, dense vapour-liquid equilibrium or supercritical thermodynamic region. This type of flow can occur in expanders of organic Rankine cycle power plants. In order to study NICFD, a Ludwieg tube-type facility has been designed and constructed at Delft University of Technology. A large variety of fluids can be employed in the facility, but for this study D6 siloxane is chosen as working fluid due to its high thermal stability and the possibility of encountering non-classical gasdynamic phenomena. This compound belongs to the siloxane class, which are also used as working fluids in ORC power systems. Gasdynamic experiments within the NICFD region are presented from which the wave speed and speed of sound can be inferred using the time-of-flight technique. These data can be used to improve and validate thermodynamic models.