Numerical investigation of dense gas flows through transcritical multistage axial Organic Rankine Cycle turbines
Communication avec acte
Date
2013Résumé
Many recent studies suggest that supercritical Organic Rankine Cycles have a great potential for lowtemperature heat recovery applications, since they allow better recovery efficiency for a simplified cycle architecture. In this work we investigate flows of dense gases through axial, multi-stage, supercritical ORC turbines, using a numerical code including advanced equations of state and a high-order discretization scheme. Several working fluids are considered, and performances of supercritical turbines are compared to those of subcritical ones using the same fluids.
Fichier(s) constituant cette publication
- Nom:
- LDF_CFM_2013_SCIACOVELLI.pdf
- Taille:
- 3.380Mo
- Format:
- Description:
- Article principal
Cette publication figure dans le(s) laboratoire(s) suivant(s)
Documents liés
Visualiser des documents liés par titre, auteur, créateur et sujet.
-
Article dans une revue avec comité de lectureTransonic flows through axial, multi-stage, transcritical ORC turbines, are investigated by using a numerical solver including advanced multiparameter equations of state and a high-order discretization scheme. The working ...
-
Communication avec acteSCIACOVELLI, Luca; GLOERFELT, Xavier; CINNELLA, Paola; GRASSO, Francesco (Springer International Publishing, 2020-05)Hypersonic turbulent boundary layers (HTBL) at Mach number M =6 of a dense gas (PP11) and a perfect gas (air) are investigated by means of Direct Numerical Simulations (DNS), from the laminar to fully turbulent state. The ...
-
Article dans une revue avec comité de lectureCINNELLA, Paola; GRASSO, Francesco; ROBINET, Jean-Christophe; SCIACOVELLI, Luca; GLOERFELT, Xavier (Cambridge University Press (CUP), 2020)A study of dense-gas effects on the stability of compressible boundary-layer flows is conducted. From the laminar similarity solution, the temperature variations are small due to the high specific heat of dense gases, ...
-
Communication avec acteA high-order shock-capturing finite-difference scheme for scale-resolving numerical simulations of hypersonic high-enthalpy flows, involving thermal non-equilibrium effects, is presented. The suitability of the numerical ...
-
Article dans une revue avec comité de lectureThe influence of dense-gas effects on compressible wall-bounded turbulence is investigated by means of direct numerical simulations of supersonic turbulent channel flows. Results are obtained for PP11, a heavy fluorocarbon ...