Litcius/Paper detail

A real-fluid low-dissipative solver for flash boiling simulations of non-equilibrium mixtures

Francesco Duronio, Michele Battistoni, Andrea Di Mascio, Angelo De Vita, Faniry Nadia Zazaravaka Rahantamialisoa, Jacopo Zembi

2024International Journal of Heat and Mass Transfer10 citationsDOIOpen Access PDF

Abstract

An Eulerian fluid-dynamic code for simulating compressible, multi-phase flows with phase transition modeling was developed. The code features a low-dissipative flux-splitting discretization scheme, a real-fluid library to properly describe thermophysical properties, and a phase transition model for flows with thermal non-equilibrium. Large Eddy Simulations of the internal and near nozzle flow of a fuel injector were carried out to assess the capabilities of the developed approach. X-ray measurements of iso-octane injections were exploited for validation purposes. Propane injections were then deeply investigated to verify the ability of the mathematical model to represent under-expanded two-phase jets properly. The results provide essential insights on the fluid-dynamic behavior of such two-phase jets, which can also be extended to the injection of alternative fuels like methanol, hydrogen, propane, and in general high-volatility e-fuels.

Topics & Concepts

Dissipative systemBoilingSolverThermodynamicsMechanicsFlash (photography)FlashingMaterials scienceComputer sciencePhysicsOpticsProgramming languageMetallurgyCombustion and flame dynamicsHeat Transfer and Boiling StudiesFluid Dynamics and Turbulent Flows