Numerical Investigation of Spray Formation in Air-Blast Atomizers

Numerical Investigation of Spray Formation in Air-Blast Atomizers: Numerical study of air-blast atomization using a hybrid volume of fluid/discrete phase solver

Pal, Botond (TU Delft Aerospace Engineering; TU Delft Space Engineering)

Zandbergen, Barry (mentor)
Roekaerts, Dirk (mentor)
Cervone, Angelo (graduation committee)

Delft University of Technology

Aerospace Engineering

2019-07-03

The conducted study investigates the potential of a newly released multi-phase solver to simulate atomization in liquid rocket injectors. The "VOF-to-DPM" solver was used to simulate primary and secondary atomization in an air-blast atomizer with a coaxial injector-like geometry. The solver uses a hybrid Eulerian/Eulerian-Lagrangian formulation with a geometric transition criteria between the two models. The conducted study assumed isothermal, non-reacting flow at room temperature. The primary focus was predicting Sauter Mean Diameter and droplet velocity data at a sampling plane downstream of the injection site. The results showed that the solver is able to produce the expected data and to predict trends similar to those found in experimental measurements. The accuracy of the produced droplet diameters was roughly a factor 2 off compared to experiment. This is attributed to mesh resolution. Measurements were obtained via a cooperative agreement between TU Delft and The University of Sydney. It was concluded that the solver has the potential to predict atomization at a reasonable computational cost, but further study is needed to confirm its full capabilities.

Atomization
Multi-phase flow
CFD
Injector

http://resolver.tudelft.nl/uuid:57fecdc3-4987-439c-a6fc-f2cf6a1d70c3

Student theses

master thesis

© 2019 Botond Pal