Background Supercavitation flow is characterized by the presence of a supercavity, which
can be unstable and cause unwanted motion or even loss of control of an object. To address …

Recent developments in deep learning have brought many inspirations for the scientific
computing community and it is perceived as a promising method in accelerating the …

Particle-laden flows are commonly encountered in numerous engineering applications, eg
fluidization, crystallization, granulation, drying, catalytic cracking, food processing, biomass …

Detonation has promising applications in advanced propulsion systems, and numerical
simulation is widely used to gain insights into the complex interaction between the …

Landslide tsunamis and impulse waves are hazardous events with severe socioeconomic
impacts. A long standing problem with simulations of these events is the generation stage …

In the field of computational aerodynamics, it is vital to develop tools that can accurately, but
also efficiently, simulate the flow around bluff objects and calculate the aerodynamic forces …

The breakup of angled-injected liquid jets in supersonic airflow is investigated numerically
by a hybrid Volume of Fluid and Lagrangian Particle Tracking (VOF-LPT) method. A Multi …

Single bubble rising in the close vicinity of a vertical wall is one of the focuses in the field of
gas-liquid two-phase flow. In this work, three-dimensional direct numerical simulation based …

In this paper, a methodology is proposed to couple between the nozzle inner flow and
external spray and atomization. A hybrid VOF-DPM model is developed to investigate the …

Cool flame speed is a fundamental parameter, which requires special consideration in
terrestrial measurement due to the slow propagation of the cool flame, the intrusion of …