To adequately elucidate the complex in-cylinder flow structures and its underlying effects on
the thermal processes inside an internal combustion engine (ICE) has long been a daunting …

Fuel droplet evaporation is essential to the generation of flammable mixtures in thermal
engines. Generally, liquid fuel is injected directly into the hot, high-pressure atmosphere to …

With the increase in computational power in the last decade and the forthcoming Exascale
supercomputers, a new horizon in computational modelling and simulation is envisioned in …

Combustion noise in gas turbine engines has recently become a relevant source of noise in
the aircraft due to the appearance of new burner architectures that are intrinsically more …

The accurate prediction of droplet heating and evaporation is pivotal for advancing power
systems in automotive and aerospace industries. This paper introduces an innovative …

To progress toward the high efficiency and low emission aviation engine technology, it is
mandatory to understand the complex phenomena including kerosene spray atomization …

This paper presents the deployment of Runge-Kutta method to overcome the main
challenge in analysis of failure of aircraft wing structure subjected to wind pressure and point …

Abstract Lean Direct Injection (LDI) emerged as an interesting concept to limit NOx
emissions in aero engines at the cost of operating close to the flame lean blow-off limit. In …

Large eddy simulations and power spectral density methods are used to investigate the
unsteady non-reaction flow characteristics, as an important phenomenon in the combustor …

Examining fuel droplet evaporation is crucial for enhancing fuel engine efficiency,
conserving energy, and reducing emissions. This study utilizes experimental methods …