This paper presents a method for evaluating the risk of autoignition for the canonical
problem of an enclosed hydrogen jet in crossflow (JICF), which is highly relevant to the …

The simulation of soot evolution is a problem of relevance for the development of low-
emission aero-engine combustors. Apart from detailed CFD approaches, it is important to …

The study of autoignition propensity in premixers for gas turbines is critical for their safe
operation and design. Although premixers can be analyzed using reacting computational …

Quantification of aleatoric uncertainties due to the inherent variabilities in operating
conditions and fuel composition is essential for designing and improving premixers in dry …

The design and operation of premixers for gas turbines must deal with the possibility of
relatively rare events causing dangerous autoignition (AI). Rare AI events may occur in the …

An imperfectly stirred reactor (ISR) is a model that can be applied to strongly recirculating
reactive flows. This model, which is based on the conditional moment closure method, uses …

The Incompletely Stirred Reactor (ISR) is a generalization of the widely-used Perfectly
Stirred Reactor (PSR) model and allows for incomplete mixing within the reactor. Its …

The prediction of soot emissions is a requirement for the development of gas turbine
combustors. Apart from global quantities related to soot mass, future regulations also call for …

A heavy-duty diesel engine (ETH-LAV single cylinder MTU396 heavy duty research engine)
was simulated by RANS and advanced reacting flow models to gain insight into its soot and …

The simulation of soot from swirl flames is a problem of relevance for the development of low-
emission aero-engine combustors. Apart from detailed CFD approaches, it is of importance …