Plasma assisted combustion is a promising technology to improve engine performance,
increase lean burn flame stability, reduce emissions, and enhance low temperature fuel …

The high energy density of hydrocarbon fuels creates a great opportunity to develop
combustion based micro-power generation systems to meet increasing demands for …

The state of the art and the further challenges of combustion chemistry research in laminar
flames are reviewed. Laminar flames constitute an essential part of kinetic model …

Expansion and contraction of structurally flexible Metal–Organic Frameworks (MOFs) or
Porous Coordination Polymers (PCPs) have been extensively studied from different …

Cool flames play a critical role in ignition timing, burning rate, burning limits, engine
knocking, and emissions in conventional and advanced combustion engines. This paper …

Low-temperature flames such as cool flames, warm flames, double flames, and auto-ignition
assisted flames play a critical role in the performance of advanced engines and fuel design …

Usually different autoignition modes can be generated by a hot spot in which ignition occurs
earlier than that in the surrounding mixture. However, for large hydrocarbon fuels with …

Abstract Negative Temperature Coefficient (NTC) behavior is an essential feature of low-
temperature oxidation for large hydrocarbon fuels, which is of particular relevance to cool …

The laminar flame speed sl is an important reference quantity for characterising and
modelling combustion. Experimental measurements of laminar flame speed require the …

It is generally accepted that knock in spark ignition engines might be caused by end-gas
autoignition. However, the detailed mechanism for autoignition-induced pressure oscillation …