A simple model of fuel spray burning I: Random sprays

A recently developed theory of fuel spray burning [1] is applied to the experiments of Nuruzzaman, Hedley and Bedr [3] on linear arrays of burning fuel droplets. The calculated burning rates have the right order of magnitude but are too strongly dependent on the initial droplet diameter and on the i

An investigation has been conducted into the effects of emulsion characteristics on the flame structure of pure Jet A fuel, Jet A fuel and surfactant blend, and Jet A fuel-water-surfactant emulsion sprays burning over an air-blast atomizer in quiescent and swirling surroundings. The effects of surfa

A simple model representing deposition from a sedimenting cloud diffusing about its centre of gravity was compared with tracer distributions obtained from aerially released line sources in the lowest 15 m of the atmosphere. An estimate of linear growth in cloud dimensions was derived for its initial

This paper deals with a comparative-experimental study of the flame structure of the air-blast atomized sprays of number 2 fuel oil (petroleum derived) and SRC-II fuel oil (coal derived). The effects of fuel flow rate, atomizing air flow rate, and swirling air flow rate on the following flame charac

A numerical model of liquid fuel spray combustion is developed to study the e!ects of inlet #ow conditions of primary and dilution air on the performance of a swirl-stabilized axi-symmetric combustor. The model is based on two-phase stochastic separated #ow approach. A standard k} model with logarit

A~traet-A simple one-dimensional mathematical model is developed which is used to calculate the burning rate of a spray of droplets with an initial Rosin-Rammler size distribution. The model is based on experimental observations of the influence of temperature, partial pressure of oxygen, and drople