http://worldcat.org/entity/work/id/139046793

Prediction of the structure of fuel sprays in gas turbine combustors

"The structure of fuel sprays in a combustion chamber is theoretically investigated using computer models of current interest. Three representative spray models are considered (1) a locally homogeneous flow (LHF) model, which assumes infinitely fast interphase transport rates (2) a deterministic separated flow (DSF) model, which considers finite rates of interphase transport but ignores effects of droplet turbulence interactions and (3) a stochastic separated flow (SSF) model, which considers droplet turbulence interactions using random sampling for turbulence properties in conjunction with random-walk computations for droplet motion and transport. Two flow conditions are studied to investigate the influence of swirl on droplet life histories and the effects of droplet turbulence interactions on flow properties. Comparison of computed results with the experimental data show that general features of the flow structure can be predicted with reasonable accuracy using the two separated flow models. In contrast, the LHF model overpredicts the rate of development of the flow. While the SSF model provides better agreement with measurements than the DSF model, definitive evaluation of the significance of droplet turbulence interaction is not achieved due to uncertainties in the spray initial conditions."--NTIS abstract.

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