Abstract This research presents a physical-mathematical model for the combustion of liquefying fuels in hybrid combustors, accounting for blowing effect on the heat transfer. A particular attention is given to a paraffin/nitrous oxide hybrid system. The use of a paraffin fuel in hybrid propulsion has been considered because of its much higher regression rate enabling significantly higher thrust compared to that of common polymeric fuels. The model predicts the overall regression rate (melting rate) of the fuel and the different mechanisms involved, including evaporation, entrainment of droplets of molten material, and mass loss due to melt flow on the condensed fuel surface. Prediction of the thickness and velocity of the liquid (melt) layer formed at the surface during combustion was done as well. Applying the model for an oxidizer mass flux of 45kg/(sm2) as an example representing experimental range, it was found that 21% of the molten liquid undergoes evaporation, 30% enters the gas flow by the entrainment mechanism, and 49% reaches the end of the combustion chamber as a flowing liquid layer. When increasing the oxidizer mass flux in the port, the effect of entrainment increases while that of the flowing liquid layer along the surface shows a relatively lower contribution. Yet, the latter is predicted to have a significant contribution to the overall mass loss. In practical applications it may cause reduced combustion efficiency and should be taken into account in the motor design, e.g., by reinforcing the paraffin fuel with different additives. The model predictions have been compared to experimental results revealing good agreement.
Highlights Model of hybrid combustion of paraffin and nitrous oxide is presented. Liquefying fuel mass loss is due to evaporation, entrainment and melt flow. Melt flow along the surface may cause reduction in overall performance. Blowing effect due to fuel gasification reduces heat transfer to the surface. Model results are in good agreement with experimental data.
Heat and mass transfer analysis for paraffin/nitrous oxide burning rate in hybrid propulsion
Acta Astronautica ; 120 ; 121-128
2015-12-10
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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