NASA Technical Reports Server (NTRS) : Atomization pdf

NASA Technical Reports Server (NTRS) : Atomization

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In recent years, environmental regulations have become more stringent, requiring lower emissions of mainly nitrogen oxides (NOx), as well as carbon monoxide (CO) and unburned hydrocarbons (UHC). These regulations have forced the gas turbine industry to examine non-conventional combustion strategies, such as the lean burn approach. The reasoning behind operating under lean conditions is to maintain the temperature of combustion near and below temperatures required for the formation of thermal nitric oxide (NO). To be successful, however, the lean processes require careful preparation of the fuel/air mixture to preclude formation of either locally rich reaction zones, which may give rise to NO formation, or locally lean reaction zones, which may give rise to inefficient fuel processing. As a result fuel preparation is crucial to the development and success of new aeroengine combustor technologies. A key element of the fuel preparation process is the fuel nozzle. As nozzle technologies have developed, airblast atomization has been adopted for both industrial and aircraft gas turbine applications.

However, the majority of the work to date has focused on prefilming nozzles, which despite their complexity and high cost have become an industry standard for conventional combustion strategies. It is likely that the new strategies required to meet future emissions goals will utilize novel fuel injector approaches, such as radial injection. This thesis proposes and demonstrates an experiment to examine, on a mechanistic level (i.e., the physics of the action), the processes associated with the atomization, evaporation, and dispersion of a liquid jet introduced, from a radial, plain-jet airblast injector, into a crossflow of air. This understanding requires the knowledge not only of what factors influence atomization, but also the underlying mechanism associated with liquid breakup and dispersion. The experimental data acquired identify conditions and geometries for improved performance of radial airblast injectors

• Creator/s: NASA Technical Reports Server (NTRS
• Date: 11/1/1996
• Year: 1996
• Book Topics/Themes: NASA Technical Reports Server (NTRS), COMBUSTION CHAMBERS, FUEL INJECTION, ATOMIZING, AIRCRAFT ENGINES, COMBUSTION, COMBUSTION TEMPERATURE, CROSS FLOW, GAS TURBINE ENGINES, GAS TURBINES, LIQUID INJECTION, EVAPORATION, HYDROCARBONS, NITRIC OXIDE, NITROGEN OXIDES, REGULATIONS, SHOCK WAVES, Seay, J. E., Samuelson, G. S

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