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Reaction Tuning Of Selectively Deposited Nano-Thermite Inks For Thrust And Heat Deposition, Raghav Ramachandran
Reaction Tuning Of Selectively Deposited Nano-Thermite Inks For Thrust And Heat Deposition, Raghav Ramachandran
Open Access Theses
Currently there is very little systematic work that quantifies the performance of energetic materials in terms of thrust or heat deposition applied to electronic circuits. A better understanding of the interactions between nano-scale energetic materials and electronic systems, as a function of stoichiometry is needed for enhanced defeat. Both of these needs are addressed in this research. Formulations of Al-CuO and Al-Bi2O3 nano-thermites were prepared at different equivalence ratios and selectively deposited onto silicon substrates and thrust and heat deposition of these materials was quantified. Both nano-thermite systems produced maximum thrust near stoichiometric ratios, and more fuel-rich mixtures led to …
Laboratory Apparatus For Gas Turbine Combustion Development, Dustin Lee Cruise
Laboratory Apparatus For Gas Turbine Combustion Development, Dustin Lee Cruise
Open Access Theses
The next generation of combustor technology will be required to meet the demands of a world more focused on greenhouse gases and global warming. Due to this new focus on emission control, combustors must produce less NO x , while operating in a higher pressure environment that is more prone to combustion instabilities.
This work focuses on the development of a lab and combustor that will be used for the next generation combustor development. The lab development includes layout and organization, facilities, measurement and instrumentation, automation of the testing process, and an imaging tool for diagnostics.
A Lean Direction Injection …
Quantitative Imaging Of Radiation Intensity From A Turbulent Sooting Flame, Robert Kapaku
Quantitative Imaging Of Radiation Intensity From A Turbulent Sooting Flame, Robert Kapaku
Open Access Theses
Quantitative imaging of radiation intensity (QIRI) is a method of investigating temporally and spatially resolved radiation from species and particulates in turbulent flames. The current study reports quantitative images of radiation intensity from a turbulent ethylene flame that matches the Reynolds number (15,200) of a non-sooting flame from the International Workshop on Measurement and Computation of Turbulent Non-premixed Flames. A calibrated high-speed infrared camera with four band-pass filters was used to acquire images of radiation intensity in wavelengths corresponding to carbon dioxide, water vapor, and soot. The luminous flame measurements show thin radiating structures corresponding to soot layers and higher …