Effects of Size and Prestressing of Aluminum Particles on the Oxidation of Levitated exo-Tetrahydrodicyclopentadiene Droplets

Abstract: Addition of high-energy-density materials such as aluminum (Al) microparticles or nanoparticles to liquid propellants potentially improves performance of the fuel. We report on the effects of untreated, prestressed, and superquenched aluminum particles with diameters of 100 nm, 250 nm, 500 nm, 1.6 μm, and 8.8 μm on the combustion of JP-10 droplets acoustically levitated in an oxygen–argon atmosphere. Ignition was initiated by a carbon dioxide laser, and the resulting oxidation processes were traced by Raman, F… Show more

“…In the current study, the droplets were levitated in an environment of 60% oxygen (O 2 , 99.9999%, Airgas) and 40% argon (Ar, 99.9999%, Airgas) at a total pressure of 936 ± 1 Torr to overcome the minimum ignition conditions of the present droplets. 49 The droplets were oblate spheroids in shape with mean horizonal and vertical diameters of 2.4 ± 0.3 and 1.4 ± 0.2 mm, respectively (Figure 1). The droplets were introduced into the pressure node with the help of a homemade droplet deposition system.…”

“…The laser output can be tuned in between 1 and 40 W; the present work was performed at an output power of 32 W, which is achieved by setting the duty cycle of the CO 2 laser to 80%; this laser power overcame the minimum ignition conditions of the present droplets. 49 The ignition process of JP-10 in the presence of the zeolite samples was characterized using ultraviolet−visible (UV−vis) and Fourier-transform infrared (FTIR) spectroscopies along with an IR thermal-imaging and a high-speed optical camera. Raman spectroscopy of the droplets was attempted, but the spectra exhibited a smooth structureless continuum with no discrete peaks.…”

Catalytic Effects of Zeolite Socony Mobil-5 (ZSM-5) on the Oxidation of Acoustically Levitated exo-Tetrahydrodicyclopentadiene (JP-10) Droplets

“…In the current study, the droplets were levitated in an environment of 60% oxygen (O 2 , 99.9999%, Airgas) and 40% argon (Ar, 99.9999%, Airgas) at a total pressure of 936 ± 1 Torr to overcome the minimum ignition conditions of the present droplets. 49 The droplets were oblate spheroids in shape with mean horizonal and vertical diameters of 2.4 ± 0.3 and 1.4 ± 0.2 mm, respectively (Figure 1). The droplets were introduced into the pressure node with the help of a homemade droplet deposition system.…”

“…The laser output can be tuned in between 1 and 40 W; the present work was performed at an output power of 32 W, which is achieved by setting the duty cycle of the CO 2 laser to 80%; this laser power overcame the minimum ignition conditions of the present droplets. 49 The ignition process of JP-10 in the presence of the zeolite samples was characterized using ultraviolet−visible (UV−vis) and Fourier-transform infrared (FTIR) spectroscopies along with an IR thermal-imaging and a high-speed optical camera. Raman spectroscopy of the droplets was attempted, but the spectra exhibited a smooth structureless continuum with no discrete peaks.…”

Catalytic Effects of Zeolite Socony Mobil-5 (ZSM-5) on the Oxidation of Acoustically Levitated exo-Tetrahydrodicyclopentadiene (JP-10) Droplets

“…The present approach has the potential for a diverse range of additional fundamental and applied research. For example, laser-heating of the individual or merged droplets will enable reactions to be investigated over an extended temperature range relevant to combustion processes . Furthermore, the incorporation of a closed-cycle helium refrigerator or liquid nitrogen-based cooling system would reduce the temperatures of the buffer gas in the process chamber to those found on the planets and their moons, which would help us explore merging processes of astrochemical relevance including of hydrocarbon droplets in hydrocarbon rich atmospheres of planets and their moons such as Titan .…”

“…Any part of the IR beam incident on the sample is either absorbed or scattered away from the detector, so that only gases in the region of the droplet are detected by transmission FTIR spectroscopy. The number density of the absorber, n , and, hence, the moles of gases produced in the process chamber can be calculated using the Beer–Lambert law: where A is the absorbance from our spectrum, σ is the reference absorption cross section from the HITRAN database, and L is the path length of 37.6 cm.…”

“…For example, laser-heating of the individual or merged droplets will enable reactions to be investigated over an extended temperature range relevant to combustion processes. 22 Furthermore, the incorporation of a closed-cycle helium refrigerator or liquid nitrogen-based cooling system would reduce the temperatures of the buffer gas in the process chamber to those found on the planets and their moons, which would help us explore merging processes of astrochemical relevance including of hydrocarbon droplets in hydrocarbon rich atmospheres of planets and their moons such as Titan. 45 The possibility of mixing without biological contamination or a loss of reagents owing to contact with supports makes our approach suitable for biological applications, such as studying DNA transfection in which small volumes of biological suspensions of living mammalian cells are merged with plasmids.…”

Controlled Chemistry via Contactless Manipulation and Merging of Droplets in an Acoustic Levitator

An experimental investigation of supersonic combustion of cracked JP-10