This paper describes a nonintrusive technique suitable for engineering measurement of particle velocity ejected from a solid rocket motor. The background radiation, the high velocities and temperature of gases, and the small time scales characterizing the flow downstream of the nozzle make the diagnostics difficult to achieve. In fact, the thrust curve and time history of the head-end pressure often are the only data available. In this work, the flow is studied by analyzing the overall radiative emissions of the plume in the UV-visible band (0.4-1.1 μm wavelength band). The main result is that the particles ejected along with the exhaust gases are well suited as seeding for a correlationbased velocimetry technique. Furthermore, a wavelet ex...
A programmatic and unified framework of techniques, targeting the particles size evolution in solid ...
Supported by NASA, George C. Marshall Space Flight Center, Huntsville, Alabama, under contracts NAS8...
Abstract: In support of efforts to improve predictions of the acoustic environment of the Crew Expl...
This paper describes a nonintrusive technique suitable for engineering measurement of particle veloc...
This work describes the development and implementation of a novel velocimetry technique to probe the...
Combusting environments where high velocities are encountered present a very challenging environment...
A novel velocimetry technique to probe the exhaust flow of a laboratory scale combustor is being dev...
To gather information about both particle and gas phase temperatures inside a scaled solid rocket mo...
Supported by NASA, George C. Marshall Space Flight Center, Huntsville, Alabama.Author Institution: R...
A method to characterize particles in rocket exhaust plumes is developed. The particle velocity, siz...
Metals in solid propellants are used to improve specific impulse and increment the energy density. T...
The signatures (i.e., the emission and transmission characteristics of the plumes) of various types ...
A combined optical and collection probe for solid propellant rocket motor exhaust particle analysis ...
An experimental investigation was conducted to determine the feasibility of measuring the change in ...
In recent decades, solid fuel combustion propulsion of spacecraft has become one of the most popular...
A programmatic and unified framework of techniques, targeting the particles size evolution in solid ...
Supported by NASA, George C. Marshall Space Flight Center, Huntsville, Alabama, under contracts NAS8...
Abstract: In support of efforts to improve predictions of the acoustic environment of the Crew Expl...
This paper describes a nonintrusive technique suitable for engineering measurement of particle veloc...
This work describes the development and implementation of a novel velocimetry technique to probe the...
Combusting environments where high velocities are encountered present a very challenging environment...
A novel velocimetry technique to probe the exhaust flow of a laboratory scale combustor is being dev...
To gather information about both particle and gas phase temperatures inside a scaled solid rocket mo...
Supported by NASA, George C. Marshall Space Flight Center, Huntsville, Alabama.Author Institution: R...
A method to characterize particles in rocket exhaust plumes is developed. The particle velocity, siz...
Metals in solid propellants are used to improve specific impulse and increment the energy density. T...
The signatures (i.e., the emission and transmission characteristics of the plumes) of various types ...
A combined optical and collection probe for solid propellant rocket motor exhaust particle analysis ...
An experimental investigation was conducted to determine the feasibility of measuring the change in ...
In recent decades, solid fuel combustion propulsion of spacecraft has become one of the most popular...
A programmatic and unified framework of techniques, targeting the particles size evolution in solid ...
Supported by NASA, George C. Marshall Space Flight Center, Huntsville, Alabama, under contracts NAS8...
Abstract: In support of efforts to improve predictions of the acoustic environment of the Crew Expl...