50th AIAA/ASME/SAE/ASEE Joint Propulsion Conference 2014
DOI: 10.2514/6.2014-3848
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Combustion Visualization of Paraffin-Based Hybrid Rocket Fuel at Elevated Pressures

Abstract: The discovery of high regression rate liquefying fuels for hybrid motors has generated a renewed interest in visualization experiments. In 2012, the Stanford Combustion Visualization Facility was developed to investigate the combustion of these fuels with gaseous oxygen. A major upgrade of this facility was recently completed. Details of the changes made to the facility are provided. Visual and schlieren images of the combustion of paraffin wax and oxygen at a range of operating pressures are presented, includ… Show more

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Cited by 14 publications
(3 citation statements)
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“…For HTPB no droplet entrainment was measured and the flame seemed brighter and thicker than for paraffin. Experiments with this setup have been continued by Jens et al (Jens et al, 2014a(Jens et al, , 2014b. They reported unsteady blowing events of paraffin droplets with the tests at higher pressure, slightly above the critical pressure of their paraffin samples.…”
Section: Optical Investigations Of Hybrid Rocket Combustionmentioning
confidence: 91%
“…For HTPB no droplet entrainment was measured and the flame seemed brighter and thicker than for paraffin. Experiments with this setup have been continued by Jens et al (Jens et al, 2014a(Jens et al, , 2014b. They reported unsteady blowing events of paraffin droplets with the tests at higher pressure, slightly above the critical pressure of their paraffin samples.…”
Section: Optical Investigations Of Hybrid Rocket Combustionmentioning
confidence: 91%
“…The current feed system is also different from the 2012 apparatus, details are provided in Ref. 10. The oxidizer mass flow rate for each test is determined from differential pressure transducer measurements across a venturi along with upstream temperature and static pressure measurements.…”
Section: Methodsmentioning
confidence: 99%
“…The main valve for oxygen has been measured to open in under a third of a second, and close in about one second. As done previously, 19 the flow within the feed system is choked through an orifice and the flow rate is measured using a venturi. Figure 12 shows the P&ID diagram utilized for the experiments.…”
Section: E Feed Systemmentioning
confidence: 99%