Tunable Diode Laser Absorption Spectroscopy of Aerospace Flows

Wheatley, Brad

doi:10.14264/uql.2017.1050

Cited by 2 publications

(2 citation statements)

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“…In this manner, the properties of the flow field are found. [6][7][8] Due to the limitations in the measurement of spectral absorbance, it is typically difficult to obtain accurate measurements using the direct absorption method. Therefore, alternative methods based on wavelength modulation have been developed for the determination of the gas state.…”

Section: Introductionmentioning

confidence: 99%

Planar Laser Absorption Spectroscopy for the Resolution of Simultaneous, Spatially-Distinct Absorption Paths

Gamba¹

2016

52nd AIAA/SAE/ASEE Joint Propulsion Conference

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Section: Introductionmentioning

confidence: 99%

Planar Laser Absorption Spectroscopy for the Resolution of Simultaneous, Spatially-Distinct Absorption Paths

Gamba¹

2016

52nd AIAA/SAE/ASEE Joint Propulsion Conference

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“…From an experimental perspective, the author recommends the development and use of non-intrusive optical techniques such as, for example, TDLAS (Tunable Diode Laser Absorption) to measure freestream velocity and temperature, developing upon the work of Wheatley [218]. Improved Pitot pressure measurements, with reduced noise level, would also allow for more accurate flow property estimation.…”

Section: Resultsmentioning

confidence: 99%

Free-jet testing of a Mach 12 scramjet in an expansion tube

Toniato¹

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Scramjet technology has the theoretical potential to provide air-breathing propulsion as a more efficient alternative to conventional rocket propulsion. Since the vehicle captures its oxidiser from the atmosphere -as opposed to carrying it like a rocket -the specific impulse can theoretically be increased by an order of magnitude, thereby increasing payload mass fractions. In this context, threestage hybrid rocket-scramjet-rocket launch systems have shown to potentially provide a cost-effective and flexible solution for satisfying the requirements of the small-satellites market. However, to be economically feasible, the proposed scramjet-powered second stage would be reusable.Rectangular-to-Elliptical-Shape-Transitioning (REST) engines have shown to be a viable concept that can be integrated into access-to-space vehicles operating between Mach 5 and 12. The half-scale Mach 12 REST engine is a research scramjet specifically designed to operate in the last part of the ascent trajectory. Previous studies have demonstrated the ability of this design to successfully operate at equivalent flight conditions of Mach 11.6, 30 kPa dynamic pressure. However, tests have never been performed in freejet mode at the design conditions, as the facility which was used -the T4 reflected shock tunnel -was limited, like all RSTs by the extreme total pressure requirements of a Mach 12 flight. These limitations are aggravated by the even higher pressure necessary for pressure-length scaling, used to conserve the flow similarity between the half-scale experimental model and the flight engine.To overcome these limitations and allow freejet testing with pressure-length scaling, the use of expansion tubes has been proposed. These are currently the only kind of facility capable of producing these high-pressure requirements. Currently, the University of Queensland operates the X3 expansion tube, which is one of the few facilities worldwide with the potential to produce both the required total pressures and sufficiently long test times (up to 1.5 ms) to test an engine such as the Mach 12 REST engine.

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Tunable Diode Laser Absorption Spectroscopy of Aerospace Flows

Cited by 2 publications

References 102 publications

Planar Laser Absorption Spectroscopy for the Resolution of Simultaneous, Spatially-Distinct Absorption Paths

Planar Laser Absorption Spectroscopy for the Resolution of Simultaneous, Spatially-Distinct Absorption Paths

Free-jet testing of a Mach 12 scramjet in an expansion tube

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