Rebecca Owston scite author profile

Rebecca Owston

5Publications

59Citation Statements Received

33Citation Statements Given

How they've been cited

How they cite others

104

Affiliations

1366 Technologies (United States), Purdue University West Lafayette, Southwest Research Institute

Publications

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Fuel-Air Mixing Characteristics of DI Hydrogen Jets

Owston¹,

Magi²,

Abraham³

2008

SAE Int. J. Engines

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The following computational study examines the structure of sonic hydrogen jets using inlet conditions similar to those encountered in direct-injection hydrogen engines. Cases utilizing the same mass and momentum flux while varying exit-to-chamber pressure ratios have been investigated in a constant-volume computational domain. Furthermore, subsonic versus sonic structures have been compared using both hydrogen and ethylene fuel jets. Finally, the accuracy of scaling arguments to characterize an underexpanded jet by a subsonic “equivalent jet” has been assessed. It is shown that far downstream of the expansion region, the overall jet structure conforms to expectations for self-similarity in the far-field of subsonic jets. In the near-field, variations in fuel inlet-to-chamber pressure ratios are shown to influence the mixing properties of sonic hydrogen jets. In general, higher pressure ratios result in longer shock barrel length, though numerical resolution requirements increase. While no scaling investigated in this work demonstrated ideal data collapse for penetration rates, the most effective scaling parameter included consideration of inlet-to-chamber density-ratio effects and pressure-ratio effects

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Interactions of hydrogen flames with walls: Influence of wall temperature, pressure, equivalence ratio, and diluents

Owston

Magi

Abraham

2007

International Journal of Hydrogen Energy

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Wall Interactions of Hydrogen Flames Compared with Hydrocarbon Flames

Owston¹,

Magi²,

Abraham³

2007

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This paper provides a comparison of wall heat fluxes and quenching distances as one-dimensional hydrogen and heptane flames impinge head-on onto a wall. It is shown that the quenching distances for stoichiometric H 2 /air and C 7 H 16 /air flames under the specified conditions of this study are about the same, but the wall heat flux for the H 2 /air flames is approximately a factor of two greater. For lean H 2 /air mixtures, the quenching distance increases substantially and the wall heat flux decreases. To understand more clearly the interplay of flame speed, temperature, thermal diffusivity, and surface kinetics on the results, studies of H 2 /O 2 flames are also carried out

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Structure of hydrogen triple flames and premixed flames compared

Owston

Abraham

2010

Combustion and Flame

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A numerical study of thermal and chemical effects in interactions of n-heptane flames with a single surface

Owston

Magi

Abraham

2007

Combustion and Flame

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Rebecca Owston

Fuel-Air Mixing Characteristics of DI Hydrogen Jets

Interactions of hydrogen flames with walls: Influence of wall temperature, pressure, equivalence ratio, and diluents

Wall Interactions of Hydrogen Flames Compared with Hydrocarbon Flames

Structure of hydrogen triple flames and premixed flames compared

A numerical study of thermal and chemical effects in interactions of n-heptane flames with a single surface

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