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Behavior of buoyancy and momentum controlled hydrogen jets and flames emitted into the quiescent atmosphere

Type of Publication
Year of Publication
2009
Authors

J.S. Kim; W. Yang; Y. Kim; S.H. Won

Abstract

As an effort to improve the prediction of hydrogen dispersion in the atmosphere, effects of buoyancy acting on the hydrogen jets formed by releasing from high pressure vessels are investigated analytically and experimentally. For the analytical study, an integral analysis for buoyant jets and flames is carried out to yield the closed formula describing the jet and flame shapes, including their trajectory and horizontal and vertical lengths corresponding to the critical concentrations. Because the density of hydrogen after releasing from high pressure storage conditions is much close to that of helium than that of hydrogen at room temperature, helium is used as the hydrogen surrogate for the buoyant jet experiments, which were performed by visualizing the jet dispersing in the atmosphere up to the jet Reynolds number Re similar to 2400. The trajectories obtained by the integral analysis and experiments agree relatively well until the transition to turbulence occurs. A further estimate for jets and flames is made by using the integral analysis as a preliminary design to the experiments involving a much greater hydrogen release. Once the comparative investigation of the larger scale experiments with the integral analysis, we anticipate that a more universal hydrogen jet and flame data can be obtained, which perhaps leads to a better safety distance of hydrogen stations. (C) 2009 Elsevier Ltd. All rights reserved.

DOI

10.1016/j.jlp.2009.08.018

Volume

22

Notes

Times Cited: 1 Won, Sang Hee/B-4839-2012 Si Annual Symposium of the Mary-Kay-OConnor-Process-Safety-Center Oct 28-29, 2008 College Stn, TX Mary Kay OConnor Proc Safety Ctr 1

Pagination

943-949

Number
6
ISSN Number

0950-4230

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