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Publication
Featured researches published by John P. Osegovic.
6th International Conference on Gas Hydrates (ICGH 2008) | 2008
William F. Waite; John P. Osegovic; William J. Winters; Michael D. Max; David H. Mason
An isobaric flow loop added to the Gas Hydrate And Sediment Test Laboratory Instrument (GHASTLI) is being investigated as a means of rapidly forming methane hydrate in watersaturated sand from methane dissolved in water. Water circulates through a relatively warm source chamber, dissolving granular methane hydrate that was pre-made from seed ice, then enters a colder hydrate growth chamber where hydrate can precipitate in a water-saturated sand pack. Hydrate dissolution in the source chamber imparts a known methane concentration to the circulating water, and hydrate particles from the source chamber entrained in the circulating water can become nucleation sites to hasten the onset of hydrate formation in the growth chamber. Initial results suggest hydrate grows rapidly near the growth chamber inlet. Techniques for establishing homogeneous hydrate formation throughout the sand pack are being developed.
Journal of Geophysical Research | 2005
John P. Osegovic; Michael D. Max
Archive | 2006
Michael D. Max; John P. Osegovic
Archive | 2006
John P. Osegovic; Shelli R. Tatro; Sarah A. Holman
Archive | 2009
John P. Osegovic; Brian Blake-Collins; Ian M Slattery; Michael D. Max
Archive | 2008
John P. Osegovic; Michael D. Max; Shelli R. Tatro
International Symposium on Oilfield Chemistry | 2007
Michael D. Max; James W. Hill; Shelli R. Tatro; John P. Osegovic
Archive | 2009
John P. Osegovic; Kathryn Sheps; Michael D. Max; Leslie Brazel; Brian Blake-Collins
Archive | 2009
John P. Osegovic; Brian Blake-Collins; Michael D. Max
Archive | 2008
Michael D. Max; John P. Osegovic; A. D. Johnson
