Dissolution of Hydrocarbon Gas Hydrates in Seawater at 1030-m; Effects of Porosity, Structure, and Compositional Variation as Determined by High-Definition Video and SEM Imaging.

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We compare dissolution rates of pure, porous, compacted, and oil-contaminated sI methane hydrate and sII methane-ethane hydrate to rates measured previously on pure, compacted, sI methane hydrate and sI carbon dioxide hydrate ({\it Rehder et al., Fall AGU 2001}). Laboratory-synthesized test specimens were used in both studies, allowing characterization of test materials prior to their transport and exposure to seawater at 1030-meter depth on the Monterey Canyon seafloor, off coastal Moss Landing, CA.

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Stern, L A, Peltzer, E T, Durham, W B, Kirby, S H, Brewer, P G, Circone, S, Rehder, G ---- Roy Long, Dissolution of Hydrocarbon Gas Hydrates in Seawater at 1030-m; Effects of Porosity, Structure, and Compositional Variation as Determined by High-Definition Video and SEM Imaging., 2016-09-29, https://edx.netl.doe.gov/dataset/dissolution-of-hydrocarbon-gas-hydrates-in-seawater-at-1030-m-effects-of-porosity-structure-and

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Last Updated	September 29, 2016, 15:22 (LMT)
Created	September 29, 2016, 15:22 (LMT)
Citation	Stern, L A, Peltzer, E T, Durham, W B, Kirby, S H, Brewer, P G, Circone, S, Rehder, G ---- Roy Long, Dissolution of Hydrocarbon Gas Hydrates in Seawater at 1030-m; Effects of Porosity, Structure, and Compositional Variation as Determined by High-Definition Video and SEM Imaging., 2016-09-29, https://edx.netl.doe.gov/dataset/dissolution-of-hydrocarbon-gas-hydrates-in-seawater-at-1030-m-effects-of-porosity-structure-and
Netl Product	yes
Poc Email	Roy.long@netl.doe.gov
Point Of Contact	Roy Long
Program Or Project	KMD
Publication Date	2002-9-1