Analysis of Minerals Containing Dissolved Traces of the Fluid Phase Components Water and Carbon Dioxide
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Substantial progress has been made towards a better understanding of the dissolution of common gas/fluid phase components, notably H2O and CO2, in minerals. It has been shown that the dissolution mechanisms are significantly more complex than currently believed. By judiciously combining various solid state analytical techniques, convincing evidence was obtained that traces of dissolved gas/fluid phase components undergo, at least in part, a redox conversion by which they split into reduced H2 and and reduced C on one hand and oxidized oxygen, O(-), on the other. Analysis for 2 and C as well as for any organic molecules which may form during the process of co-segregation are still impeded by the omnipresent danger of extraneous contamination. However, the presence of O(-), an unusual oxidized form of oxygen, has been proven beyond a reasonable doubt. The presence of O(-) testifies to the fact that a redox reaction must have taken place in the solid state involving the dissolved traces of gas/fluid phase components. Detailed information on the techniques used and the results obtained are given. Freund, Friedemann Ames Research Center CARBON DIOXIDE; DISSOLVING; MINERALS; OXYGEN; WATER; CONTAMINATION; HAZARDS; HYDROGEN; MOLECULES; SOLID STATE...
Format:Paperback
Language:English
ISBN:1731249926
ISBN13:9781731249920
Release Date:January 1
Publisher:Independently Published
Length:130 Pages
Weight:0.70 lbs.
Dimensions:0.3" x 8.5" x 11.0"
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