Experimental Study Assessing the Role of Sedimentary Organic Materials to Control the Redox State of Ground Materials to Control the Redox State of Groundwater: Consumption of Dissolved Oxygen by Humic Acid

Author:

Haysahi Ken-ichiro,Shibata Hideyuki,Yui Mikazu,Ohmoto Hiroshi

Publisher

Wiley

Subject

Geochemistry and Petrology,Geology

Reference28 articles.

1. A COMPUTATIONAL CHEMISTRY APPROACH TO STUDY THE INTERACTIONS OF HUMIC SUBSTANCES WITH MINERAL SURFACES

2. A new geochemical classification of sedimentary environments;Berner;Jour. Sedim. Petrol.,1981

3. Identification of leonardite, a naturally oxidized lignite, by low-angle X-ray scattering method;Broughton;Jour. Sedim. Petrol.,1972

4. Calemma, V. , Iwasaki, P. , Rause, R. and Girardi, E. (1994) Changes in coal structure accompanying the formation of regenerated humic acids during air oxidation. Fuel, 73, 700-707.

5. Humic substance formation via the oxidative weathering of coal;Chang;Environm. Sci. Technol.,1998

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