Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Aquifer geochemistry

McMahon P. B. and Chapelle F. H. (1991a) Microbial production of organic acids in aquitard sediments and its role in aquifer geochemistry. Nature 349, 233-235. [Pg.2701]

Interaction with aquifer geochemistry in this indirect method, multivariable statistics or artificial neural network method is used to analyze and link geochemical data to bioremediation or microbial community data. [Pg.897]

Xu T., Apps J.A., et al. Numerical simulation of C02 disposal by mineral trapping in deep aquifers. 2004 Applied Geochemistry 19 917-936. [Pg.173]

Thorstenson, D.C., D.W. Fisher and M. G. Croft, 1979, The geochemistry of the Fox Hills-Basal Hell Creek aquifer in southwestern North Dakota and northwestern South Dakota. Water Resources Research 15,1479-1498. [Pg.532]

Leaching and desorption of As from its associated mineral surfaces such as iron, aluminum and manganese oxides under the influence of the aquifer complex geochemistry, largely take part in its transport from sediment to aquifer pore-water. Adsorption has widely been considered as the retardation of As transport (Smedley 2003). [Pg.113]

KEYWORDS groundwater geochemistry, arsenic mobility, redox, sorption, Quaternary aquifers... [Pg.203]

Smedley, P.L., Zhang, M., Zhang, G., Luo, Z. 2003. Mobilisation of arsenic and other trace elements in fluviolacustrine aquifers of the Huhhot Basin, Inner Mongolia. Applied Geochemistry, 18, 1453-1477. [Pg.206]

Fritz, R. and Fritz, J., 1991, Characterizing Shallow Aquifers UsingTritium and 14C Periodic Sampling Based on Tritium Half-Life Applied Geochemistry, Vol. 6, pp. 17-33. [Pg.128]

Booth, C. J. 2002. The effects of longwall mining on overlying aquifers. In Younger, P. L. Robins, N. S. (eds) Mine Water Hydrogeology and Geochemistry. Geological Society, London, Special Publications, 198, 17-45. [Pg.204]

Kaszuba, J. P Janecky, D. R. Snow, M. G. 2003. Carbon dioxide reaction processes in a model brine aquifer at 200 degrees C and 200 bars implications for geologic sequestration of carbon. Applied Geochemistry, 18, 1065-1080. [Pg.296]

Fouillac, C., Fouillac, A. M. Criaud, A. 1990. Sulphur and oxygen isotopes of dissolved sulphur species in formation waters from the Dogger geothermal aquifer, Paris Basin, France. Applied Geochemistry, 5, 415-427. [Pg.332]

Buckau, G., Artinger, R., Fritz, P., Geyer, S., Kim, J. I. Wolf, M. 2000. Origin and mobility of humic colloids in the Gorleben aquifer system. Applied Geochemistry, 15, 183-191. [Pg.541]

Baedecker, M.J., Cozzarelli, I.M., Eganhouse, R. P., Siegel, D.I. Bennett, P. C. (1993). Crude oil in a shallow sand and gravel aquifer. III. Biogeochemical reactions and mass balance modeling in anoxic groundwater. Applied Geochemistry, 8, 569—86. [Pg.92]

Smedley, P.L., Kinniburgh, D.G., Macdonald, D.M.J. et al. (2005) Arsenic associations in sediments from the loess aquifer of La Pampa, Argentina. Applied Geochemistry, 20(5), 989-1016. [Pg.67]

Carrillo-Chavez, A., Drever, J.I. and Martinez, M. (2000) Arsenic content and groundwater geochemistry of the San Antonio-El Triunfo, Carrizal and Los Planes aquifers in southernmost Baja California, Mexico. Environmental Geology, 39(11), 1295-303. [Pg.203]

Holm, T.R., W.R. Kelly, S.D. Wilson, G.S. et al. (2004) Arsenic Geochemistry and Distribution in the Mahomet Aquifer Waste Management and Research Center Report RR-107, Illinois State Water Survey and Illinois Waste Management and Research Center, Chicago, IL. [Pg.212]

Szramek, K Walter, L.M. and McCall, P. (2004) Arsenic mobility in groundwater/surface water systems in carbonate-rich Pleistocene glacial drift aquifers (Michigan). Applied Geochemistry, 19(7), 1137-55. [Pg.230]

Ahmed, K.M., Bhattacharya, P Hasan, M.A. el al. (2004) Arsenic enrichment in groundwater of the alluvial aquifers in Bangladesh an overview. Applied Geochemistry, 19(2), 181-200. [Pg.340]

Smith, J.V.S., Jankowski, J. and Sammut, J. (2003) Vertical distribution of As(III) and As(V) in a coastal sandy aquifer Factors controlling the concentration and speciation of arsenic in the Stuarts Point groundwater system, northern New South Wales, Australia. Applied Geochemistry, 18(9), 1479-96. [Pg.348]


See other pages where Aquifer geochemistry is mentioned: [Pg.5131]    [Pg.2001]    [Pg.61]    [Pg.596]    [Pg.446]    [Pg.5131]    [Pg.2001]    [Pg.61]    [Pg.596]    [Pg.446]    [Pg.358]    [Pg.360]    [Pg.575]    [Pg.163]    [Pg.165]    [Pg.211]    [Pg.91]    [Pg.116]    [Pg.219]    [Pg.253]    [Pg.62]    [Pg.389]    [Pg.403]    [Pg.405]    [Pg.69]    [Pg.454]    [Pg.223]    [Pg.347]   
See also in sourсe #XX -- [ Pg.897 ]




SEARCH



Aquifer

Geochemistry

© 2024 chempedia.info