Hydrogeology, characterization

Geoprobe U 50 M Geologic and hydrogeologic characterization only excellent sampling and analytical capabilities (soil,... 

Process costs for an ex situ system used in the EPA s SITE demonstration in New Jersey were approximately 91 per 1000 gal of groundwater treated (D206268, p. 1). In 1996, the vendor estimated that the installation of an aboveground system similar to that used in the New Jersey SITE demonstration would cost about 48,000. This estimate includes all equipment and construction costs. Costs for hydrogeologic characterization, treatability studies, permitting,... 

Hydrogeological characterization, modeling and monitoring of the site of Canada s Underground Research Laboratory. Atomic Energy of Canada Limited report, AECL-8676. 

Sandia National Laboratories (SNL), 1993a, Sandia National Laboratories Site-Wide Hydrogeologic Characterization Project Calendar Year 1992 Annual Report, SAND93-0681, Sandia National Laboratories, Albuquerque, NM, October 1993a. 

Gonzalez Fernandez, B., Melendez Asensio, M. Menendez Casares, E. (2009). Hydrogeological characterization of carbonated Jurassic aquifers in the Gijon-Villaviciosa basin (Asturias, N Spain) by means of geochemical and isotopic techniques. Environmental Earth Sciences, 59(4), 913-92. ... 

Swarzenski PW, Reich CD, Spechler RM, Kindinger JL Moore WS (2001) Using multiple geochemical tracers to characterize the hydrogeology of the submarine spring off Crescent Beach, Florida. Chem Geol 179 187-202... 

Requires characterization of subsurface hydrogeologic conditions, delineation and chemical characterization of LNAPL product pools, recovery of LNAPL product and overall aquifer restoration, and soil remediation... 

To characterize these heterogeneities adequately, it becomes essential that subsurface hydrogeologic assessment include determination of the following ... 

Coetsiers, M. and Walraevens, K. (2006) Chemical characterization of the Neogene aquifer, Belgium. Hydrogeology Journal, 14(8), 1556-68. 

Another optimization approach was followed by Wagner [68 ]. Wagner developed a methodology for performing simultaneous model parameter estimation and source characterization, in which he used an inverse model as a non-linear maximum likelihood estimation problem. The hydrogeologic and source parameters were estimated based on hydraulic head and contaminant concentration measurements. In essence, this method is minimizing the following ... 

The success of biorestoration depends on the hydrogeology of the site. If the hydrogeology is complex, success is problematic. Adequate procedures to characterize many sites are currently available. Moreover, the subsurface environment must be sufficiently permeable to allow the transport of the added N, P, and O2 to the microorganisms situated at the various subsurface sites containing the contaminants. This water movement — referred to as hydraulic conductivity—is critical for a positive outcome. 

Almen K.-E., Andersson O., Fridh B., Johansson B.-E., Sehlsted M., Hansson K., Olsson O., Nilsson G., and Wikberg P. (1986) Site Investigation—Equipment for Geological, Geophysical, Hydrogeological, and Hydro-chemical Characterization. Technical Report 86-16, Swedish Nuclear Euel and Waste Management Company (SKB), Stockholm, Sweden. 

The present hydrogeological framework of the sedimentary basin, which is characterized by the distribution, thickness and dip of porous and permeable hydrogeological units (aquifers/potential carrier-reservoir rocks, e.g. sands, sandstones, carbonates, fractured rocks) and poorly permeable hydrogeological units (aquitards/potential barrier rocks, e.g. shales, evaporites), and the location of geological structures and tectonic elements of importance for subsurface fluid flow, e.g. permeable or impermeable faults, unconformities... 

Mozley, P. Goodwin, L. (1995b) Patterns of cementation along the Sand Hill Fault, Albuquerque Basin, NM implications for paleoflow orientation and mechanisms of fault-related cementation. In Characterization of Hydrogeologic Units in the Northern Albuquerque Basin. (Eds Haneberg, W.C. Hawley, J.W.). New Mexico Bureau of Mines and Mineral Resources Open-File Report, 402-C, 3-11-3-23. 

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