Available Technology

Bore II – Advanced Wellbore Technology Characterizes Groundwater Flow and Contamination CR-1256, 1673

Bore II, co-developed by Berkeley Lab researchers Frank Hale, Chin-Fu Tsang, and Christine Doughty, provides vital information for solving water quality and supply problems and for improving remediation of contaminated sites. Termed “hydrophysical logging,” this technology is based on a new concept for measuring fluid flow that enables characterization of groundwater problems more quickly, more cost effectively, and with higher resolution than ever before. Combining the unique interpretation software Bore II with advanced downhole instrumentation (the hydrophysical logging tool), the method quantifies inflow and outflow locations, their associated flow rates, and the basic water quality parameters of the associated formation waters (e.g., pH, oxidation-reduction potential, temperature). In addition, when applied in conjunction with downhole fluid sampling, Bore II makes possible a complete assessment of contaminant concentration within groundwater. For more information, see the following resources: Technical description of hydrophysical logging Example: Field Data Example: Field Schedule
Identifies water-bearing zones and obtains the associated flow rates in real time, facilitating on-site evaluation - Especially suited for fractured or highly heterogeneous porous rock - Tests the entire wellbore and/or formation as a single, complete, interactive unit, limiting inaccuracies associated with aquifer “cross contamination” - Provides simultaneous hydraulic and hydrochemical evaluation - Identifies fluid inflow and outflow locations with greater resolution, quantifies a larger range of flow rates, and is much quicker to implement than other existing techniques - Can be used to estimate regional groundwater flow within a rock formation - Multirate analysis enables investigation of hydraulic heads and transmissivities of water-bearing zones - Convenient graphic user interface enables results to be plotted directly within the program or exported to standard visualization programs
Internal Laboratory Ref #: 
CR-1256, 1673
Patent Status: 
Copyrighted. Available for licensing
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