Determination of the Location and Connectivity of Fractures in Metamorphic Rock with In‐Hole Tracersa

Abstract

ABSTRACTIn‐hole tracer tests were used in a geohydrologic investigation of metamorphic rock at the Savannah River Plant near Aiken, South Carolina, to locate water‐transmitting fractures and to determine the connectivity of these fractures between boreholes. Only after development of a conceptual model of the fracture occurrence and connection could the proper methods of analysis for the hydraulic parameters be selected.In‐hole tracers were used to locate fractures in a borehole and supplemented other methods, such as core inspection, geophysical logs, borehole wall imaging techniques, dry drilling, and packer tests. The first three of these do not necessarily investigate fluid‐transmitting fractures.In the study of the connectivity of fractures between boreholes, the in‐hole tracer techniques supplemented determinations by the rapidity of hydraulic response and the use of between‐well tracer tests.In hydraulically transmissive rock, fractures were located by changes in the velocity of the tracer pulse in response to adding fluid to the well. In virtually impermeable rock, the movement of the tracer pulse in the rock was normalized to the movement of another tracer pulse in the cased portion of the well because the movement was so slow that direct measurement was difficult. Connectivity of fractures between boreholes was determined by placing an in‐hole tracer in one hole and measuring the movement