A Tracer Technique To Measure The Diffusional Accessibility Of Matrix Block Mineralization

Fluid flow through an igneous rock formation will occur mainly through fractures. A non-diffusing or slowly diffusing tracer (such as .5µ silica spheres identifiable under electron microscope) will arrive at a monitor well when enough fluid has been injected to displace the volume of water in the flow fractures between the injection and monitor wells. A rapidly diffusing tracer (such as NaC1)-will diffuse into the matrix blocks and so a volume of tracer nearly equal to the total fluid volume contained in the rock formation between injection and monitor wells must be injected before significant diffusing tracer arrival will be noted. The flow fracture porosity is typically one hundred times smaller than the total porosity of an igneous formation. The shift between diffusing and non diffusing tracer arrivals, together with the diffusional characteristics of the tracers, can define the diffusional accessibility of the matrix blocks of an igneous formation. A field test of these concepts and the problems encountered will be described.