We describe a new-generation laterolog tool, the azimuthal resistivity
imager (ARI). The tool makes deep azimuthal resistivity measurements
around the borehole with higher vertical resolution than the Dual Late
rolog (DLL). Twelve azimuthal electrodes are incorporated into the DLL
electrode array to provide 12 deep, oriented resistivity measurements
while retaining the standard deep and shallow laterolog measurements.
To allow full correction of the azimuthal resistivities for borehole
effect, a shallow auxiliary measurement is incorporated on the azimuth
al array. Although the full-coverage azimuthal resistivity image has m
uch lower spatial resolution than borehole microelectrical images, it
complements these because of its lower sensitivity to shallow features
. Evaluation of heterogeneous and fractured formations, and computatio
n of fracture dip are applications of the tool's imaging capabilities
and are discussed and illustrated with log examples. Other log example
s cover thin-bed response and corrections for Groningen and borehole e
ffects, including that for eccentering of the tool in the borehole.