Advances in borehole imaging technology and applications

Abstract: Borehole imaging devices are currently available for both wireline and loggingwhile-drilling (LWD) environments for use in both openhole and cased wells. Most wireline, and all LWD devices provide indirect images that are derived from a high-density grid of electrical or ultrasonic acoustic measurements. Optical techniques, such as television and photography, provide direct images of the borehole. Imaging devices consist of (1) a rotating sensor (acoustic or electrical) that scans the borehole with each revolu… Show more

“…These logs provide information on lithological and structural features, hori-37 zontal in-situ stress orientations (Prensky, 1999;Poppelreiter et al, 2010) and 38 also provide direct inputs for geomechanical models aimed at evaluating bore- e.g. 0.56 inch (14 mm) di↵erence at X300 m and 1.5 inch (38 mm) at X650 m.…”

Processing and analysis of high temperature geothermal acoustic borehole image logs in the Taupo Volcanic Zone, New Zealand

“…These logs provide information on lithological and structural features, hori-37 zontal in-situ stress orientations (Prensky, 1999;Poppelreiter et al, 2010) and 38 also provide direct inputs for geomechanical models aimed at evaluating bore- e.g. 0.56 inch (14 mm) di↵erence at X300 m and 1.5 inch (38 mm) at X650 m.…”

Processing and analysis of high temperature geothermal acoustic borehole image logs in the Taupo Volcanic Zone, New Zealand

“…Hydraulic Fracturing (HF), including leak-off tests, is the most common technique for measuring the σhmin magnitudes while drilling [37] if σhmin is vertical but no method alone can reliably measure the σHMAX. σHMAX can be estimated using a formula proposed by Hubert and Willis (1957) [38].…”

Natural Fractures Characterization and In Situ Stresses Inference in a Carbonate Reservoir—An Integrated Approach

“…Borehole wall images can be quickly obtained and joints parameter information can be accessed by calculating. Based on this technology, Digital Panoramic Borehole Camera System (DPBCS) as shown in Fig.1 was successfully developed by Institute of Rock and Soil Mechanics, Chinese Academy of Sciences in 1998 [4,5]. Electronic technology, video technology, digital technology and computer technology are used in this system which records and analyzes a situ video of borehole wall from a panoramic perspective.…”

Research on Deep Joints and Lode Extension Based on Digital Borehole Camera Technology