Title :
Inversion of shear velocity profile in a cased borehole
Author :
Ming-ming Ma ; Hao Chen ; Xiu-ming Wang ; Xiao He
Author_Institution :
State Key Lab. of Acoust., Inst. of Acoust., Beijing, China
Abstract :
The theoretical model in this study is constructed with a fluid-filled well-bonded cased borehole with a radially layered formation outside. The thickness and shear velocity of each layer are different from that of others, and it may not be inverted from flexural dispersion data easily. In A parametric exponential profile controlled by three parameters to express the radial variations of the formation shear velocity approximately are used, and the objective function for inverting the three parameters based on the modified perturbation method is established. Reasonable inverted results demonstrate the validity of the radial profiling methodology. After analysis of effect of factors on the inverted results, we have obtained preliminary conclusions.
Keywords :
bending strength; drilling (geotechnical); perturbation techniques; shear strength; cased borehole; flexural dispersion data; fluid-filled well-bonded cased borehole; formation shear velocity; modified perturbation method; parametric exponential profile; radial profiling methodology; radial variations; radially layered formation; shear velocity profile inversion; Acoustics; Algorithm design and analysis; Dispersion; Equations; Linear programming; Mathematical model; Perturbation methods; Cased well; Radial profile; Shear velocity; Sonic logging;
Conference_Titel :
Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA), 2012 Symposium on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4673-4814-0
DOI :
10.1109/SPAWDA.2012.6464096
