Delineation of a collapse feature in a noisy environment using a multichannel surface wave technique

J. Xia; C. Chen; P.H. Li; M.J. Lewis

doi:10.1680/geot.54.1.17.36326

Delineation of a collapse feature in a noisy environment using a multichannel surface wave technique

Geotechnique

By: J. Xia, C. Chen, P.H. Li, and M.J. Lewis

https://doi.org/10.1680/geot.54.1.17.36326

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Abstract

A collapse developed at Calvert Cliffs Nuclear Power Plant, Maryland, in early 2001. The location of the collapse was over a groundwater drainage system pipe buried at an elevation of +0??9 m (reference is to Chesapeake Bay level). The cause of the collapse was a subsurface drain pipe that collapsed because of saltwater corrosion of the corrugated metal pipe. The inflow/outflow of sea water and groundwater flow caused soil to be removed from the area where the pipe collapsed. To prevent damage to nearby structures, the collapse was quickly filled with uncompacted sand and gravel (???36000 kg). However, the plant had an immediate need to determine whether more underground voids existed. A high-frequency multichannel surface-wave survey technique was conducted to define the zone affected by the collapse. Although the surface-wave survey at Calvert Cliffs Nuclear Power Plant was conducted at a noise level 50-100 times higher than the normal environment for a shallow seismic survey, the shear (S)-wave velocity field calculated from surface-wave data delineated a possible zone affected by the collapse. The S-wave velocity field showed chimney-shaped low-velocity anomalies that were directly related to the collapse. Based on S-wave velocity field maps, a potential zone affected by the collapse was tentatively defined.

Suggested Citation

Xia, J., Chen, C., Li, P., Lewis, M., 2004, Delineation of a collapse feature in a noisy environment using a multichannel surface wave technique: Geotechnique, v. 54, no. 1, p. 17-27, https://doi.org/10.1680/geot.54.1.17.36326.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Delineation of a collapse feature in a noisy environment using a multichannel surface wave technique
Series title	Geotechnique
DOI	10.1680/geot.54.1.17.36326
Volume	54
Issue	1
Year Published	2004
Language	English
Larger Work Type	Article
Larger Work Subtype	Journal Article
Larger Work Title	Geotechnique
First page	17
Last page	27