Branston, Michael W. (2003) The application of time-lapse microgravity to investigate and monitor subsidence related to salt dissolution:. PhD thesis, Keele University.
Full text not available from this repository.Abstract
Subsidence of the ground Surface due to the removal of support either through man’s mining activity or natural dissolution of rock occurs throughout the world. In Cheshire, subsidence related to salt extraction has occurred in various forms for centuries, the most frequent and devastating occurring in the 18th and 19th centuries. Subsidence in Cheshire has restricted the industrial development of areas with a history of salt extraction and jeopardized the stability of urban areas. It is important for the remediation of such sites, that the cause of subsidence and it’s state of development is established. Increasingly, practitioners are looking toward cost effective, non-invasive techniques to rapidly assess subsidence afflicted areas. This thesis investigates the potential of one such technique, time-lapse microgravity. Microgravity has become established as a tool for use during site investigations where the characterization of sub-surface density contrasts is required. The objective of this thesis is to develop this technique into a tool for the characterization and monitoring of areas experiencing surface subsidence. Preliminary trials were conducted at Preesall Brine field (Lancashire) and Keele University (Staffordshire) to verify that time-lapse microgravity was an accurate and viable technique. A case investigation was conducted at an urban site in Northwich, Cheshire known to be experiencing subsidence related structural problems. Gravity modelling and inversion techniques were employed to identify the causative body’s dimensions and monitor its development over a four-year period. Further field trials were carried out at Marston, Cheshire. A major mass deficiency was identified as cause of the subsidence in the area using gravity modelling techniques but sub-surface mass movement was not identified during the monitoring period. Interpretation of passive microseismic data, acquired alongside the time-lapse microgravity surveys, has provided information on the mechanism of failure responsible for the subsidence recorded at the test sites. This work has shown that time-lapse microgravity is a viable, cost effective, non-invasive monitoring technique that is beneficial in the assessment and characterization of subsidence affected areas as well as providing information valuable to the assessment of the remediation of such areas.
Item Type: | Thesis (PhD) |
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Subjects: | Methodology > Other-additional study Region > UK > Cheshire Inducing technology > Underground mining |
Project: | EPOS-IP > NORTHWICH: underground salt extraction cavities EPOS-IP > PREESALL MINE: underground salt extraction cavities |