Page 388 - Numerical Analysis and Modelling in Geomechanics
P. 388
RESERVOIR COMPACTION, SUBSIDENCE AND WELL DAMAGE 369
Figure 11.22 Casing length plotted against lateral displacement.
4 Geological Society of America (GSA), Man-Induced Land Subsidence, Holzer, T.L.
(ed.), Inc., Boulder, CO, 1984.
5 Association of Engineering Geologists (AEG), Land Subsidence Case Studies and
Current Research: Proceedings of the Dr. Joseph F.Poland Symposium on Land
Subsidence, Special Publication No. 8, Borchers, J.W. (ed.), Star Publishing,
Belmont, CA, 1998.
6 Geertsma, J, “Land subsidence above compacting oil and gas reservoirs,” Journal
of Petroleum Technology, June, 1973.
7 Martin, J.C. and Serdengecti, S., “Subsidence over oil and gas fields,” Man-
Induced Land Subsidence, Holzer, T.L. (ed.), Geological Society of America,
Boulder, CO, 1984.
8 Holzer, T.L., “Ground failure induced by ground-water withdrawal from
unconsolidated sediments,” in Man-Induced Land Subsidence, Holzer, T.L. (ed.),
Geological Society of America, Boulder, CO, 1984.
9 Narasimhan, T.N. and Goyal, K.P., “Subsidence due to geothermal fluid
withdrawal,” Man-Induced Land Subsidence, Holzer, T.L. (ed.), Geological Society
of America, Boulder, CO, 1984.
10 Association of Engineering Geologists (AEG), Proceedings: Mine Subsidence and
Control, Star Publishing, Belmont, CA, 1990.
11 American Society of Civil Engineers (ASCE), “Mine induced subsidence: Effects
on engineered structures,” Geotechnical Special Publication No. 19, Siriwardane,
H.J. (ed.), American Society of Civil Engineers, New York, 1988.
12 Rodriguez, L.B. and Ruelas, S.A., “Ground settlements from the excavation of
tunnels in soft clay,” Soft-Ground Tunneling: Failures and Displacements,
