Page 391 - Numerical Analysis and Modelling in Geomechanics
P. 391
372 RESERVOIR COMPACTION, SUBSIDENCE AND WELL DAMAGE
42 Dale, B.A., Narahera, G.M., and Stevens, R.M., “A case history of reservoir
subsidence and wellbore damage management in the South Belridge field,” SPE
36658, Proceedings of the 1996 Western Regional Meeting, Anchorage, AK, May
22–24, 1996.
43 Clegg, J.D., “Casing failure study—Cedar Creek anticline,” Journal of Petroleum
Technology, 1971, pp. 676–684.
44 McCauley, T.V., “Planning workovers in wells with fault-damaged casing—South
Pass Block 27 Field,” Journal of Petroleum Technology, 1974, pp. 739–745.
45 Cernocky, E.P. and Scholibo, F.C., “Approach to casing design for servicing
compacting reservoirs,” Proc SPE Ann Technical Conference and Exhibition,
1995, p. 731.
46 Cheatham, J.B. and McEver, J.W., “Behavior of casing subjected to salt loading,”
Journal of Petroleum Technology, 1964, pp. 1069–1075.
47 Hirshberg, A.J., Moyer, M.C., and Rickenbach, R.M., “Surface casing strain
capacity for north slope operations,” SPE Drilling Engineering, 1988.
48 Smith, M.B. and Patillo, P.D., “A finite element analysis of collapse of perforated
casing,” Transactions of the ASME, 105, 1983, pp. 234–240.
49 Patillo, P.D. and Smith, M.B., “The effect of formation flow on the integrity of
perforated casing,” Society Of Petroleum Engineers Journal, 1985, pp. 637–646.
50 Bradley, D.A. and Chia, Y.-P., “Evaluation of reservoir compaction and its effects
on casing behavior,” SPE 14985, Proceedings of the Deep Drilling and Production
Symposium, 1986, pp. 113–123.
51 Chia, Y.-P. and Bradley, D.A., “Effects of nonlinear reservoir compaction on
casing behavior,” SPE 15469, Proceedings 61st SPE Annual Conference and
Exhibition, 1986, pp. 1–8.
52 Wooley, G.R. and Prachner, W., “Reservoir compaction loads on casing and
liners,” SPE Production Engineering, 1988, pp. 96–102.
53 Dusseault, M.B., Bruno, M.S., and Barrera, J., “Casing shear: causes, cases, cures,”
SPE Drilling & Completion, 2001, pp. 98–107.
54 Morita, N. and McLeod, H.O., “Oriented perforations to prevent casing collapse
for highly inclined wells,” SPE 28556, Proceedings 69th SPE Annual Conference
and Exhibition, 1994, pp. 427–437.
55 Hibbitt, Karlsson and Sorensen, Inc., ABAQUS Theory Manual, version 5.8,
Pawtucket, RI, 1998.
56 Borja, R.I. and Alarcón, E., “A mathematical formulation for finite strain elasto-
plastic consolidation. Part I: Balance laws, variational formulation, and
linearization”, Comput. Methods Appl. Mech. Engrg., 20, 1995, pp. 145.
57 Lewis, R.W. and Schrefler, B.A., The Finite Element Method in the Deformation of
Porous Media, John Wiley, Chichester, UK, 1987.
58 Truesdell, C. and Toupin, R., “The classical field theories”, Handbuch der Physik
III(1), S.Flügge (ed.), Springer Verlag, Berlin, 1960.
59 Truesdell, C. and Noll, W., “The nonlinear field theories of mechanics”, Handbuch
der Physik III(3) , S.Flügge (ed.), Springer Verlag, Berlin, 1965.
60 Terzaghi, K., Die Berechnung der Durchlassigkeitsziffer des Tones aus dem
Verlauf der hydrodynamischen Spannungereichnungen. Akademie der
Wissenschaften in Wien, Sitzungsberichte, Mathematisch-naturwissenschaftliche
Klasse, Part IIa, 132, 1923, p. 124.

