A study was undertaken to determine the effects of pH and shear rate o
n the gelation of a xanthan-C(III) solution of the type that has been
used successfully for permeability modification of oil fields. The rat
e of gelation and gel strength were determined using small-amplitude o
scillatory methods under zero shear and superimposed steady-shear rate
s approximating those anticipated during placement in the porous matri
x. At zero-net shear, the rate of gelation was first order in the inve
rse of the hydrogen-ion concentration up to pH 6.5. At pH 6.5 and abov
e, precipitation of chromium slowed the gelation. The effect of shear
was quite pronounced. No permanent gel structure was observed while th
e gel was under shear, regardless of pH or shear rate. Gelation was ob
served after shear was removed. However, the rate of gelation was 1.5
to 2 orders of magnitude slower than observed for zero-net shear runs.
The rate of gelation decreased with increasing duration of shear. Thi
s effect was more pronounced at higher pH, indicating the ratio of app
lied-shear duration to solution-gel time may be the factor controlling
gelation. Gels were not observed when the gel system was subjected to
continuous shear for times longer than the zero-shear gelation time.