Page 169 - Formation Damage during Improved Oil Recovery Fundamentals and Applications
P. 169
1 C C C C C C C C C C C C C C C A
2 ε 2
1 α αΛ ε 2 Λ
particle 1 ε 2 α 2 1 αΛÞ 2 ð
strained 1 α αΛ 2 T 1 ε A 1 α A 2
C, X2T Þ 2 e 2ΛX 1 ε 2 ε 2 e 1 αΛ
concentration 2 S a0 Þ X 2T 2ΛX α ε 2 e α21 2 e 2αΛð 1 2ΛÞ αε ε e 2 T 1Xð αΛ X2TÞ ð 1 α e 1 α 2 T 1 ε 2 e 1 0 C C e 2αΛT C 2 Λ A @ 0 ε 2 1 T @
particle Solution S a1 X2T ðS a1 ε 1 e X2T ε e X2T ε e 0 X2T ε 1 ε X2T ε 1 αΛ 0 α 2 1 e αΛT αΛÞ 2 0 B ε B 1 B 1 @ αε ε 1 Λ e 2αΛT
suspended detachment S a0 S a1 2 S a0 αΛε 1 α 2 1 S a1 2 S a0 αΛε 1 α 2 1 2 εe 2 εe 0 B B ð B B B B B B B B B B B B B @
S a , particle 1 α e ΛX αΛ αΛðS a1 2 S a0 Þ αΛε 1 α 2 1 2 S a0 S a1 αΛε 1 α 2 1
concentration in delay αΛðS a1 2 S a0 Þ αΛε 1 α 2 1
particle nonequilibrium 1 1 βφΔσ cr αΛ
attached for
for J, , T . T , αT , T , X . T , αT , T , X . T , 1
solutions impedance Zone X X X αT X X αT X T
Analytical and S s , X; TÞ CX; TÞ X; TÞ ðÞ JT
3.10 concentration Term S a ð ð S s ð
Table Line 1 2 3 4 5 6 7 8 9
