Page 34 - Fundamentals of Reservoir Engineering
P. 34
CONTENTS XXXIV
F = N(E o+mE g+E f,w) + W eB w (3.12) 76
F = NE o (3.13) 77
F W e (3.14) 77
E = n + E
o o
(B − B ) (c S + c )
NB = NB oi o oi + w wc f ∆ p (3.15) 78
o
p
−
B oi 1 S wc
(c S + c )
NB = NB oi c o w wc f ∆ p (3.16) 79
p
o
1S wc
−
cS + c S + c
NB = NB oi o o w wc f ∆ p (3.17) 79
o
p
−
1S wc
NB = NB c ∆ p (3.18) 79
p
e
o
oi
1
c e = 1S wc (c S + c S wc + c ) (3.19) 79
o
o
f
w
−
N p (B o + (R p − R s)B g) = N ((B o − B oi) + (R si − R s)B g) (3.20) 81
(3.21) 82
S g = [ N (R si − R s) − N p (R p − R s) ] B g (1 − S wc) / NB oi
N
p B
−
S g = 1− 1− o (1 S ) (3.22) 83
wc
NB oi
(
NB + (R − R )B g )
p
s
o
p
(B − B ) (R − R )B B (3.23) 86
+
= NB o oi si s g + m g − 1
oi
B oi B gi
F = N (E o + mE g) (3.24) 86
W e = (c w+c f) W i ∆p (3.25) 92
(3.26) 92
F = NE o + W e
2
2
W = (c + c ) (r − r )fhφ ∆ p (3.27) 93
π
e
f
e
o
w
F W e (3.28) 93
E o = N + E o
F = N+ W e (3.29) 94
(E + mE ) (E + mE )
g
o
g
o
h − h ∆ h
uK 1 2 = K (4.1) 101
=
I I
