PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in...
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Transcript of PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in...
![Page 1: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/1.jpg)
PETE 324
Lecture 21
Rosalind Archer
![Page 2: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/2.jpg)
21.2 Analysis of Drawdown Tests
• Infinite-acting radial flow in a homogenous reservoir is governed by:
• This is of the form:
s8686.022.3
rc
ktlog
kh
qB6.162pp
2wt
iwf
)tlog(mpp hr1wf
![Page 3: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/3.jpg)
21.3 Analysis of Drawdown Tests
• This implies the pressure data should form a straight line on a semilog plot.
s8686.022.3rc
klogmpp
kh
qB6.162m
:where
2wt
ihr1
![Page 4: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/4.jpg)
21.4 Analysis of Drawdown Tests
• Analysis procedure– Plot all data!– Fit a straight line to the data, remembering this
solution does not account for radial flow which may distort the early time data. If the pressure derivative is also plotted it should be at a constant level during infinite-acting radial flow (m=2.303p’)
– Use the slope of the semilog straight line (m) to determine permeability (k)
– Use the value of p(1hr) [read from the semilog straight line] to determine skin (s).
![Page 5: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/5.jpg)
21.5 Analysis of Drawdown Tests• If the data departs from the semilog straight line in late
time in indicates the presence of boundaries:
![Page 6: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/6.jpg)
21.6 Analysis of Drawdown Tests
• Time can be related to radial distance in a well test via the concept of the radius of investigation:
• This can be used to estimate the distance to the reservoir boundary based on the time at which the pressure data departs from the semilog straight line.
t
2inv c
kt10434.2r
![Page 7: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/7.jpg)
21.7 Analysis of Buildup Tests
• Pressure buildup tests involve recording pressure data while a well is shut in after a period of flow.
![Page 8: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/8.jpg)
21.8 Analysis of Buildup Tests
• The pressure response for a buildup can be constructed by using superposition and the drawdown solution.– An fake injection well (located at the same
location as the production well) is turned on at t = tp. It’s rate is -q.
s8686.022.3rc
klog
ttlog)tlog(
kh
qB6.162)0t(pp
2wt
ppwfws
t
![Page 9: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/9.jpg)
21.9 Analysis of Buildup Tests
• This implies a plot of pws versus (tp+t)/t should be a straight line. (Horner plot)
![Page 10: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/10.jpg)
21.10 Analysis of Buildup Tests
• Analysis procedure– Plot all data (p versus (tp+t)/t)– Fit straight line to middle time region (early
time is distorted by wellbore storage).– Find slope (m) and extrapolation of straight line
to pws(1hr)k
22.3rc
klog
1t
tlog
m
)0t(p)hr1(p151.1s
mh
qB6.162k
2wtp
pwfws
![Page 11: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/11.jpg)
21.11 Analysis of Buildup Tests
• Average reservoir pressure is estimated using p* (extrapolated from the straight line on the Horner plot) using the Matthew-Brons-Hazebrok (MBH) technique (not covered).
• Remember t =t-tp i.e. time since the well was shut-in.
![Page 12: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/12.jpg)
21.12 Analysis of Buildup Tests
• In practice the production time (tp) may be unknown. Rather than assuming a value for tp it is ignored. This is strictly valid if the reservoir has been produced to pseudosteady state conditions.
• Miller-Dyes-Hutchinson (MDH) analyzed this situation.
![Page 13: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/13.jpg)
21.13 Analysis of Buildup Tests
s8686.022.3rc
klog
tlogkh
qB6.162)0t(pp
2wt
wfws
![Page 14: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/14.jpg)
21.14 Analysis of Buildup Tests
22.3rc
klog
m
)0t(p)hr1(p151.1s
mh
qB6.162k
2wt
wfws
![Page 15: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/15.jpg)
21.15 Variable-Rate Tests
• The pressure response of a test with a sequence of variable flow rates can also be constructed using superposition.
s8686.022.3rc
klog
kh
Bq6.162
)ttlog()qq(kh
6.162pp
2wt
n
n
1j1j1jjwfi
![Page 16: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/16.jpg)
21.16 Variable-Rate Tests
• It is convenient to normalise both sides of this equation by the current flowrate:
s8686.022.3rc
klog
kh
B6.162
)ttlog(q
)qq(
kh6.162
q
pp
2wt
n
1j1j
n
1jj
n
wfi
![Page 17: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/17.jpg)
21.17 Variable-Rate Tests
• This equation is a straight line (Odeh-Jones plot):
s8686.022.3rc
klogmb
kh
B6.162m
q
)pp(y
)ttlog(q
)qq(x
:where
bmxy
2wt
n
wfi
j
n
1j n
1jj
![Page 18: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/18.jpg)
21.18 Wellbore Storage
• Definition of wellbore storage coefficient:– Fluid filled wellbore
– Rising or falling liquid level
wbwbs VcC
)g/g(
A
615.5
144C
c
wbs
![Page 19: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/19.jpg)
21.19 Wellbore Storage
• During wellbore storage dominated flow the following pressure-time relationships hold:
– Drawdown
– Buildup
tC24
qBpp
siwf
tC24
qB)0t(pp
swfws
![Page 20: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/20.jpg)
21.20 Wellbore Storage
• Dimensionless wellbore storage coefficient
2wt
D hrc2
C615.5C
![Page 21: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/21.jpg)
21.21 Type Curve: Pressure
![Page 22: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/22.jpg)
21.22 Type Curve: Press. Derivative
![Page 23: PETE 324 Lecture 21 Rosalind Archer. 21.1 Analysis of Drawdown Tests Infinite-acting radial flow in a homogenous reservoir is governed by: This is of.](https://reader030.fdocuments.net/reader030/viewer/2022033023/56649d0b5503460f949df626/html5/thumbnails/23.jpg)
21.23 Last Words
• Be consistent!– whatever is characterized as wellbore storage,
radial flow etc on one plot e.g. Cartesian must be consistent with the presentation of the data on all other plots e.g. semilog/Horner.