Muskat Equation (1935)
p ws = p exp[ t ] . (1)
p p ws = exp[ t ] . (2)
Taking the derivative of (2) with respect to time (t);
dp ws
= exp[ t ] . (3)
dt
Rearranging:
1 dp ws
= exp[ t ] . (4)
dt
Substituting Eq. (4) into Eq. (2) yields:
p ws = p
1 dp ws
.

re/rwa=50
(q)MP=620 STBD at (qDd)MP=1
(t)MP=280 days at (tDd)MP=1
re/rwa=50
(q)MP=620 STBD at (qDd)MP=1
(t)MP=280 days at (tDd)MP=1
(t)MP=280 days at (tDd)MP=1
(q)MP=620 STBD at (qDd)MP=1
Dp=Pi-Pwf (5790-850)=4940psi
(t ) MP
(q ) MP
1
N=
pct (t Dd ) MP (q

Petroleum Engineering 324 Well Performance
"Course Work"
"Course Work" is due on 10 May 2006 (late submissions will NOT be accepted)
Assignment Coversheet
(This sheet must be included with your work submission)
Required Academic Integrity Statement: (Texa

(red text indicates a field that the student must complete)
Your Name
Your Address
Your City, Your State, Your Zip
Phone: +1.xxx.xxx.xxxx
e-mail: xxxxxxxxxxxx@xxxx.xxx
10 May 2006
Dr. Thomas A. Blasingame
Petroleum Engineering
Texas A&M University
College

Petroleum Engineering 324 Well Performance
"Course Work"
"Course Work" is due on 10 May 2006 (late submissions will NOT be accepted)
Assignment Coversheet
(This sheet must be included with your work submission)
Required Academic Integrity Statement: (Texa

September 21, 1995
MAE 533 HW #2
MAE 533 Fluid Dynamics, Problem set #2
1
(Professor Harvey Lam)
1.
Given a box of ordinary size (characteristic length about one meter) with
a vaccuum inside. There is a small hole (diameter about 1mm) on the side of
the b

MAE 533, Supplementary Notes:
September 15, 1995
(URL: http:/www.princeton.edu/~lam/course/mae533.html)
In this fluid mechanics course, we will have occasions to use vector
calculus a lot. I have collected in the following some of the main central
concept

September 29, 1995
MAE 533 HW #3
MAE 533 Fluid Dynamics, Problem set #3
1
(Professor Harvey Lam)
1.
The substantial derivative of a scalar such as is denoted by D/Dt. In
Cartesian coordinates, we have:
D
= t + u x + v y + w z
Dt
(u,v,w are the componen

MAE 533
Supplementary Notes
Glauert Identity
Here is an integral equation for (x)
1
1
( )d
=B
x
1
(I)
where B is a constant. We need to say that the principle value of the improper
integral is to be used on the right hand side (my word processor doesn't l

October 6, 1995
MAE 533 HW #2
MAE 533 Fluid Dynamics, Problem set #4
10/6/1995
1
(Professor Harvey Lam)
Right after you getting your graduate degree, you are appointed by a
leading university to be an assistant professor in fluid mechanics. Your
chairpers

October 13, 1995
MAE 533 HW #2
MAE 533 Fluid Dynamics, Problem set #5
10/13/1995
1
(Professor Harvey Lam)
Because you did such a good job at the design of the subsonic wind
tunnet, your chairperson is very impressed. He/she calls you to his/her office
aga

November 22, 1995
MAE 533 HW #2
1
Supplementary Notes
MAE 533 Fluid Dynamics
Look into the reference books to find out what Biot-Savart Law is. Just
know what it is. Not the derivation.
*
*
*
*
*
*
*
*
*
*
*
*
Let the 2-dimensional flow field be described

October 20, 1995
MAE 533 HW #2
MAE 533 Fluid Dynamics, Problem set #6
10/201995
1
(Professor Harvey Lam)
(1) Pratt and Whitney also donated a compressor to your department, also
claimed to be an isentropic compressor.
So you decided to build a jet engine

November 13, 1995
MAE 533 HW #2
MAE 533 Fluid Dynamics, Problem set #7
10/13/1995
1
(Professor Harvey Lam)
Read Chapters 6 and 8 of Li and Lam.
I won't spend much time on stream functions, except to say here that it
is a very useful thing to know but only

MAE 533
12/7/95
1
MAE 533
Assignment #10
December 7, 1995
1.
In linearized (3-D) compressible aerodynamics, the velocity field is
represented by:
V = ex U + U
where (x,y,z) is the perturbation velocity potential, and is a small
parameter representing the