DEPARTMENT mud balance. In our test a

 

 

 

 

DEPARTMENT OF PETROLEUM ENGINEERING

COVENEANT UNIVERSITY,

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CANNANLAND, OTA, OGUN STATE.

 

PET327

PETROLEUM ENGINEERING LABORATORY

A REPORT ON EXPERIMENT 1- DENSITY OF DRILLING FLIUD

BY

EMERUWA DENNIS

15CN03244

GROUP C

 

20TH JANUARY, 2018

 

 

 

ABSTRACT

The
thickness of any liquid is straightforwardly identified with the sum and normal
particular gravity of the solids in the framework. The beginning stage of
weight control is the control of mud thickness. The weight of a column of mud
in the hole necessary to balance formation pressure is the reference point from
which all pressure control calculations are based. The density of the mud is
very essential in order to maintain the pressure exerted by the static and
dynamic of the mud column. The main apparatus used to determine the density of
a mud is known as the mud balance. This procedure clarifies the different
procedures engaged with utilizing mud balance to quantify the heaviness of the
mud

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

TABLE OF CONTENTS

 

1.    ABSTRACT—————————————–2

2.    INTRODUCTION———————————-4

3.    EQUIPMENT (with diagrams)—————–5

4.    PROCEDURES————————————-6

5.    CALIBRATION————————————-6

6.    MUD MIXING————————————-6

7.    DENSITY MEASUREMENT———————7

8.    RESULTS——————————————-8

9.     CONCLUSION————————————9

10.REFERENCES————————————-10

 

 

 

 

 

 

 

 

 

 

 

 

 

 

INTRODUCTION

With the end
goal for us to decide the thickness or weight of a given mud, we can utilize a
mud balance. In our test a 4-scale metal mud balance was utilized. The mud
balance is being made in a way that the fixed volume cup at one end of the beam
is balanced by a fixed counter weight at the opposite end, with a sliding
weight rider free to move along the graduated scale and aligned to peruse straightforwardly
the thickness of the mud in four scale ranges, thickness additionally
influences boring mud on account of the mud a balance utilized which are

6.5- 23.0lbs/gal
(ppg)

0.79 – 2.73
specific gravity (s.g)

49 – 179lbs/ft3

340 – 1190
psi/1000ft

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

EQUIPMENT

Ø 4- scale mud balance

Fig.1: 4-scale mud balance with
carrying case

 

Ø Hamilton beach mixer

Ø Measuring cylinder

Ø Weighing balance

Ø Spatula

Ø Syringe

 

 

 

 

 

 

 

 

 

PROCEDURES

CALIBRATION

1.  
I
filled the cup with fresh water. Replace the lid and wipe dry

2.  
I
set the rider on 8.3ppg or 1.0s.g. I added or removed lead shot from the shot
well until instrument is in balance.

3.  
If
the reading is less than 8.3ppg, add the difference between 8.3ppg and the
reading to mud weight when a test is made. If the reading is higher than
8.3ppg, subtract ii the same manner..

MUD MIXING

70g of bentonite in 700mlof water

Sample 1: 35g mixed in 350ml of water

Sample 2: sample 1 + 10g of barite

1.   
I
measured appropriate amount of bentonite and barite.

2.   
In
the mixing cup, I poured the measured amount of water.

3.   
I
turned on the mixer and carefully added the bentonite.

4.   
I
mixed until it was completely homogenous.

5.   
For
Sample 2, I added barite and repeated step 4.

 

 

 

 

 

 

 

 

 

MEASUREMENT

1.   
I
Placed the mud balance base (in its carrying case) on a  level surface

2.   
I
ensured the cup is clean and dry, I removed the lid and fill with the mud being
tested.

3.   
I
replaced the lid on the cup. I made sure that some mud is expelled through the
hole in the cup as this showed that the cup is full and will remove any trapped
air or gas.

4.   
I
Placed my finger on the hole in the lid while cleaning and wiping off the mud
from the outside of the cup

5.   
I
placed the balance on the knife-edge and I moved the rider along the arm until
the cup and arm are balanced.

6.   
I
took the readings if the mud weight

Repeat this for sample 2.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

RESULTS

MUD DENSITY

Ppg

lb/ft3

s.g

psi/1000ft

Sample 1(WATER AND BENTONITE)

8.7

65

1.04

450

Sample
2(with barite, WATER AND BENTONITE)

8.9

66.55

1.11

460.05

 

 

PRECAUTION

     I.     I ensured that I poured the water
first into the mixer to reduce the amount of lumps in the mud.

   II.     I ensured that I removed the trapped
air in the cup before taking my measurement of density.

 III.     I ensured accurate measurement of the
mud density.

 IV.     I avoided error due to parallax when
taking my reading at the lower meniscus.

   V.     I ensured that the cup was completely
wiped before making sure it was balanced.

 VI.     I also ensured that I put on the
appropriate safety equipment for the experiment.

Also, from
the results I got, it shows that solution 2 (present of barite) is denser than
solution 1 and this is because of the presence of barite to the solution as we
know barite is a weighting material.

 

 

 

 

 

 

CONCLUSION

At the end
of this experiment, I have came to the conclusion that this method is a very
precise in the measurement of mud density and also using the 4-scale mud
balance is a very efficient method in carrying out the mud density test. To
increase mud density, barite can be used.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

REFERENCES

Max R.
Annis, Martin V. Smith (1974); EXXON COMPANY, USA (August 1996). Drilling
Fluids Technology

King Fahd
University of Petroleum & Minerals (April, 2003). PETE 203: Drilling
Engineering Laboratory Manual

FANN (2012).
Model 821 Rig Laboratory Instruction Manual

Baker Hughes
(2006). Drilling Fluids Reference Manual

Engr.
Seteyeobot (2018). Drilling Mud Manual.

Adam
T.beurgoynejr, k.k, applied drilling engineering

Equipment,
O.T (2007) instruction manual


.Hamilton beach mixers