NGWA – STUDY QUESTIONS FOR GENERAL
DRILLING EXAM (ANSWERED CORRECTLY TO
SCORE A+) || 100% GUARANTEED PASS!!
<RECENT VERSION>
1.
Question:
What are the primary causes of borehole deviation during drilling, and how can these
deviations be prevented?
ANS >>>
Borehole deviation is primarily caused by variations in formation hardness, drilling
equipment misalignment, bit design, and improper drilling techniques. To prevent deviation,
drillers must maintain correct bit pressure, use stabilizers, select the proper bit type for the
formation, ensure drill string alignment, and monitor borehole trajectory using deviation
tools. Regularly checking verticality ensures the borehole remains on course.
2.
Question:
Describe the process and purpose of mud logging in rotary drilling operations.
,ANS >>>
Mud logging involves monitoring and recording drilling mud returns to assess formation
properties during drilling. It provides real-time information about lithology, hydrocarbon
presence, and formation pressure. The process includes collecting cuttings, analyzing gas
content, and measuring drilling parameters like rate of penetration and mud weight. Mud
logging helps in decision-making regarding casing points, identifying zones of interest, and
enhancing well safety.
3.
Question:
Explain the differences between direct rotary, reverse rotary, and air rotary drilling methods
and when each is most appropriately used.
ANS >>>
● Direct Rotary: Fluid (usually water-based) is pumped down the drill pipe and returns
cuttings to the surface via the annulus; ideal for unconsolidated or soft formations.
● Reverse Rotary: Fluid is circulated down the annulus and up through the drill pipe;
best for large-diameter boreholes in sandy or gravelly formations.
● Air Rotary: Compressed air instead of fluid removes cuttings; suited for hard rock
formations where fluid loss would be problematic.
,Each method is selected based on formation type, desired borehole size, and drilling
efficiency.
4.
Question:
What are the most common causes of stuck drill pipes, and what immediate actions should a
driller take when stuck pipe is encountered?
ANS >>>
Common causes of stuck drill pipes include differential sticking (pressure differential
between mud and formation), key seating (drill pipe cutting a groove in the borehole wall),
collapsed boreholes, and mechanical sticking from cuttings buildup. Immediate actions
include attempting to work the pipe free gently, reducing mud weight, circulating drilling
fluid to clean the hole, using jarring tools, and, if necessary, backing off and fishing
operations to retrieve or bypass stuck pipe.
5.
Question:
What is the importance of proper well development after drilling, and which methods are
most effective?
ANS >>>
Proper well development removes fine particles and improves hydraulic connectivity
between the aquifer and the well screen, ensuring maximum yield and water quality. Effective
, methods include surging (alternating pumping and backwashing), air lifting, mechanical
agitation with a surge block, and high-velocity jetting. Well development reduces turbidity,
stabilizes the gravel pack, and prolongs the well’s operational life.
6.
Question:
How does the choice of drilling fluid properties (such as viscosity and density) impact the
drilling process?
ANS >>>
Drilling fluid properties like viscosity and density critically impact cuttings transport,
borehole stability, cooling and lubricating the bit, and controlling formation pressures. Higher
viscosity helps suspend and remove larger cuttings, while proper fluid density prevents
borehole collapse and blowouts by balancing formation pressures. Improper fluid
characteristics can cause formation damage, lost circulation, and poor drilling efficiency.
7.
Question:
Outline the process for installing and grouting casing in a drilled well to ensure sanitary
protection.
ANS >>>
The casing is lowered into the borehole to the desired depth, ensuring it remains plumb and
centered using centralizers. Grouting involves filling the annular space between the casing
DRILLING EXAM (ANSWERED CORRECTLY TO
SCORE A+) || 100% GUARANTEED PASS!!
<RECENT VERSION>
1.
Question:
What are the primary causes of borehole deviation during drilling, and how can these
deviations be prevented?
ANS >>>
Borehole deviation is primarily caused by variations in formation hardness, drilling
equipment misalignment, bit design, and improper drilling techniques. To prevent deviation,
drillers must maintain correct bit pressure, use stabilizers, select the proper bit type for the
formation, ensure drill string alignment, and monitor borehole trajectory using deviation
tools. Regularly checking verticality ensures the borehole remains on course.
2.
Question:
Describe the process and purpose of mud logging in rotary drilling operations.
,ANS >>>
Mud logging involves monitoring and recording drilling mud returns to assess formation
properties during drilling. It provides real-time information about lithology, hydrocarbon
presence, and formation pressure. The process includes collecting cuttings, analyzing gas
content, and measuring drilling parameters like rate of penetration and mud weight. Mud
logging helps in decision-making regarding casing points, identifying zones of interest, and
enhancing well safety.
3.
Question:
Explain the differences between direct rotary, reverse rotary, and air rotary drilling methods
and when each is most appropriately used.
ANS >>>
● Direct Rotary: Fluid (usually water-based) is pumped down the drill pipe and returns
cuttings to the surface via the annulus; ideal for unconsolidated or soft formations.
● Reverse Rotary: Fluid is circulated down the annulus and up through the drill pipe;
best for large-diameter boreholes in sandy or gravelly formations.
● Air Rotary: Compressed air instead of fluid removes cuttings; suited for hard rock
formations where fluid loss would be problematic.
,Each method is selected based on formation type, desired borehole size, and drilling
efficiency.
4.
Question:
What are the most common causes of stuck drill pipes, and what immediate actions should a
driller take when stuck pipe is encountered?
ANS >>>
Common causes of stuck drill pipes include differential sticking (pressure differential
between mud and formation), key seating (drill pipe cutting a groove in the borehole wall),
collapsed boreholes, and mechanical sticking from cuttings buildup. Immediate actions
include attempting to work the pipe free gently, reducing mud weight, circulating drilling
fluid to clean the hole, using jarring tools, and, if necessary, backing off and fishing
operations to retrieve or bypass stuck pipe.
5.
Question:
What is the importance of proper well development after drilling, and which methods are
most effective?
ANS >>>
Proper well development removes fine particles and improves hydraulic connectivity
between the aquifer and the well screen, ensuring maximum yield and water quality. Effective
, methods include surging (alternating pumping and backwashing), air lifting, mechanical
agitation with a surge block, and high-velocity jetting. Well development reduces turbidity,
stabilizes the gravel pack, and prolongs the well’s operational life.
6.
Question:
How does the choice of drilling fluid properties (such as viscosity and density) impact the
drilling process?
ANS >>>
Drilling fluid properties like viscosity and density critically impact cuttings transport,
borehole stability, cooling and lubricating the bit, and controlling formation pressures. Higher
viscosity helps suspend and remove larger cuttings, while proper fluid density prevents
borehole collapse and blowouts by balancing formation pressures. Improper fluid
characteristics can cause formation damage, lost circulation, and poor drilling efficiency.
7.
Question:
Outline the process for installing and grouting casing in a drilled well to ensure sanitary
protection.
ANS >>>
The casing is lowered into the borehole to the desired depth, ensuring it remains plumb and
centered using centralizers. Grouting involves filling the annular space between the casing
