What does static conditions in bottom hole pressure equal?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Prepare for the International Well Control Forum Test with our quiz. Utilize flashcards and engaging multiple-choice questions, each offering hints and explanations. Equip yourself for success!

Multiple Choice

What does static conditions in bottom hole pressure equal?

Explanation:
In the context of well control, static conditions at the bottom hole pressure represent a state where the fluid within the wellbore is not changing in motion – this indicates that there are no active inflows or outflows. Under these conditions, the bottom hole pressure is primarily derived from the hydrostatic pressure of the fluid column in the wellbore. Hydrostatic pressure is determined by the weight of the fluid column above the measurement point and is a fundamental component in calculating the bottom hole pressure. The hydrostatic pressure is influenced by the density of the fluid and the height of the column, which leads to its ability to balance other forces acting on the well. The other options add variations to the hydrostatic pressure that relate to dynamic conditions or additional pressure factors that are not applicable when discussing static conditions. For instance, adding parameters like SICP (Shut In Casing Pressure) or SIDPP (Shut In Drill Pipe Pressure) introduces pressure components that are relevant only in dynamic or transient states of pressure, thus making them inappropriate for static conditions. Therefore, the correct understanding is that static bottom hole pressure equals only the hydrostatic pressure, as it solely reflects the weight of the fluid column without any additional active pressures.

In the context of well control, static conditions at the bottom hole pressure represent a state where the fluid within the wellbore is not changing in motion – this indicates that there are no active inflows or outflows. Under these conditions, the bottom hole pressure is primarily derived from the hydrostatic pressure of the fluid column in the wellbore.

Hydrostatic pressure is determined by the weight of the fluid column above the measurement point and is a fundamental component in calculating the bottom hole pressure. The hydrostatic pressure is influenced by the density of the fluid and the height of the column, which leads to its ability to balance other forces acting on the well.

The other options add variations to the hydrostatic pressure that relate to dynamic conditions or additional pressure factors that are not applicable when discussing static conditions. For instance, adding parameters like SICP (Shut In Casing Pressure) or SIDPP (Shut In Drill Pipe Pressure) introduces pressure components that are relevant only in dynamic or transient states of pressure, thus making them inappropriate for static conditions. Therefore, the correct understanding is that static bottom hole pressure equals only the hydrostatic pressure, as it solely reflects the weight of the fluid column without any additional active pressures.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy