Which of the following is a recommended method to prevent water hammer when starting large-capacity pumps?

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Prepare for the EPRI Heat Transfer and Fluid Flow Test with flashcards and multiple-choice questions. Every question includes hints and explanations to help you ace your exam!

Multiple Choice

Which of the following is a recommended method to prevent water hammer when starting large-capacity pumps?

Explanation:
Water hammer is a pressure surge that occurs when fluid momentum changes rapidly, such as when a large pump starts and suddenly accelerates water through a long piping system. The bigger the flow and the faster the acceleration, the larger the pressure spike that can develop and potentially damage pipes and valves. Reducing system flow before starting large-capacity pumps lowers the velocity and inertia of the fluid that the pump must accelerate. With less flow to overcome at start-up, the acceleration head—and thus the transient pressure rise—is smaller, making the incident less severe and less likely to cause damage. This proactive step directly mitigates the primary cause of water hammer during pump re-start. Discharging fully open would allow a large, rapid fill into the system, increasing the surge rather than reducing it. Ignoring venting can leave air pockets that cause separate hammer effects, and starting with full throttling, while helpful in some cases, is not as reliable or direct a control as pre-start flow reduction.

Water hammer is a pressure surge that occurs when fluid momentum changes rapidly, such as when a large pump starts and suddenly accelerates water through a long piping system. The bigger the flow and the faster the acceleration, the larger the pressure spike that can develop and potentially damage pipes and valves.

Reducing system flow before starting large-capacity pumps lowers the velocity and inertia of the fluid that the pump must accelerate. With less flow to overcome at start-up, the acceleration head—and thus the transient pressure rise—is smaller, making the incident less severe and less likely to cause damage. This proactive step directly mitigates the primary cause of water hammer during pump re-start.

Discharging fully open would allow a large, rapid fill into the system, increasing the surge rather than reducing it. Ignoring venting can leave air pockets that cause separate hammer effects, and starting with full throttling, while helpful in some cases, is not as reliable or direct a control as pre-start flow reduction.

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