What happens when an operator throttles back on the discharge valve of a centrifugal condenser water pump running in parallel with another pump?

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 RMO Real Engineer Exam with comprehensive quizzes. Study with multiple-choice questions and detailed explanations. Ace your engineer certification!

Multiple Choice

What happens when an operator throttles back on the discharge valve of a centrifugal condenser water pump running in parallel with another pump?

Explanation:
When an operator throttles back on the discharge valve of a centrifugal condenser water pump running in parallel with another pump, the total flow rate to the condenser is reduced. This occurs because throttling the discharge valve increases the resistance to the flow of water being pumped. In a parallel configuration, the flow from both pumps is combined. When one pump's discharge valve is throttled, its ability to deliver water is compromised, resulting in a decreased flow from that specific pump. Although the other pump continues to operate at its design capacity, the overall flow rate to the condenser will diminish because the total flow is the sum of the individual flows going to the system. It's important to recognize that this action impacts the system dynamics. Throttling typically leads to an increase in pressure at the discharge of the throttled pump, creating a scenario where the performance of the entire system is influenced by the restriction placed on one of the pumps. However, despite shifts in pressure, there is a clear reduction in the total flow rate to the condenser due to the throttling effect on the discharge valve of the centrifugal pump.

When an operator throttles back on the discharge valve of a centrifugal condenser water pump running in parallel with another pump, the total flow rate to the condenser is reduced. This occurs because throttling the discharge valve increases the resistance to the flow of water being pumped.

In a parallel configuration, the flow from both pumps is combined. When one pump's discharge valve is throttled, its ability to deliver water is compromised, resulting in a decreased flow from that specific pump. Although the other pump continues to operate at its design capacity, the overall flow rate to the condenser will diminish because the total flow is the sum of the individual flows going to the system.

It's important to recognize that this action impacts the system dynamics. Throttling typically leads to an increase in pressure at the discharge of the throttled pump, creating a scenario where the performance of the entire system is influenced by the restriction placed on one of the pumps. However, despite shifts in pressure, there is a clear reduction in the total flow rate to the condenser due to the throttling effect on the discharge valve of the centrifugal pump.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy