Question 56 QMED03 - Oiler

The Correct Answer is B. ### Why Option B ("manually controlled feedwater regulator") is correct: A multi-element feedwater regulator (whether pneumatic or electronic) is designed to automatically adjust the flow of water into the boiler based on steam flow, drum level, and sometimes feedwater flow (three elements). In the event of a failure of the automatic control medium (such as the pneumatic system losing air pressure or the electronic system failing), the automatic regulation function ceases. The design standard for critical boiler controls mandates a fail-safe strategy. While some regulators might be designed to fail in a "locked" position or "fail-open," the primary operational necessity when automatic control is lost is to immediately transfer control to the boiler operator. The operator must take over the regulation of the feedwater valve (usually via a handwheel or bypass valve) to maintain the crucial drum level, preventing boiler dry-out or flooding. Therefore, the system is designed to allow it to be operated **manually** until the automatic system is repaired. ### Why the other options are incorrect: * **A) thermo-hydraulic feedwater regulator:** This term refers to an older type of single-element regulator that uses the physical expansion and contraction of tubes based on water level and steam temperature to mechanically move a valve. It is a completely different, standalone system and not the fallback operational mode for a failed multi-element pneumatic system. * **C) constant-pressure regulator:** The primary function of a feedwater regulator is to maintain drum water level, not boiler pressure. Boiler pressure is maintained by fuel/air combustion controls and turbine governor controls. Attempting to regulate feedwater flow to maintain a constant pressure is incorrect and counterproductive to level control. * **D) constant-volume feedwater regulator:** While regulating feedwater flow is essentially regulating volume, the goal is not to maintain a *constant volume* (a fixed flow rate) regardless of load. Boilers require varying feedwater flow rates proportional to the steam load. If the system failed to a fixed volume, it would quickly lead to high or low water level trip conditions if the load changed. The goal is maintain the dynamic level, which requires manual intervention upon failure, not a fixed flow rate.