A decrease in superheat causes the TXV to

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Prepare for the ESCO Refrigeration Test. Utilize flashcards and a wide range of multiple-choice questions, all complete with hints and explanations. Set yourself up for exam success!

Multiple Choice

A decrease in superheat causes the TXV to

The main idea is that the thermostatic expansion valve (TXV) regulates refrigerant flow to keep the evaporator superheat at the set point. When the superheat at the evaporator exit drops below that set point, the sensing bulb cools and signals the valve to reduce flow. By closing, the TXV decreases the amount of liquid refrigerant entering the evaporator, which raises the vapor’s departure temperature and brings superheat back up toward the desired value. If the valve were to open wider or move toward maximum flow, more liquid would flood the evaporator and further reduce superheat, which isn’t what you want. Holding its position wouldn’t correct the undershoot either. So the correct action is to close.

A decrease in superheat causes the TXV to

Prepare for the ESCO Refrigeration Test. Utilize flashcards and a wide range of multiple-choice questions, all complete with hints and explanations. Set yourself up for exam success!

A decrease in superheat causes the TXV to

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