What does adding a 500 TR chiller increase?

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Prepare for the ASME Code Exam for Pressure Vessels and Piping Engineering. Use flashcards and multiple choice questions with hints and explanations. Ensure success on your test!

Multiple Choice

What does adding a 500 TR chiller increase?

Explanation:
Adding a 500 ton refrigeration (TR) chiller raises the plant’s cooling capacity, which means more heat must be removed from the process — that is the cooling load increases by the same amount. All that heat the chiller extracts has to be rejected somewhere, and in a condenser, so the condenser duty also increases correspondingly. In short, you’re boosting both the cooling load and the heat that must be rejected by the condenser. Boiler fuel consumption isn’t directly driven by the addition of a chiller, so it doesn’t necessarily rise. Steam pressure is set by the steam system design and boiler operation, not by adding a chiller. Electrical power will go up due to the chiller’s power draw, but not by a fixed amount—the exact increase depends on the chiller’s efficiency (COP) and operating conditions.

Adding a 500 ton refrigeration (TR) chiller raises the plant’s cooling capacity, which means more heat must be removed from the process — that is the cooling load increases by the same amount. All that heat the chiller extracts has to be rejected somewhere, and in a condenser, so the condenser duty also increases correspondingly. In short, you’re boosting both the cooling load and the heat that must be rejected by the condenser.

Boiler fuel consumption isn’t directly driven by the addition of a chiller, so it doesn’t necessarily rise. Steam pressure is set by the steam system design and boiler operation, not by adding a chiller. Electrical power will go up due to the chiller’s power draw, but not by a fixed amount—the exact increase depends on the chiller’s efficiency (COP) and operating conditions.

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