Which modification most effectively minimizes pressure drop in a long compressed air piping system?

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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

Which modification most effectively minimizes pressure drop in a long compressed air piping system?

Explanation:
The main factor here is friction losses along a long pipe. Pressure drop in a pipe comes from the resistance the air encounters as it flows, which grows with velocity and with the length of the pipe. If you increase the pipe’s diameter, the cross-sectional area goes up, so for the same flow rate the air moves more slowly. Since friction losses depend strongly on velocity (and on the length-to-diameter relationship in the flow equations), reducing velocity and the L/D effect dramatically lowers the pressure drop along the run. In other words, a larger diameter pipe carries the same air with less resistance, so the pressure at the end stays higher. Raising the supply pressure doesn’t reduce the friction loss along the length; it merely starts you at a higher pressure, so you can still lose a substantial amount across the same piping. A longer run increases the pressure drop, while a narrower diameter increases it, making those options worse for minimizing drop.

The main factor here is friction losses along a long pipe. Pressure drop in a pipe comes from the resistance the air encounters as it flows, which grows with velocity and with the length of the pipe. If you increase the pipe’s diameter, the cross-sectional area goes up, so for the same flow rate the air moves more slowly. Since friction losses depend strongly on velocity (and on the length-to-diameter relationship in the flow equations), reducing velocity and the L/D effect dramatically lowers the pressure drop along the run. In other words, a larger diameter pipe carries the same air with less resistance, so the pressure at the end stays higher.

Raising the supply pressure doesn’t reduce the friction loss along the length; it merely starts you at a higher pressure, so you can still lose a substantial amount across the same piping. A longer run increases the pressure drop, while a narrower diameter increases it, making those options worse for minimizing drop.

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