Longer conduit Impedes flow? What?

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SUMMARY

The discussion centers on the impact of conduit length on flow resistance, specifically in the context of fluid dynamics and electrical flow. The equations dT=IR, dP=QR, and dV=iR are referenced to illustrate the principles of thermal, fluid, and electrical flow. A longer conduit indeed increases resistance due to friction, which affects flow rate, contrary to the initial assumption that length does not impact flow. The Darcy-Weisbach equation is highlighted as a critical tool for calculating pressure losses in piping systems.

PREREQUISITES
  • Understanding of fluid dynamics principles
  • Familiarity with electrical resistance concepts
  • Knowledge of the Darcy-Weisbach equation
  • Basic grasp of pressure and flow rate relationships
NEXT STEPS
  • Study the Darcy-Weisbach equation for calculating pressure losses in piping systems
  • Learn about flow resistance and friction in fluid dynamics
  • Explore the relationship between conduit diameter and flow rate
  • Investigate the effects of conduit material on flow resistance
USEFUL FOR

Students preparing for the MCAT, engineers working with fluid systems, and anyone interested in the principles of flow resistance in conduits.

bobrsanchez
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Hi all,

I am studying for the MCAT and a section in the book lists the equations

dT= IR
dP=QR
dV=iR

For thermal, fluid, and electricity flow respectively. It then goes to state that a thicker conduit allows for greater flow. That part makes sense to me because a larger diameter pipe has relatively more volume compared to its surface area, which gives it relatively less resistance compared to a pipe that has a smaller diameter.

However, it then goes to say that a "LONGER conduit impedes flow". This part I don't get because I can't see how a longer pipe would in any way increase resistance or slow down the flow rate. For example, wouldn't a 1m pipe of 5m diameter have the same flow rate as a 100m pipe with a diameter of 5 if the pressure difference between two openings of both pipes were equal?

Is my book BSing me right now??
 
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bobrsanchez said:
Is my book BSing me right now??

I don't think so as there is flow resistance/friction in any real piping system that increases with length so you can't expect the pressure to be the same at both ends for all flow rates just like you can't expect the voltage to be the same on both ends of a resistive electrical transmission line under load as the length increases.
http://en.wikipedia.org/wiki/Darcy–Weisbach_equation

We normally use piping tables to calculate pressure losses with cooling systems on the job.
 
Last edited:
I see.

Edit: nvm you are correct. I had forgotten that length of resistors are a factor in determining resistance. Oops
 

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