Heating Water by Flow

Most recent answer: 10/22/2007

Q:
Is there a way to heat water by pushing it through a tube which has projections to increase the resistance to flow? If enough resistance tubing is coiled into a tank ( heat exchanger) and the pressure were sufficient could water be heated? What resistance and pressure would be needed? Interesting concept. This probably has already been done as most "new" ideas nowadays.
- kenneth (age 63)
Univ. of Rochester, NY
A:
Certainly when water flows through a tube the friction heats it up. There’s a force on the water equal to the area of the tube times the pressure difference between the inlet and the outlet. If you multiply that force times the average velocity of the water in the tube, you get the rate at which work is being done on the water. That’s the same as the pressure drop on the tube times the volume flow rate. Since the average speed of the water in the tube isn’t changing, that power is going into other forms of energy- the thermal energy of the water, for the most part.

I did a very crude calculation, easily off by up to a factor of ten, indicating that for a pressure drop of 1 atmosphere on water in a 1-meter long tube about 1 cm in radius the heating power would be about 0.1 Watt. I left off the fins for simplicity. So this isn’t an easy way to heat the water up by much. On the other hand, if you take a powerful blender and let it stir a little water around quickly, the same sort of frictional effects can heat the water up appreciably.

Mike W.

The conversion factor between heat energy and mechanical energy is 4.2 Joules per calorie (where it takes one calorie to heat one gram of water by one degree Centigrade).

One thing to be careful about here, especially given that the friction heating is so small, is to watch out for heat transfer in and out of the tube if the environment has a different temperature. This can easily account for more of a temperature change in the water than the friction, but it can be reduced by insulating the tube.

Tom J.

(published on 10/22/2007)