Godly3vil Posted June 18, 2013 Report Share Posted June 18, 2013 I am wanting to use an inline co2 reactor and was wondering something, the reactor has 20mm fittings and my filter is using 25mm hose, if I use some reducers on either side of the reactor am I just going to cause damage to the pump motor or will this even make any noticeable difference on flow? Quote Link to comment Share on other sites More sharing options...
Li@m Posted June 18, 2013 Report Share Posted June 18, 2013 Maybe turn down the flow slightly. I'm sure someone will be more helpful. Quote Link to comment Share on other sites More sharing options...
Ira Posted June 18, 2013 Report Share Posted June 18, 2013 I am wanting to use an inline co2 reactor and was wondering something, the reactor has 20mm fittings and my filter is using 25mm hose, if I use some reducers on either side of the reactor am I just going to cause damage to the pump motor or will this even make any noticeable difference on flow? Will probably make a measurable difference, I don't know about noticeable thought. And no it won't damage the motor. Quote Link to comment Share on other sites More sharing options...
livingart Posted June 18, 2013 Report Share Posted June 18, 2013 Will probably make a measurable difference, I don't know about noticeable thought. And no it won't damage the motor. noticeable thought is an interesting concept or are we talking facial expressions? Quote Link to comment Share on other sites More sharing options...
alanmin4304 Posted June 18, 2013 Report Share Posted June 18, 2013 gotcha? Quote Link to comment Share on other sites More sharing options...
livingart Posted June 18, 2013 Report Share Posted June 18, 2013 :dnc1: Quote Link to comment Share on other sites More sharing options...
smidey Posted June 19, 2013 Report Share Posted June 19, 2013 there must be a calculator somewhere on the net that will tell you. I know when we reduce a fire hose diameter from 70mm to 45mm we get a significant friction loss. The friction loss for a 70mm dia hose is 15kpa per length and the friction loss for a 45mm dia length of hose is 150kpa per length. So if we want 700kpa at the branch (nozzle) then we need to add 165kpa at the appliance for one length of each sized hose (765kpa at appliance=700kpa at branch). I don't know how many litres per minute that equals which is probably more what you want to know though. Will be interesting to see what that all equals if someone works it out. Quote Link to comment Share on other sites More sharing options...
livingart Posted June 19, 2013 Report Share Posted June 19, 2013 there is one on monster fish keepers somewhere Quote Link to comment Share on other sites More sharing options...
alanmin4304 Posted June 19, 2013 Report Share Posted June 19, 2013 Plumber's rule of thumb---If you double the diameter you get four times the flow. The friction loss increases remarkable as the diameter decreases as there is a lot more water in contact with the walls of the pipe (proportionately). Quote Link to comment Share on other sites More sharing options...
smidey Posted June 19, 2013 Report Share Posted June 19, 2013 Plumber's rule of thumb---If you double the diameter you get four times the flow. The friction loss increases remarkable as the diameter decreases as there is a lot more water in contact with the walls of the pipe (proportionately). Is the point where it narrows a major factor? Quote Link to comment Share on other sites More sharing options...
alanmin4304 Posted June 19, 2013 Report Share Posted June 19, 2013 I meant pipes of a given size rather than reduced diameter. Quote Link to comment Share on other sites More sharing options...
livingart Posted June 19, 2013 Report Share Posted June 19, 2013 Is the point where it narrows a major factor? yes extra resistance in any area that changes flow, bends, joins, reduction, smoothness of internal surface of tubing etc Quote Link to comment Share on other sites More sharing options...
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