Max Flow Rate of HTA100H-304 Air Pump for Pipe Systems: 0.19 kg/s

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The HTA100H-304 air pump can achieve a maximum flow rate of approximately 0.19 kg/s at specific pressures, as indicated by the air delivery data provided. This flow rate is contingent upon the back pressure in the piping system; if the back pressure exceeds the pump's output capability, the flow rate will decrease. Conversely, if the system's back pressure is lower than the rated pump pressure, the flow rate can potentially increase. It is advisable to consult the manufacturer for a pump curve to better understand the flow rate dynamics in relation to system pressure. Proper sizing of pressure and back-pressure regulators is essential to ensure optimal performance.
keng
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Hi all, i have to use an air pump to create a flow rate in a pipe system.
My pump model is hta100h-304 which i have attach the spec below.
From actual air delivery data(871.2lpm@10 kg/cm2G,762.3lpm@12kg/cm2G), i try to convert to mass flow rate unit and it is around 0.19 kg/s.
Is this mean this flow rate is the maximum rate that this pump can create?

feel free to correct me and sorry for my bad english
 

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That's the air it can move at that pressure, but that doesn't tell you anything about what your piping system can handle.
 
Hi Russ,thank for your reply
russ_watters said:
That's the air it can move at that pressure, but that doesn't tell you anything about what your piping system can handle.
Did you mean this pump can move this amount of air with no pressure drop in the tank at that condition right?

The pressure in pipe system is around 2 barG.
So I have to select pressure and back-pressure regulator size and i just want to be sure that it can handle the maximum flowrate from the pump.
 
That's the max flow rate the pump can output at those specific pressures. So if your system has a higher back pressure than the pump can output, the flow rate will decrease. If the system back pressure is less than the rated pump pressure, the flow rate can increase.

I would ask the manufacturer for a pump curve so you can see the relationship before you size the relief valve.

CS
 
stewartcs said:
That's the max flow rate the pump can output at those specific pressures. So if your system has a higher back pressure than the pump can output, the flow rate will decrease. If the system back pressure is less than the rated pump pressure, the flow rate can increase.

I would ask the manufacturer for a pump curve so you can see the relationship before you size the relief valve.

CS
thank a lot for your reply Stewartcs
if my system back pressure is about 2barG then, maximum flow rate will increased to be around 3100 lpm(9000 slpm) right?
(i've convert it from p1v1 = p2v2)
 
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