Hydraulic Hose Sizing: Difference between revisions
Tom Griffing (talk | contribs) |
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== Horsepower | == Horsepower to Flow == | ||
Horsepower = Pressure × Flow / 1714 | Horsepower = Pressure × Flow / 1714 | ||
-or- | -or- | ||
HP = PQ / 1714 | HP = PQ / 1714 | ||
| Line 62: | Line 62: | ||
== Pump Displacement (Cubic Inch Per Revolution, or CIPR) == | |||
:CIPR = Flow Rate (in GPM) × 231 x Pump Efficiency / Pump RPM | |||
-or- | |||
:CIPR = GPM × 231 * PE / RPM | |||
The 28 hp Briggs & Stratton engine HP is rated at 3600 RPM. With 97% pump efficiency, the pump size is calculated as follows: | |||
:CIPR = 16 × 231 * 0.97 / 3600 = 0.996 CIPR | |||
The 50 hp Briggs & Stratton engine HP is rated at 3000 RPM. With 97% pump efficiency, the pump size is calculated as follows: | |||
:CIPR = 28.5 × 231 * 0.97 / 3600 = 1.774 CIPR | |||
== Fluid Flow Rate (Q) == | == Fluid Flow Rate (Q) == | ||
GPM = Flow (in Gallons) / Time (in Minutes) Q = V / T | GPM = Flow (in Gallons) / Time (in Minutes) Q = V / T | ||
Revision as of 17:13, 8 April 2013
Hydraulic Hose Sizing
The size of the suction hose for the power cube, it is calculated from the fluid velocity in the hose. The general values used are:
- Pressure: 20 ft/sec
- Return: 15 ft/sec
- Suction: 5 ft/sec
The formula for calculating the hose size is as follows:
- V = Q / (3.117 * pi/4 * D ^ 2)
or
- D = (Q / (3.117 * pi/4 * V) ) ^ 1/2
Where:
- V is fluid velocity in ft/sec
- Q is fluid volume in gallons/min
- D is hose inside diameter in inches
In the case of the Power Cube suction hose, V = 5 ft / sec and the Q is approximately 13 GPM, so:
- D = (13 GPM / (3.117 * pi/4 * 5 ft/sec) ) ^ 1/2 = 1.03 in
The sizing guidelines say to always round up - meaning take the next size larger than 1.03 inches (probably 1 1/4").
While I thought the sizing for the pressure lines was OK, I double-checked and found the formula indicates that the supply and return hoses should be larger as well:
- D = (13 GPM / (3.117 * pi/4 * 20 ft/sec) ) ^ 1/2 = 0.515 in
Also, the return lines appear to be undersized as well:
- D = (13 / (3.117 * pi/4 * 15 ft/sec) ) ^ 1/2 = 0.595 in
Both Pressure and Return hose sizes should be increased to 3/4", as well as all couplers and fittings.
Horsepower to Flow
Horsepower = Pressure × Flow / 1714
-or-
HP = PQ / 1714
For our 28 HP Power Cube delivering 3000 PSI, we calculate the flow as follows:
- 28 = (3000 * Q) / 1714
- Therefore, Q = (28 * 1714) / 3000 = 15.997 GPM
For the upcoming 50 HP Power Cube delivering 3000 PSI, we calculate the flow as follows:
- 50 = (3000 * Q) / 1714
- Therefore, Q = (50 * 1714) / 3000 = 28.5 GPM
Pump Displacement (Cubic Inch Per Revolution, or CIPR)
- CIPR = Flow Rate (in GPM) × 231 x Pump Efficiency / Pump RPM
-or-
- CIPR = GPM × 231 * PE / RPM
The 28 hp Briggs & Stratton engine HP is rated at 3600 RPM. With 97% pump efficiency, the pump size is calculated as follows:
- CIPR = 16 × 231 * 0.97 / 3600 = 0.996 CIPR
The 50 hp Briggs & Stratton engine HP is rated at 3000 RPM. With 97% pump efficiency, the pump size is calculated as follows:
- CIPR = 28.5 × 231 * 0.97 / 3600 = 1.774 CIPR
Fluid Flow Rate (Q)
GPM = Flow (in Gallons) / Time (in Minutes) Q = V / T