interface222
Mechanical
- Jul 5, 2005
- 16
Hi,
I am attempting to complete a pneumatic circuit with a known requirements for flow to approximate pressure loss in the circuit and therefor the operating head for the pump in the circuit. I am neglecting friciton in the tubing simplifying it a little. The circuit contains heated and cooled portions as well as one point where the flow is volumetrically split to be reunited at the same pressure near the end of the loop.
My question is two parted.
1) Regarding splitting the flow, I am using an area ratio to split the flow and will emperically match the pressures when they join together later in the circuit. Due to manufacturability of the holes I am scaling the area of the exiting ducts to double that of the entrance duct. Is this better for head loss in the split or will keeping a 1:1 ratio for the split ducts and the entrance duct minimize head loss. I believe 1:1 would minimize the pressure drop because there would be less heat generated and dissipated in the non-ideal non-isentropic expansion in an area change.
More importantly.
2) I have run into this analysis block at any of the heating or cooling portions of a constant area "no friction" duct. I only have all the starting conditions and the change in temperature. I believe I need to have TWO flow characteristics at the exit to be able to calculate the rest of the flow characteristics (ie. density, velocity, entropy, enthalpy, Mach #, T stag, pressure, temperature).
Is there a way around this?!
Many thanks and godspeed.
Your help is appreciated.
I am attempting to complete a pneumatic circuit with a known requirements for flow to approximate pressure loss in the circuit and therefor the operating head for the pump in the circuit. I am neglecting friciton in the tubing simplifying it a little. The circuit contains heated and cooled portions as well as one point where the flow is volumetrically split to be reunited at the same pressure near the end of the loop.
My question is two parted.
1) Regarding splitting the flow, I am using an area ratio to split the flow and will emperically match the pressures when they join together later in the circuit. Due to manufacturability of the holes I am scaling the area of the exiting ducts to double that of the entrance duct. Is this better for head loss in the split or will keeping a 1:1 ratio for the split ducts and the entrance duct minimize head loss. I believe 1:1 would minimize the pressure drop because there would be less heat generated and dissipated in the non-ideal non-isentropic expansion in an area change.
More importantly.
2) I have run into this analysis block at any of the heating or cooling portions of a constant area "no friction" duct. I only have all the starting conditions and the change in temperature. I believe I need to have TWO flow characteristics at the exit to be able to calculate the rest of the flow characteristics (ie. density, velocity, entropy, enthalpy, Mach #, T stag, pressure, temperature).
Is there a way around this?!
Many thanks and godspeed.
Your help is appreciated.
