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Pressure Control Subsystem

Pressure Control Subsystem. Comprised of… -t hose splitter -dual flow needle valve -amplified voltage pressure transducer -powered breadboard. Needle Valve . Chosen due to… -high resolution therefor minor adjustments to flow can be made (5 turns)

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Pressure Control Subsystem

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  1. Pressure Control Subsystem Comprised of… -t hose splitter -dual flow needle valve -amplified voltage pressure transducer -powered breadboard

  2. Needle Valve Chosen due to… -high resolution therefor minor adjustments to flow can be made (5 turns) -dual flow capability (allows inhale and exhale simulation) -low profile for organization -low cost (20$)

  3. T Hose Splitter Important to… -separate static pressure from dynamic flow -allow pressure readings to be taken parallel to flow increasing accuracy -organize flow path from model to valve system

  4. Amplified Pressure Sensor Was chosen based on… -accuracy (can measure static pressures +/- 1% with proper calibration) -cost (65$ per sensor) -compact design (no extensive cables or adaptation, plug into breadboard) -easy to calibrate and characterize to increase accuracy

  5. Breadboard Implementation Reasoning… -keeps voltage sensors organized and setup compact -allows user to adjust voltage getting applied to sensors easily -flow from pressure control to daq device will be smooth

  6. Pressure Control Path Fluid will leave outlet With steady state conditions fluid will separate due to splitter and apply static pressure on sensor Flow will be adjusted with needle valve based on logger pro readout compared to desired conditions Back to pump

  7. Calibration Technique Fluke 718 series -can use to apply very accurate known pressure -output voltage can then be read and adjusted to create new curves accurately matching sensor performance -acquired device through department

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