Rotary Electro-Mechanical System ABOUT
EXPERIMENTS/ANALYSIS
DESIGN CONCEPT
Temperature vs. Flow Rate 80.0
Temperature (°C)
70.0 60.0 Hydraulic inlet
50.0
Hydraulic Outlet Reservior Temp
40.0 30.0 20.0 0
IMPLEMENTED DESIGN
0.5
1
1.5 Flow Rate (GPM)
2
2.5
3
LabVIEW Integration
PROJECT TEAM
GRADUATE LIAISON
Hassan AlDarwish Saeed Alzaki John Calhoun Brandon Mansur Kevin Song
Nooshin Nassr
FACULTY ADVISOR Dr. Zahed Siddique
LabVIEW has been integrated to the system for measuring temperature and axial load.
OBJECTIVES To design and implement an electro-mechanical rotary system that can evaluate temperature, pressure, flow rate, axial force and torque.
Rotary Electro-Mechanical System Top View
DESIGN REQUIREMENTS • • • • • •
Temperature ~ 200 °C Pressure ~ 1000 psi Flow Rate ~ 1.0 – 4.0 GPM Axial Force ~ 1000 lbf Torque ~ 1500 in ∙ oz Integrate LabVIEW for Data Acquisition
The design includes a two-tier system and an axial load setup that can output 1000 lbf.
CONCLUSIONS The experimental setup that was implemented successfully met all functional and measurement requirements. An axial load setup was designed and built in house to apply an axial load up to 1000 lbf. In addition, the system has utilized an integrated LabVIEW data acquisition system to accurately measure the temperature and axial load that the system observes. Experiments have been conducted to gather preliminary data and hydraulic motor efficiencies. This will be important for seal ring designs in the future.