Optoelectronic Strain-Measurement System Demonstrated on Scaled-Down Flywheels
Abstract
:1. Introduction
2. Optoelectronic Strain Measurement Sensor
2.1. Introduction to Optoelectronic Strain Measurement
2.2. Sensor Design
2.3. Measurement Setup
2.4. Pattern Design
2.5. Sensor System and Positioning
3. Experimental Test Bench Setup
3.1. Low-Speed Test Bench for Single-Sensor Characterization
3.2. High-Speed Test Bench with PVC Flywheel for Sensor System Evaluation
4. Flywheel Mechanics
4.1. Deformation Calculation
4.2. Position and Imbalance
- Lower vibration levels caused by imbalance;
- Reduced bearing loads;
- Stiffness of the shaft can be reduced;
- Manufacturing accuracy requirements decrease.
5. Results and Discussion
5.1. Low-Speed Characteristic Curve
5.2. High-Speed PVC Flywheel Test Bench
5.2.1. Deformation
5.2.2. In-Plane Displacement
6. Conclusions and Outlook
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
Abbreviations
CFRP | carbon-fiber-reinforced plastic |
FESS | flywheel energy storage system |
OESM | optoelectronic strain measurement |
PWM | pulse width modulation |
PVC | polyvinyl chloride |
PD | photodiode |
MA | moving average |
DFT | discrete Fourier transformation |
r | radius in polar coordinates |
angle in polar coordinates | |
duty cycle | |
t | time |
u | deformation |
displacement due to deformation in x-direction | |
displacement due to deformation in y-direction | |
detected pattern shift at sensor location A...D | |
d | in-plane displacement |
in-plane displacement in x-direction | |
in-plane displacement in y-direction | |
i | index of the lobes in a pattern |
time where chrome paint is detected | |
time where CFRP is detected | |
time of one lobe | |
T | time of one lobe |
outer radius of a lobe ring | |
inner radius of a lobe ring | |
supply voltage of the OESM sensor’s photodiode | |
diode current | |
shunt resistor of the OESM sensor | |
input resistor of the oscilloscope | |
rotational speed in rad/s | |
f | rotational speed in rev/s |
n | rotational speed in rev/min |
material density | |
E | Young’s modulus |
Poisson’s ratio | |
e | eccentricity |
k | system stiffness |
centrifugal force | |
elastic force | |
center position | |
critical revolution speed | |
D | damping factor |
speed-dependent phase shift |
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Rath, M.F.; Birgel, C.; Buchroithner, A.; Schweighofer, B.; Wegleiter, H. Optoelectronic Strain-Measurement System Demonstrated on Scaled-Down Flywheels. Sensors 2024, 24, 4292. https://doi.org/10.3390/s24134292
Rath MF, Birgel C, Buchroithner A, Schweighofer B, Wegleiter H. Optoelectronic Strain-Measurement System Demonstrated on Scaled-Down Flywheels. Sensors. 2024; 24(13):4292. https://doi.org/10.3390/s24134292
Chicago/Turabian StyleRath, Matthias Franz, Christof Birgel, Armin Buchroithner, Bernhard Schweighofer, and Hannes Wegleiter. 2024. "Optoelectronic Strain-Measurement System Demonstrated on Scaled-Down Flywheels" Sensors 24, no. 13: 4292. https://doi.org/10.3390/s24134292
APA StyleRath, M. F., Birgel, C., Buchroithner, A., Schweighofer, B., & Wegleiter, H. (2024). Optoelectronic Strain-Measurement System Demonstrated on Scaled-Down Flywheels. Sensors, 24(13), 4292. https://doi.org/10.3390/s24134292