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- Title
Development of ultrasonic waveguide sensor for liquid level measurement in loop system.
- Authors
Dhayalan, R.; Saravanan, S.; Manivannan, S.; Purna Chandra Rao, B.
- Abstract
This Letter presents an ultrasonic waveguide sensor for measuring fluctuations in a liquid level using leaky longitudinal wave L(0,2) in a coolant loop system. A 20% cold‐worked D9 fuel pin clad tube of 1000 mm long, 6.6 mm outer diameter and 0.45 mm wall thickness was used as a waveguide on which the L(0,2) mode was transmitted/received along the axial direction at 500 kHz. When the waveguide got introduced into a coolant loop and partially immersed in a non‐viscous liquid (water/liquid sodium), the amplitude of L(0,2) mode got reduced due to leakage. The rate of leakage depends on the characteristics of the waveguide and the embedding liquid medium. By utilising this physical property of L(0,2) mode, it is possible to predict the variations in liquid level during dynamic conditions. Experimental measurements were carried out on a mock‐up test loop in which water was used as embedding liquid and two artificial notches were made on the waveguide at different depths were used as reference levels. The time‐amplitude signals were monitored and the reflected energies from the bottom end of the waveguide and the notches were used as the threshold and reference amplitudes respectively for identification of water level.
- Publication
Electronics Letters (Wiley-Blackwell), 2020, Vol 56, Issue 21, p1120
- ISSN
0013-5194
- Publication type
Article
- DOI
10.1049/el.2020.1678