2016
DOI: 10.1016/j.coldregions.2016.03.012
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Experimental validation of icing rate using rotational load

Abstract: Icing load and icing rate are necessary feedback variables for an intelligent anti/de-icing system to work effectively in harsh cold environment of high north. These parameters may be measured by axial loadings or by rotational loadings, as a function of current demand. However the former may not necessarily be dynamic, whereas the later necessarily be rotational. Sufficiently at a fixed rpm, a mathematical model between additional polar moment of inertia vs electrical demand of the sensor can be established t… Show more

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Cited by 3 publications
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“…A working model was then manufactured using 3D Manufacturing Facility in order to validate the theoretical and experimental analysis. The working model was then tested to measure the accumulated icing load and icing rate based upon the rotational load measurement technique at the Cryospheric Environmental Simulator 'CES' in Japan ( [13]). Experimental testing of prototype icing sensor for rotational loading proves the associated physics for an adequate measurement of icing load and icing rate.…”
Section: Discussionmentioning
confidence: 99%
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“…A working model was then manufactured using 3D Manufacturing Facility in order to validate the theoretical and experimental analysis. The working model was then tested to measure the accumulated icing load and icing rate based upon the rotational load measurement technique at the Cryospheric Environmental Simulator 'CES' in Japan ( [13]). Experimental testing of prototype icing sensor for rotational loading proves the associated physics for an adequate measurement of icing load and icing rate.…”
Section: Discussionmentioning
confidence: 99%
“…Figure 8. Proposed Experimental Setup at CES, Shinjo Japan [13] Furthermore, it was also found important to experimentally and analytically validate the CFD based numerical results of Section 2.2 and measure icing intensities on them. It was also found useful and compare the results with freely rotating IceMonitor.…”
Section: Rotational Load Measurement Techniquementioning
confidence: 99%
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