Research of Measuring Device in Surface of Road Temperature
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2018-06-08 https://doi.org/10.14419/ijet.v7i2.33.18019 -
Road, Temperature, Black Ice, freezing, road surface -
Abstract
Background/Objectives: Measuring device of road surface temperature installed all kinds of road makes it possible to predict not only road surface temperature as well as its trend of temperature change by providing real time information of road surface temperature which has an important effect of ice on the road in winter season but also time invested in snow removal and workload. It is suggested method to improve measurement precision of road surface temperature.
Methods/Statistical analysis: Sample is installed in a constant temperature chamber before test implementation and leaves it in natural conditions without configuring settings to make upper surface temperature becoming constant temperature. Upper surface temperature leaves until a certain temperature after setting below zero temperature when the target temperature is reached.
Findings: Correction formula that is satisfied maximum error range±0.5℃ between surface temperature of concrete test piece and temperature correction through measuring device is drawn based on analysis of trend in measuring device of the temperature change and its gradient.
Improvements/Applications: Surface temperature measuring device applied correction formula increases the accuracy of surface road temperature as an important factor of ice protection system on the road and the effect of preventing traffic accident due to freezing will be increased.
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References
[1] How to measure temperature and humidity. (2008). https://m.blog.naver.com/kjj312/70033033 173.
[2] A Selfish & Subjective DB. (2014). http://bosch.tistory.com/187.
[3] Hui-Nae Kwon, Hi-Ryong Byun, Chang-Kyun Park.(2015). Case Studies on Freezing Rain over the Korean Peninsula Using KLAPS. Atmosphere, 25(3), 389-405.
[4] Chang-Kyun Park, Hi-Ryong Byun. (2015). Three Cases with the Multiple Occurrences of Freezing Rain in One Day in Korea. Atmosphere, l(1), 31-49.
[5] KMS and KMA. (2013). Road Temperature. Atmospheric sciences terminology. 1042.
[6] KMA. (2002). Manuals for ground weather observation. Korea Meteorological Administration, 243.
[7] Gul-won Bang, Yong-ho Kim, Realization of the Image System for Prevention of Traffic Accidents Inside Tunnel. (2017). International Journal of Pure and Applied Mathematics, 116(3), 847-858.
[8] Gul-won Bang, Yong-ho Kim, Detection System for Displacement of Corrugated Steel Pipe based IoT. (2017). Jour of Adv Research in Dynamical & Control Systems, 15, 488-493.
[9] Gul-won Bang, Yong-ho Kim, Panorama laser lane systembased IoT. (2018). International Journal of Engineering & Technology, 7(2), 46-49.
[10] Sung-hun Shin, jeong-gon Sung, Development of Thermal Mapping System and Characteristics of Road Surface Temperature according to Topography. (2006). Journal of Korean Society of Transportation, 54,149-156.
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How to Cite
Won Bang, G., & Ho Kim, Y. (2018). Research of Measuring Device in Surface of Road Temperature. International Journal of Engineering & Technology, 7(2.33), 1205-1208. https://doi.org/10.14419/ijet.v7i2.33.18019Received date: 2018-08-20
Accepted date: 2018-08-20
Published date: 2018-06-08