PURPOSES: This study aimed to develop a proactive anti-icing system for driving zones at risk during winter.
METHODS: An electric low power potable anti-icing system, operated with a battery and solar cell, was designed and fabricated. Potassium acetate was used as the anti-icing chemical. The developed anti-icing system was tested in the laboratory in advance to confirm its function. Potassium acetate was also tested both in the laboratory and outdoor (exposed to the sun) conditions. The anti-icing system was set up on the road for field testing.
RESULTS: The 195 m spread distance of the anti-icing system was verified in the field test.
CONCLUSIONS: The anti-icing system developed for safe driving on the road will be cost-effective and economical during installation and maintenance compared with currently used snow melting systems on vulnerable driving zones.
PURPOSES : This paper aims to develop a road pavement de-icing system using carbon sheet to replace the older snow de-icing method. Carbon sheet is a light and high-strength metal. Hence, various bodies of research for its applications in many industries have progressed. METHODS : The experiment was conducted in a laboratory. The carbon sheet supplied voltage through a power supply system, and produced heat transfers to the concrete surface. Various factors, such as pavement material, carbon sheet width, penetration depth, and freezingthawing resistance, were considered in the conducted experiments to confirm the heating transfer efficiency of the carbon sheet. RESULTS : The carbon sheet used was a conductor. Therefore, it produced heat if voltage was supplied. The exposed carbon sheet on the atmosphere did not affect the carbon sheet width when it provided constant voltage. However, the sheet showed different heating behaviors by width change when the carbon sheet penetrated into the concrete. Moreover, the freezing-thawing resistance was decreased by the carbon sheet with increasing width. CONCLUSIONS : The experiments confirmed the possibility of developing a road snow melting system using a carbon sheet. The antiicing system using the carbon sheet to replace the traditional anti-icing system has disadvantages of environmental pollution risk and electric leakage. The pavement also improved its toughness resistance. The utilization value will be very high in the future if carbon sheet heat loss can be minimized and durability is improved.
PURPOSES: This study aims to establish the priority of introducing anti-icing spray system for regions of the National Highways in South Korea. Using this study, a logical plan for instituting such an anti-icing spray system can be established for the National Highways
METHODS : The Analytical Hierarchy Process (AHP) was employed to prioritize the implementation of an anti-icing spray system on Korean highways. For this purpose, an existing scoring table developed by the Ministry of Land, Infrastructure Transport Affair was slightly modified in order to reflect recent trends in winter maintenance. A survey was conducted to gather the preferences regarding the developed hierarchy of road experts and agencies. Finally, the final score was produced by integrating the scoring results with estimated weights for each evaluation criterion.
RESULTS: In general, Honam and the metropolitan areas have relatively high priority while other areas such as Chungcheong, Young Nam, and Gang Won appear to be uniform in importance in terms of establishing an anti-icing spray system. This result may indicate that historical weather data and traffic volumes are significant factors in deciding in winter maintenance polices
CONCLUSIONS : In this study, useful insights are suggested regarding winter maintenance by simultaneously performing rapid snow removal and proactive treatment. Issues of resource allocation may be potential research items in the field transportation engineering.
융설액 분사 시스템은 강설이 예상되거나 진행 중인 상황에서 즉시 대응이 가능하며, 강설 초기에 효율적인 처리로 강설로 인해 발생 가능한 교통사고와 교통 지정체를 감소시킬 수 있는 장점을 가지고 있다. 그러나 시스템의 설치비용이 고가이고, 설치되는 장비의 종류에 따라 운영 및 유지관리 비용이 지속적으로 소요되기 때문에 모든 도로 구간에 설치하는 것은 현실적으로 불가능하다. 최근 국내에서는 결빙 위험 구간을 파악할 수 있는 프로그램들이 개발되어 턴키 및 대안 설계에 활용되고 있다. 그러나 프로그램 개발 업체들마다 분석 방식이 상이하고 객관적인 기준이 없는 실정이다. 이에 따라 융설시스템 적용구간에 대한 기준 마련도 시급하다고 볼 수 있다. 본 연구에서는 선형, 기상조건, 일조조건 등을 다양한 도로 조건을 정량화하여 어떤 구간에 우선적으로 융설시스템을 적용하여야 하는지 판단할 수 있는 기준을 제시한다. 이를 위해 국내 지역별 기상 조사, 지형지물에 의해 음지 발생 여부 분석, 선형과 미끄럼 저항성을 고려한 차량 시뮬레이션 등을 수행하고 이론적 검토를 통해 설치 기준 방법론을 정립하는데 중점을 둔다.
The purpose of this study is to prevent the occurrence of safety accidents and traffic accidents in winter by presenting the criteria of de-icing and anti-icing of cable-supported marine bridges. In winter, due to the structural characteristics of the cable support bridge, the main tower and the cable are positioned upon the reinforcing beam that the vehicle passes through, and snow and ice that piled on the main tower and the cables is fall to the road. so It can be a reason of the traffic accident. In this study, we analyzed the mechanism for the snow accretion and ice accretion and suggested preventive measures about de-icing and anti-icing.
Recently, the use of eco-friendly deicer is recommended for solving problem of chloride deicing salts. The laboratory tests are often used to evaluate deicer performance, but they have been shown to correlate poorly to actual field performance. Thus, we would like to introduce the field test method for improving the performance qualification of anti-icing materials.