Review of technologies for snow melting systems

Review of technologies for snow melting systems

Precipitation is liquid or solid water falling from clouds to the Earth’s surface. Snow is a solid precipitation in the form of ice crystals. Due to many serious problems associated with snow accumulations during winter season, the removal of snow in winter seasons, is not only a convenience, but ca...

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Bibliographic Details
Published in:Journal of mechanical science and technology Vol. 29; no. 12; pp. 5507 - 5521
Main Authors: Mensah, Kwesi, Choi, Jong Min
Format: Journal Article
Language:English
Published: Seoul Korean Society of Mechanical Engineers 01-12-2015
Springer Nature B.V
대한기계학회
Subjects:
Building codes
Buildings
Control
Damage prevention
Dynamical Systems
Earth surface
Electric bridges
Engineering
HVAC equipment
Ice crystals
Ice formation
Industrial and Production Engineering
Industrial applications
Mathematical analysis
Mechanical Engineering
Melting
Payback periods
Precipitation
Property damage
Residential density
Roofs
Seasons
Snow
Snow accumulation
Snow removal
Systems design
Vibration
Winter
기계공학
Korea, Rep
Snow property
Safety
Building load
Heat load
Snow melting system
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Summary:Precipitation is liquid or solid water falling from clouds to the Earth’s surface. Snow is a solid precipitation in the form of ice crystals. Due to many serious problems associated with snow accumulations during winter season, the removal of snow in winter seasons, is not only a convenience, but can as well enhance safety and prevent property damage. Residential, commercial and industrial applications of snow melting have gained widespread acceptance. This paper reviews the researches on snow melting systems. The most researched and currently used snow melting systems are hydronic, electric and infrared systems. The review showed that hydronic snow melting systems is the most used system currently. This was observed as a result of the availability of choice of energy source options. However, the hydronic snow melting system has long payback period. One possible solution to compensate for this problem will be to combine snow melting systems with HVAC systems. There have been many researches on snow melting systems for pavement and bridge applications except for roof. To help minimize the collapse of buildings as a result of heavy snowfall on roofs, roof snow melting needs more attention. The paper further reviews the concept of snow building loads by comparing standard codes like ISO 4355, ASCE 7-02 and South Korea’s code for calculating snow building loads. The snow building load calculated by ISO 4355 represented higher value than others. The paper also presented a review on factors such as snow density and snow water equivalents in details and describes their importance in the aspect of snow melting system design.
Bibliography:ObjectType-Article-1
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G704-000058.2015.29.12.047
ISSN:1738-494X
1976-3824
DOI:10.1007/s12206-015-1152-4