Wax method that melt off ice on roads during winter

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melt off ice on roads during winter

Researchers invented a new method of waxing that prevents the ice by melting itself on roads during winter.

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The Drexel university researchers found simple wax additive could keep roads and sidewalks ice-free. Wax added to concrete and store energy until it needs to be released. The released energy can warm the concrete and de-ice the road.

Paraffin oil is a common ingredient in wax products like candles, polishes and cosmetics. The material is cheap and chemically stable. As it turns from a liquid to a solid, it releases thermal energy. The oil fine-tuned to solidify at certain temperature ranges. So the additive designed to release energy during cold weather.

Phase change materials

Researchers plan to test the paraffin aggregate at larger scales. The technology eventually installed on highways and airport runways. But first scientists need to make sure paraffin doesn’t negatively effect the pavement’s durability or traction. By inhibiting the formation of ice and snow on the pavement or bridge surface. The use of PCM may reduce or eliminate the need for deicing chemicals/salts, snowplowing. Thus saving money and positively influencing the environmental impact of such operations.

Phase change materials incorporated into concrete using porous lightweight aggregate or embedded pipes and when PCM transforms from liquid to solid during cooling events, it can release thermal heat used to melt ice and snow, Yaghoob Farnam, an assistant professor of engineering at Drexel University, said.

Researchers tested the d-icing capabilities of concrete slabs featuring paraffin-filled pipes and a light-weight paraffin-treated aggregate. During testing at temperatures between 35 and 44 degrees Fahrenheit, snow on the control slab remained frozen, while slabs intersected by paraffin melted away the snow within 25 hours.

Paraffin-filled pipes

In this study, paraffin oil was use as a PCM that is effective in releasing heat near the freezing temperature of PCM when the PCM undergoes a phase transformation from liquid to solid. The heat released during the phase transformation can melt ice and snow on the concrete pavement surface.

In the first round of testing, paraffin-filled pipes were more efficient than the paraffin aggregate. When scientists tested the different slabs at temperatures below freezing, they found the concrete aggregate treated with paraffin proved more effective at keeping the slab free of snow and ice.

The gradual heat release due to the different pore sizes in porous light-weight aggregate is more beneficial in melting snow when concrete is exposed to variety of temperature changes when snow melting or deicing is needed.

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Using porous lightweight aggregate in potential way of incorporating phase change materials in concrete as it is easy to implement in practice and can cover environmental conditions of various locations in the U.S. dealing with snow, especially melting snow or deicing in roads and bridges in the Northeast.

 

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