Thermal profiles in pervious concrete during summer rain simulations

ABSTRACT Pervious concrete pavement systems may have many environmental benefits including the mitigation of heat island impacts. This mitigation is a complex combination of pervious concrete’s insulating capability and its ability to store water which may provide evaporative cooling. However, the i...

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Hauptverfasser:	Lorenzi, Alexandre, Haselbach, Liv, Luiz Carlos Pinto Da Silva Filho, Pessutto, Ângelo Simonetto, Bidinotto, Gabrielle Bacelo
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Schlagworte:	Construction Engineering FOS: Civil engineering FOS: Materials engineering Materials Engineering not elsewhere classified Metals and Alloy Materials
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creator	Lorenzi, Alexandre Haselbach, Liv Luiz Carlos Pinto Da Silva Filho Pessutto, Ângelo Simonetto Bidinotto, Gabrielle Bacelo
description	ABSTRACT Pervious concrete pavement systems may have many environmental benefits including the mitigation of heat island impacts. This mitigation is a complex combination of pervious concrete’s insulating capability and its ability to store water which may provide evaporative cooling. However, the introduction of water may also bring heat into the system, where the system is the pervious concrete pavement layer over an underground aggregate bed for retention and/or detention of stormwater. This study involved three different mix design placements in southern Brazil on a hot sunny summer day. The experiment had a control section and two test spots where controlled artificial rain events were introduced at two times during the afternoon for each of the three placement types. The ‘rain’ initially brought heat from the surface into the pervious concrete layer. Subsequent evaporation cooled these interior pavement layers to levels similar to the control locations. This introduction of water into pervious concrete with very hot surface temperatures in the heat of the day is expected to be a severe condition for adding heat to the system through the flow of water. If water additions are made at different diurnal times, such as nighttime rain, they may provide similar evaporative benefits with less heat transfer into the system via the water phase, and thus even more cooling of the system. These experiments reinforce the conclusion that pervious concrete may be a cool pavement during summer conditions, even under extreme conditions when surface heated stormwater enters the system.
doi_str_mv	10.6084/m9.figshare.7244957
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identifier	DOI: 10.6084/m9.figshare.7244957
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subjects	Construction Engineering FOS: Civil engineering FOS: Materials engineering Materials Engineering not elsewhere classified Metals and Alloy Materials
title	Thermal profiles in pervious concrete during summer rain simulations
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