This study describes a field investigation that compares water infiltration rates of eight permeable parking lots located in Rimini City, Italy. In the experiment a single ring infiltrometer test was used to analyze the influence of the surface type, filling material, location in the parking stall, pavement age, and antecedent dry weather days on the infiltration capacity of the pavements. The results show that the permeability values are mostly affected by the position of the ring in the parking lot, filling material, and surface type rather than by the antecedent dry weather time and pavement age. The surface infiltration rate of the eight pavements ranges between a minimum of 123mm/h (site 6, permeable interlocking concrete paver, 2005) and a maximum of 20 137mm/h (site 4, concrete grid paver, 2005), exceeding the 97.2mm/h minimum design infiltration rate required by selected European authorities. The results also show that compaction decreases the infiltration rate. Therefore, the study could be useful in setting the standard test procedure to evaluate the performance of permeable pavements over time in the Mediterranean climate.

Experimental Infiltration Tests on Existing Permeable Pavement Surfaces

Cipolla S. S.
Primo
Writing – Review & Editing
;
2016-01-01

Abstract

This study describes a field investigation that compares water infiltration rates of eight permeable parking lots located in Rimini City, Italy. In the experiment a single ring infiltrometer test was used to analyze the influence of the surface type, filling material, location in the parking stall, pavement age, and antecedent dry weather days on the infiltration capacity of the pavements. The results show that the permeability values are mostly affected by the position of the ring in the parking lot, filling material, and surface type rather than by the antecedent dry weather time and pavement age. The surface infiltration rate of the eight pavements ranges between a minimum of 123mm/h (site 6, permeable interlocking concrete paver, 2005) and a maximum of 20 137mm/h (site 4, concrete grid paver, 2005), exceeding the 97.2mm/h minimum design infiltration rate required by selected European authorities. The results also show that compaction decreases the infiltration rate. Therefore, the study could be useful in setting the standard test procedure to evaluate the performance of permeable pavements over time in the Mediterranean climate.
2016
Permeability; Single ring infiltrometer; Sustainable urban drainage systems; Parking lots
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11584/302360
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