The Fate of Pollutants in Porous Asphalt Pavements, Laboratory Experiments to Investigate Their Potential to Impact Environmental Health

Pervious Paving Systems (PPS) are part of a sustainable approach to drainage in which excess surface water is encouraged to infiltrate through their structure, during which potentially toxic elements, such as metals and hydrocarbons are treated by biodegradation and physical entrapment and storage....

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Veröffentlicht in:	International journal of environmental research and public health 2017-06, Vol.14 (6), p.666
Hauptverfasser:	Charlesworth, Susanne M, Beddow, Jamie, Nnadi, Ernest O
Format:	Artikel
Sprache:	eng
Schlagworte:	Asphalt Asphalt pavements Binding sites Biodegradation Biofilms Contaminants Contamination Ecological risk assessment Entrapment Environmental Health Environmental Monitoring Environmental risk Hydrocarbons Hydrocarbons - chemistry Laboratories Landfill Metal concentrations Metals Metals - chemistry Pollutants Pollution monitoring Porosity Porous pavements Public health Rainfall Rainfall rate Recycled materials Recycling Sediments Surface water Wastewater disposal Water Pollutants, Chemical - chemistry Water pollution Water Quality
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creator	Charlesworth, Susanne M Beddow, Jamie Nnadi, Ernest O
description	Pervious Paving Systems (PPS) are part of a sustainable approach to drainage in which excess surface water is encouraged to infiltrate through their structure, during which potentially toxic elements, such as metals and hydrocarbons are treated by biodegradation and physical entrapment and storage. However, it is not known where in the PPS structure these contaminants accumulate, which has implications for environmental health, particularly during maintenance, as well as consequences for the recycling of material from the PPS at the end-of-life. A 1 m³ porous asphalt (PA) PPS test rig was monitored for 38 months after monthly additions of road sediment (RS) (367.5 g in total) and unused oil (430 mL in total), characteristic of urban loadings, were applied. Using a rainfall simulator, a typical UK rainfall rate of 15 mm/h was used to investigate its efficiency in dealing with contamination. Water quality of the effluent discharged from the rig was found to be suitable for discharge to most environments. On completion of the monitoring, a core was taken down through its surface, and samples of sediment and aggregate were taken. Analysis showed that most of the sediment remained in the surface course, with metal levels lower than the original RS, but higher than clean, unused aggregate or PA. However, even extrapolating these concentrations to 20 years' worth of in-service use (the projected life of PPS) did not suggest their accumulation would present an environmental pollution risk when carrying out maintenance of the pavement and also indicates that the material could be recycled at end-of-life.
doi_str_mv	10.3390/ijerph14060666
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However, it is not known where in the PPS structure these contaminants accumulate, which has implications for environmental health, particularly during maintenance, as well as consequences for the recycling of material from the PPS at the end-of-life. A 1 m³ porous asphalt (PA) PPS test rig was monitored for 38 months after monthly additions of road sediment (RS) (367.5 g in total) and unused oil (430 mL in total), characteristic of urban loadings, were applied. Using a rainfall simulator, a typical UK rainfall rate of 15 mm/h was used to investigate its efficiency in dealing with contamination. Water quality of the effluent discharged from the rig was found to be suitable for discharge to most environments. On completion of the monitoring, a core was taken down through its surface, and samples of sediment and aggregate were taken. Analysis showed that most of the sediment remained in the surface course, with metal levels lower than the original RS, but higher than clean, unused aggregate or PA. However, even extrapolating these concentrations to 20 years' worth of in-service use (the projected life of PPS) did not suggest their accumulation would present an environmental pollution risk when carrying out maintenance of the pavement and also indicates that the material could be recycled at end-of-life.</abstract><cop>Switzerland</cop><pub>MDPI AG</pub><pmid>28635641</pmid><doi>10.3390/ijerph14060666</doi><oa>free_for_read</oa></addata></record>
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subjects	Asphalt Asphalt pavements Binding sites Biodegradation Biofilms Contaminants Contamination Ecological risk assessment Entrapment Environmental Health Environmental Monitoring Environmental risk Hydrocarbons Hydrocarbons - chemistry Laboratories Landfill Metal concentrations Metals Metals - chemistry Pollutants Pollution monitoring Porosity Porous pavements Public health Rainfall Rainfall rate Recycled materials Recycling Sediments Surface water Wastewater disposal Water Pollutants, Chemical - chemistry Water pollution Water Quality
title	The Fate of Pollutants in Porous Asphalt Pavements, Laboratory Experiments to Investigate Their Potential to Impact Environmental Health
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