Green highway development features to control stormwater runoff pollution
Beside buildings, highways and roads construction interfere with Stormwater runoff (SWR). They have two main impacts. They generate more runoff and pollutants while they contribute to the increase in impervious surfaces in the watershed and intensify activities. Regarding the increase of impervi...
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my.utm.602572021-08-05T03:33:36Z http://eprints.utm.my/id/eprint/60257/ Green highway development features to control stormwater runoff pollution Abd. Majid, Muhd. Zaimi Yao, Bigah Keyvanfar, Ali Shafaghat, Arezou Mirza, Jahangir Kamyab, Hesam TA Engineering (General). Civil engineering (General) Beside buildings, highways and roads construction interfere with Stormwater runoff (SWR). They have two main impacts. They generate more runoff and pollutants while they contribute to the increase in impervious surfaces in the watershed and intensify activities. Regarding the increase of impervious surfaces, United States Environmental Protection Agency [1] states that roads occupy one third to two third of the land portion of the city (mostly impervious surfaces). The resulting effects of the hydro modification are increased volume of the runoff, change in sediment loading. From undeveloped area to developed zone with 30 to 50% of road impervious surface, the storm runoff rate increases from an average of 10% to 30% of the rain fall [2]. Kansas Department of Health and Environment exhaustively listed water pollution indicators as ammonia, total suspended solids (TSS), biochemical oxygen demand (BOD) and chemical oxygen demand (COD), chlorophyll, dissolved solids, heavy metals, minerals, nitrates, pesticides, pH, phosphorus, temperature, and turbidity. Barrett et al. [3] state highway pollutants are from three categories: organic, inorganic and microbial pollutants. Inorganic Pollutants (most common heavy metals) and the group of nutrients (herbicides, pesticides)) are toxic in high concentration and tend to amass into the tissue of aquatic flora and fauna [4,5]. Coliform bacteria are ordinary microbial pollutants encountered in storm runoff. They are of meticulous interest due to their easy access into the runoff either through anthropogenic sources or illicit connections to stormwater sewer system. Waterborne diseases originating from non-point sources (NPS) pollution are alleged to be more detrimental than sedimentation issues in developing countries [6]. Additionally, erosion and sedimentation process contribute to Stormwater runoff pollution. Sediment sources from roadways include road sanding, runoff from unpaved roads and areas where soil has been exposed during construction. Journal of Environmental Treatment Techniques (JETT) 2015 Article PeerReviewed Abd. Majid, Muhd. Zaimi and Yao, Bigah and Keyvanfar, Ali and Shafaghat, Arezou and Mirza, Jahangir and Kamyab, Hesam (2015) Green highway development features to control stormwater runoff pollution. Journal Of Environmental Treatment Techniques, 3 (4). pp. 173-175. ISSN 2309-1185 |
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TA Engineering (General). Civil engineering (General) Abd. Majid, Muhd. Zaimi Yao, Bigah Keyvanfar, Ali Shafaghat, Arezou Mirza, Jahangir Kamyab, Hesam Green highway development features to control stormwater runoff pollution |
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Beside buildings, highways and roads construction interfere with Stormwater runoff (SWR). They have two main impacts. They generate more runoff and pollutants while they contribute to the increase in impervious surfaces in the watershed and intensify activities. Regarding the increase of impervious surfaces, United States Environmental Protection Agency [1] states that roads occupy one third to two third of the land portion of the city (mostly impervious surfaces). The resulting effects of the hydro modification are increased volume of the runoff, change in sediment loading. From undeveloped area to developed zone with 30 to 50% of road impervious surface, the storm runoff rate increases from an average of 10% to 30% of the rain fall [2]. Kansas Department of Health and Environment exhaustively listed water pollution indicators as ammonia, total suspended solids (TSS), biochemical oxygen demand (BOD) and chemical oxygen demand (COD), chlorophyll, dissolved solids, heavy metals, minerals, nitrates, pesticides, pH, phosphorus, temperature, and turbidity. Barrett et al. [3] state highway pollutants are from three categories: organic, inorganic and microbial pollutants. Inorganic Pollutants (most common heavy metals) and the group of nutrients (herbicides, pesticides)) are toxic in high concentration and tend to amass into the tissue of aquatic flora and fauna [4,5]. Coliform bacteria are ordinary microbial pollutants encountered in storm runoff. They are of meticulous interest due to their easy access into the runoff either through anthropogenic sources or illicit connections to stormwater sewer system. Waterborne diseases originating from non-point sources (NPS) pollution are alleged to be more detrimental than sedimentation issues in developing countries [6]. Additionally, erosion and sedimentation process contribute to Stormwater runoff pollution. Sediment sources from roadways include road sanding, runoff from unpaved roads and areas where soil has been exposed during construction. |
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Article |
author |
Abd. Majid, Muhd. Zaimi Yao, Bigah Keyvanfar, Ali Shafaghat, Arezou Mirza, Jahangir Kamyab, Hesam |
author_facet |
Abd. Majid, Muhd. Zaimi Yao, Bigah Keyvanfar, Ali Shafaghat, Arezou Mirza, Jahangir Kamyab, Hesam |
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Abd. Majid, Muhd. Zaimi |
title |
Green highway development features to control stormwater runoff pollution |
title_short |
Green highway development features to control stormwater runoff pollution |
title_full |
Green highway development features to control stormwater runoff pollution |
title_fullStr |
Green highway development features to control stormwater runoff pollution |
title_full_unstemmed |
Green highway development features to control stormwater runoff pollution |
title_sort |
green highway development features to control stormwater runoff pollution |
publisher |
Journal of Environmental Treatment Techniques (JETT) |
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2015 |
url |
http://eprints.utm.my/id/eprint/60257/ |
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1707765861916344320 |
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13.15806 |