Field Evaluation of the Nutrient Removal Performance of a Gross Pollutant Trap (GPT) in Australia

Nichols, Peter W.; Lucke, Terry

doi:10.3390/su8070669

Cited by 5 publications

(3 citation statements)

References 18 publications

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“…The mean value of collection efficiencies was evaluated to be 29% for TSS, 40% for TP, 11% for TN, 6% for THM, and 20% for hydrocarbons [10]. In [12], field testing of a gross pollutant trap (GPT) was undertaken over a period of two years at a commercial site located in Queensland, Australia. Approximately 85% of the total catchment area was impervious.…”

Section: Summary Of the Ecosol Litter Basket Performancementioning

confidence: 99%

“…The catchment contained only residential land use [11]. Field testing of a gross pollutant trap (GPT) was also undertaken over a period of two years at a commercial site located in Queensland, Australia [12]. The catchment drainage area consisted of sealed car parks (50%), building roofs (35%), and approximately 15% open space containing lawns and intermittent impervious paved surfaces (concrete pathways).…”

Section: Introductionmentioning

confidence: 99%

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Statistical Analysis of Field-Based Stormwater Filtration Performance for the Ecosol Litter Basket

Nejad

Zecchin

2021

Sustainability

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Increasing specificity in water quality regulations for the discharge of stormwater to the environment has increased the requirement to more accurately characterize the performance of filtration interventions. This work presents a statistical performance analysis for the Ecosol Litter Basket, an at source filtration device, based on an extensive field study. The field evaluation of the Ecosol Litter Basket, a primary stormwater filtration device, was performed over a three-year period in an urban catchment in Queensland, Australia. A total of 29 rainfall events were recorded, of which between 13 to 16 events were evaluated as qualifying for the purposes of characterizing the removal efficiency. A variety of pollutant removal evaluation metrics, including concentration-based and total load-based metrics, were utilized in this study to characterize the efficacy of the device for removing a range of pollutants. Two approaches are proposed to facilitate the analysis: a nonlinear regression approach to more effectively deal with nonlinear patterns in the influent and effluent data; and the regression of concentrations (ROC), which is an additional concentration-based metric. A statistical analysis of the results demonstrated that the differences between influent and effluent streams for TSS are significantly different in their mean and median, and the removal efficiency of the Ecosol Litter Basket was evaluated to be 57–65% for TSS with the influent event mean concentration (EMC) up to 142 mg/L.

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Section: Summary Of the Ecosol Litter Basket Performancementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Statistical Analysis of Field-Based Stormwater Filtration Performance for the Ecosol Litter Basket

Nejad

Zecchin

2021

Sustainability

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“…A study made by Nichols and Lucke [14] who used manufactured GPT (Humegard ® ) showed removal of TP, TN and TSS even though the values did not meet the water quality requirement as shown in Table 1. A combination of BMPs such as GPT, bio-retention and pond has been done by Sahrma et al [16] increased the removal of TSS, but it requires extra space and costly due to the multiple installations of BMPs.…”

Section: Performance Of Gpts Embedded With Adsorbents In Dissolved Pollutants Removalmentioning

confidence: 99%

Embedding Nano-adsorbents Within Gross Pollutant Traps (GPTs): A Review

Safie

Rajin

Anisuzzaman

et al. 2020

Advances in Nanotechnology and Its Applications

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Gross pollutants (GPs) in storm water runoff have increased the number of harmful contaminants as a result of complete and incomplete decomposition of organic and non-organic matters. The addition of adsorbents may enhance the performance of GPTs as an on-site treatment. However, there is no complete review reporting the performance of GPTs with adsorbents. Hence, this review presents the preliminary process of GPTs installation, performance of GPTs in dissolved pollutants removal as well as the potential of zeolite and chitosan as adsorbent media within GPTs.

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