Vertical flow constructed wetlands subject to load variations: an improved design methodology connected to outlet quality objectives
This study surveyed four campsites and four rural villages of major tourist interest, called tourist-interest or ti-villages, that were monitored for several years, generating over 70 performance balances for vertical flow constructed wetlands (VFCWs) that were intentionally scaled down for experime...
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| Published in | Water science and technology Vol. 72; no. 5; pp. 817 - 823 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
England
IWA Publishing
01.01.2015
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| Subjects | |
| Online Access | Get full text |
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| Abstract | This study surveyed four campsites and four rural villages of major tourist interest, called tourist-interest or ti-villages, that were monitored for several years, generating over 70 performance balances for vertical flow constructed wetlands (VFCWs) that were intentionally scaled down for experimental trials. The wastewater effectively qualifies as domestic sewage, although relatively concentrated, with the campsites presenting particularly high nitrogen concentrations (122 gTKN L–1) (TKN: total Kjeldahl nitrogen). The applied daily loads were also particularly high, with some combinations of load parameters (hydraulic load, organic matter, TKN) leading to 400% overloading. Even under those drastic conditions, the quality of effluent remained excellent on the characteristic organic matter parameters, with removal performances always over 85%. Analysis of the dataset points to two major design thresholds: for campsites, in order to maintain a 73% nitrification rate even at the height of the summer season, the load applied onto the first stage filter in operation could achieve up to 600 gCOD m–2 day–1 (COD: chemical oxygen demand). For tourist-interest villages, in order to maintain an 85% nitrification rate, the load applied onto the second stage filter in operation could achieve up to 22 gTKN m–2.day–1. Here, VFCWs were demonstrated to robustly handle a massive increase in loads applied, providing the construction and operation stringently follow design standards and practices. |
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| AbstractList | This study surveyed four campsites and four rural villages of major tourist interest, called touristinterest or ti-villages, that were monitored for several years, generating over 70 performance balances for vertical flow constructed wetlands (VFCWs) that were intentionally scaled down for experimental trials. The wastewater effectively qualifies as domestic sewage, although relatively concentrated, with the campsites presenting particularly high nitrogen concentrations (122 gTKN L–1) (TKN: total Kjeldahl nitrogen). The applied daily loads were also particularly high, with some combinations of load parameters (hydraulic load, organic matter, TKN) leading to 400% overloading. Even under those drastic conditions, the quality of effluent remained excellent on the characteristic organic matter parameters, with removal performances always over 85%. Analysis of the dataset points to two major design thresholds: for campsites, in order to maintain a 73% nitrification rate even at the height of the summer season, the load applied onto the first stage filter in operation could achieve up to 600 gCOD m–2 day–1 (COD: chemical oxygen demand). For tourist-interest villages, in order to maintain an 85% nitrification rate, the load applied onto the second stage filter in operation could achieve up to 22 gTKN m–2.day–1. Here, VFCWs were demonstrated to robustly handle a massive increase in loads applied, providing the construction and operation stringently follow design standards and practices. This study surveyed four campsites and four rural villages of major tourist interest, called tourist-interest or ti-villages, that were monitored for several years, generating over 70 performance balances for vertical flow constructed wetlands (VFCWs) that were intentionally scaled down for experimental trials. The wastewater effectively qualifies as domestic sewage, although relatively concentrated, with the campsites presenting particularly high nitrogen concentrations (122 gTKN L–1) (TKN: total Kjeldahl nitrogen). The applied daily loads were also particularly high, with some combinations of load parameters (hydraulic load, organic matter, TKN) leading to 400% overloading. Even under those drastic conditions, the quality of effluent remained excellent on the characteristic organic matter parameters, with removal performances always over 85%. Analysis of the dataset points to two major design thresholds: for campsites, in order to maintain a 73% nitrification rate even at the height of the summer season, the load applied onto the first stage filter in operation could achieve up to 600 gCOD m–2 day–1 (COD: chemical oxygen demand). For tourist-interest villages, in order to maintain an 85% nitrification rate, the load applied onto the second stage filter in operation could achieve up to 22 gTKN m–2.day–1. Here, VFCWs were demonstrated to robustly handle a massive increase in loads applied, providing the construction and operation stringently follow design standards and practices. This study surveyed four campsites and four rural villages of major tourist interest, called tourist-interest or ti-villages, that were monitored for several years, generating over 70 performance balances for vertical flow constructed wetlands (VFCWs) that were intentionally scaled down for experimental trials. The wastewater effectively qualifies as domestic sewage, although relatively concentrated, with the campsites presenting particularly high nitrogen concentrations (122 gTKN L(-1)) (TKN: total Kjeldahl nitrogen). The applied daily loads were also particularly high, with some combinations of load parameters (hydraulic load, organic matter, TKN) leading to 400% overloading. Even under those drastic conditions, the quality of effluent remained excellent on the characteristic organic matter parameters, with removal performances always over 85%. Analysis of the dataset points to two major design thresholds: for campsites, in order to maintain a 73% nitrification rate even at the height of the summer season, the load applied onto the first stage filter in operation could achieve up to 600 gCOD m(-2) day(-1) (COD: chemical oxygen demand). For tourist-interest villages, in order to maintain an 85% nitrification rate, the load applied onto the second stage filter in operation could achieve up to 22 gTKN m(-2).day(-1). Here, VFCWs were demonstrated to robustly handle a massive increase in loads applied, providing the construction and operation stringently follow design standards and practices.This study surveyed four campsites and four rural villages of major tourist interest, called tourist-interest or ti-villages, that were monitored for several years, generating over 70 performance balances for vertical flow constructed wetlands (VFCWs) that were intentionally scaled down for experimental trials. The wastewater effectively qualifies as domestic sewage, although relatively concentrated, with the campsites presenting particularly high nitrogen concentrations (122 gTKN L(-1)) (TKN: total Kjeldahl nitrogen). The applied daily loads were also particularly high, with some combinations of load parameters (hydraulic load, organic matter, TKN) leading to 400% overloading. Even under those drastic conditions, the quality of effluent remained excellent on the characteristic organic matter parameters, with removal performances always over 85%. Analysis of the dataset points to two major design thresholds: for campsites, in order to maintain a 73% nitrification rate even at the height of the summer season, the load applied onto the first stage filter in operation could achieve up to 600 gCOD m(-2) day(-1) (COD: chemical oxygen demand). For tourist-interest villages, in order to maintain an 85% nitrification rate, the load applied onto the second stage filter in operation could achieve up to 22 gTKN m(-2).day(-1). Here, VFCWs were demonstrated to robustly handle a massive increase in loads applied, providing the construction and operation stringently follow design standards and practices. |
| Author | Prost-Boucle, S. Boutin, C. |
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| Cites_doi | 10.2166/wst.1997.0226 10.2166/wst.2007.507 10.2166/wst.2005.0277 10.1016/j.ecoleng.2008.05.016 10.1201/9781420012514 |
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| Keywords | NITROGEN VERTICAL FLOW CONSTRUCTED WETLANDS DESIGN APPLIED LOADS FLUCTUATIONS |
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| References | Masi (2020032801320439500_WST-EM15126R3C7) 2007; 56 Kadlec (2020032801320439500_WST-EM15126R3C6) 2008 Molle (2020032801320439500_WST-EM15126R3C11) 2008; 34 2020032801320439500_WST-EM15126R3C2 2020032801320439500_WST-EM15126R3C1 Boutin (2020032801320439500_WST-EM15126R3C4) 2010 Ministère de l'artisanat, du commerce et du tourisme (Ministry of crafts, trade and tourism) (2020032801320439500_WST-EM15126R3C9) 2013 2020032801320439500_WST-EM15126R3C8 Boutin (2020032801320439500_WST-EM15126R3C3) 1997; 35 Council Directive 91/271/EEC (2020032801320439500_WST-EM15126R3C5) 1991; 135 Molle (2020032801320439500_WST-EM15126R3C10) 2005; 51 |
| References_xml | – volume: 35 start-page: 315 issue: 5 year: 1997 ident: 2020032801320439500_WST-EM15126R3C3 article-title: Development of a new generation of reed-bed filters in France: First results publication-title: Water Sci. Technol. doi: 10.2166/wst.1997.0226 – ident: 2020032801320439500_WST-EM15126R3C2 – ident: 2020032801320439500_WST-EM15126R3C8 – ident: 2020032801320439500_WST-EM15126R3C1 – year: 2010 ident: 2020032801320439500_WST-EM15126R3C4 article-title: Robustness of vertical reed bed filters facing loads variations: the particular case of campsites – volume-title: Key Facts on Tourism year: 2013 ident: 2020032801320439500_WST-EM15126R3C9 – volume: 56 start-page: 39 issue: 3 year: 2007 ident: 2020032801320439500_WST-EM15126R3C7 article-title: Tolerance to hydraulic and organic load fluctuations in constructed wetlands publication-title: Water Sci. Technol. doi: 10.2166/wst.2007.507 – volume: 135 start-page: 40 year: 1991 ident: 2020032801320439500_WST-EM15126R3C5 article-title: Concerning urban waste-water treatment, 21 May 1991 publication-title: Off. J. L – volume: 51 start-page: 11 issue: 9 year: 2005 ident: 2020032801320439500_WST-EM15126R3C10 article-title: How to treat raw sewage with constructed wetlands: an overview of the French systems publication-title: Water Sci. Technol. doi: 10.2166/wst.2005.0277 – volume: 34 start-page: 23 year: 2008 ident: 2020032801320439500_WST-EM15126R3C11 article-title: Potential for total nitrogen removal by combining vertical flow and horizontal flow constructed wetlands: a full- scale experiment study publication-title: Ecol. Eng. doi: 10.1016/j.ecoleng.2008.05.016 – volume-title: Treatment Wetlands year: 2008 ident: 2020032801320439500_WST-EM15126R3C6 doi: 10.1201/9781420012514 |
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| SubjectTerms | Artificial wetlands Biological Oxygen Demand Analysis Camping Chemical oxygen demand Construction standards Design improvements Design standards Effluents Environmental Sciences Filtration Household wastes Hydraulic loading Infrastructure Load Load distribution Loads (forces) Nitrification Nitrogen Organic loading Organic matter Overloading Parameters Parks, Recreational Population Quality Removal Rural areas Seasons Sewage Thresholds Tourism Tourists Vertical flow Vertical mixing Villages Waste Water - chemistry Wastewater Water Purification Wetlands Winter |
| Title | Vertical flow constructed wetlands subject to load variations: an improved design methodology connected to outlet quality objectives |
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