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W41993421 abstract "French vertical-flow constructed wetlands (VFCW) directly treating raw wastewater are known to perform well on for SS, COD and nitrification. They are also known to robustly cope with hydraulic overloads during rainfall events. Although numerous systems have been installed in areas equipped with a combined sewer, the limits of stormwater acceptance remain ill-defined and need to be improved. Looking at the various VFCW designs and usages reported in the literature, it is difficult to draw any consensus on their hydraulic limits. Consequently, designing VFCW to accept hydraulic overloads is a complex task, as local context strongly impacts inlet flows produced during rainfall events. Dynamic models appear a requisite for filter design in such cases. Numerical CW models have essentially focused on horizontal flow, with few attempting to study VFCW dynamics which are more commonly tackled via mechanistic models. Although mechanistic models are powerful tools for describing processes within the VFCW, they are generally too complicated to be readily used by designers. The choice between detailed description and easy handling will depend on the modelling aims. If the aim is a global design tool, simplified models offer a good alternative. However, the simplified models geared to studying VFCW dynamics are extremely reduced. They are easy-handling for design and well-adapted to specific purposes (combined sewer overflow -CSO- treatment) but not necessarily to VFCW treating combined sewer wastewater, where long-term infiltration rates vary significantly. Consequently, this PhD thesis work focused on developing a simplified hydraulic model of VFCW to guide designers through the process of adapting VFCW systems to treat domestic wastewater in both dry and rain events. The simplified model makes it possible to link (i) hydraulics, by simulation of ponding time variations, (ii) biological performances, by establishing “dysfunction alerts” based on treatment performance assessment and variations in online N forms effluent from the young VFCW. These “dysfunction alerts” plot the maximal hydraulic load that a filter can accept without compromising its biological activity. The simplified model was used to model long-term hydraulics in the VFCW (i) to analyze the impact of local context and filter design on hydraulic overload acceptance (using “dysfunction alerts” and bypass discharges) and (ii) to propose VFCW designs for accepting hydraulic overload in different contexts. The modelling demonstrates that VFCW can limit days with bypass discharges to less than 20 times per year without jeopardizing filter performances. Moreover, the most problematic scenario on stormwater treatment remains a watershed with high imperviousness coefficient and low slope under a Bretagne-type climate, demonstrating that the filter is more sensitive to periodicity and duration than to intensity of rainfall events." @default.
W41993421 created "2016-06-24" @default.
W41993421 creator A5020992325 @default.
W41993421 date "2013-09-30" @default.
W41993421 modified "2023-09-23" @default.
W41993421 title "Vertical-flow constructed wetlands for the treatment of wastewater and stormwater from combined sewer systems" @default.
W41993421 cites W108496285 @default.
W41993421 cites W113239627 @default.
W41993421 cites W146871576 @default.
W41993421 cites W1505206707 @default.
W41993421 cites W1516801646 @default.
W41993421 cites W1573751137 @default.
W41993421 cites W1705067040 @default.
W41993421 cites W1856219842 @default.
W41993421 cites W1965604722 @default.
W41993421 cites W1967628295 @default.
W41993421 cites W1968666776 @default.
W41993421 cites W1970478717 @default.
W41993421 cites W1972769701 @default.
W41993421 cites W1974232521 @default.
W41993421 cites W197550380 @default.
W41993421 cites W1976000868 @default.
W41993421 cites W1976260837 @default.
W41993421 cites W1978493230 @default.
W41993421 cites W1978832886 @default.
W41993421 cites W1982415199 @default.
W41993421 cites W1982497836 @default.
W41993421 cites W1990012084 @default.
W41993421 cites W1998272095 @default.
W41993421 cites W1998742682 @default.
W41993421 cites W2000653885 @default.
W41993421 cites W2006947992 @default.
W41993421 cites W2007349351 @default.
W41993421 cites W2007517529 @default.
W41993421 cites W2009986285 @default.
W41993421 cites W2018081982 @default.
W41993421 cites W2020334886 @default.
W41993421 cites W2020537225 @default.
W41993421 cites W202264376 @default.
W41993421 cites W2024279331 @default.
W41993421 cites W2026499312 @default.
W41993421 cites W2030680919 @default.
W41993421 cites W2032019473 @default.
W41993421 cites W2038213182 @default.
W41993421 cites W2039056822 @default.
W41993421 cites W2040490459 @default.
W41993421 cites W2045171448 @default.
W41993421 cites W2046162418 @default.
W41993421 cites W2051225228 @default.
W41993421 cites W2052538702 @default.
W41993421 cites W2055457682 @default.
W41993421 cites W2056177355 @default.
W41993421 cites W2058395227 @default.
W41993421 cites W2060082377 @default.
W41993421 cites W2066753413 @default.
W41993421 cites W2067956508 @default.
W41993421 cites W2068134379 @default.
W41993421 cites W2076607975 @default.
W41993421 cites W2081555573 @default.
W41993421 cites W2082533947 @default.
W41993421 cites W2083024880 @default.
W41993421 cites W2085682896 @default.
W41993421 cites W2086085455 @default.
W41993421 cites W2088161415 @default.
W41993421 cites W2091122960 @default.
W41993421 cites W2093100084 @default.
W41993421 cites W2095722466 @default.
W41993421 cites W2097927924 @default.
W41993421 cites W2099849189 @default.
W41993421 cites W2101495988 @default.
W41993421 cites W2107073806 @default.
W41993421 cites W2108247944 @default.
W41993421 cites W2127666644 @default.
W41993421 cites W2128728699 @default.
W41993421 cites W2139849977 @default.
W41993421 cites W2140959043 @default.
W41993421 cites W2141068227 @default.
W41993421 cites W2141502118 @default.
W41993421 cites W2160250043 @default.
W41993421 cites W2162604832 @default.
W41993421 cites W2164311012 @default.
W41993421 cites W2185261885 @default.
W41993421 cites W2253411692 @default.
W41993421 cites W2267325807 @default.
W41993421 cites W2308549536 @default.
W41993421 cites W2335727119 @default.
W41993421 cites W2340680076 @default.
W41993421 cites W2804659823 @default.
W41993421 cites W2962718499 @default.
W41993421 cites W2972559043 @default.
W41993421 cites W2990623602 @default.
W41993421 cites W3144462128 @default.
W41993421 cites W33115452 @default.
W41993421 cites W412344961 @default.
W41993421 cites W53319907 @default.
W41993421 cites W2978718213 @default.
W41993421 hasPublicationYear "2013" @default.
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