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Modelling Nitrogen Removal in a Coupled HRP and Unplanted Horizontal Flow Subsurface Gravel Bed Constructed Wetland

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dc.creator Mayo, Aloyce W.
dc.creator Mutamba, Jeremiah
dc.date 2016-05-24T10:19:28Z
dc.date 2016-05-24T10:19:28Z
dc.date 2005
dc.date.accessioned 2018-03-27T08:40:48Z
dc.date.available 2018-03-27T08:40:48Z
dc.identifier Mayo, A.W. and Mutamba, J., 2005. Modelling nitrogen removal in a coupled HRP and unplanted horizontal flow subsurface gravel bed constructed wetland. Physics and Chemistry of the Earth, Parts A/B/C, 30(11), pp.673-679.
dc.identifier http://hdl.handle.net/20.500.11810/2224
dc.identifier 10.1016/j.pce.2005.08.007
dc.identifier.uri http://hdl.handle.net/20.500.11810/2224
dc.description Full text can be accessed at http://www.sciencedirect.com/science/article/pii/S1474706505000781
dc.description A coupled model was developed that incorporates all the major nitrogen transformation mechanisms influencing nitrogen removal in aquatic systems. The model simulates nitrogen transformation and removal processes in the high rate pond (HRP) and the subsurface constructed wetland unit (SSCW). The model considered organic nitrogen (ON), ammonia nitrogen (NH3-N), and nitrate nitrogen (View the MathML source) as the major forms of nitrogen involved in the transformation chains. The influencing transformation mechanisms considered in the model include uptake of inorganic nitrogen by algae and bacteria, mineralization, sedimentation, volatilisation of ammonia and nitrification coupled with denitrification processes. The results showed that improved nitrogen removal occurred with increase in hydraulic time of the HRP unit. It was also revealed that the HRP can effectively be used to promote nitrification and subsurface flow gravel bed constructed wetland can be used as a denitrifying unit. The most efficient mechanisms were determined using a transformation model. The model indicated that nitrification and mineralization were dominant contributing 51.1% and 14.9%, respectively. Denitrification and mineralization were most significant in the SSCW accounting for 43.5% and 16.7%, respectively. Nitrification–denitrification route was observed to be the most significant mechanism for nitrogen removal in the coupled system with an overall contribution of 53%. The model predicted the overall nitrogen removal as 37% compared to 38.4% obtained from field measurements.
dc.language en
dc.publisher Elsevier
dc.subject Modelling
dc.subject Biofilm
dc.subject Nitrification
dc.subject Denitrification
dc.subject Sedimentation
dc.subject Mineralization
dc.title Modelling Nitrogen Removal in a Coupled HRP and Unplanted Horizontal Flow Subsurface Gravel Bed Constructed Wetland
dc.type Journal Article


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