The ability of vertical flow constr

The ability of vertical flow constructed wetland systems to treat high-strength
(ca.300mgL−1 of COD and ca. 300mgL−1 total-nitrogen)wastewater under tropical climatic conditions was studied during a 5-month period. Nine 0.8-m diameter experimental units(depth 0.6 m) were used: three units were planted with Typha angustifolia L., another three units were planted with Cyperus Rottb and three units were unplanted. Each set of units were operated at hydraulic loading rates of 20, 50 and 80mmd−1. Cyperus produced more shoots and biomass than the Typha, which was probably stressed because of lack of water. The high evapotranspirative water loss from the Cyperus systems resulted in higher effluent concentrations of COD and total-P, but the mass removal of COD did not differ significantly between planted and unplanted systems. Average mass removal rates
of COD, TKN and total-P at a HLR of 80mmd−1 were 17.8, 15.4 and 0.69 gm−2 d−1. The firstorder removal rate constants at a HLR of 80mmd−1 for COD, TKN and total-P were 49.8,30.1 and 13.5myear−1, respectively, which is in the higher range of k-values reported in the literature. The oxygen transfer rateswere ca. 80gm−2 d−1 in the planted systems as opposed to ca. 60gm−2 d−1 in the unplanted systems. The number of Nitrosomonas was two to three orders of magnitude higher in the planted systems compared to the unplanted systems.Planted systems thus had significantly higher removal rates of nitrogen and phosphorus,higher oxygen transfer rates, and higher quantities of ammonia-oxidizing bacteria. None of the systems did, however, fully nitrify thewastewater, even at lowloading rates. The vertical filters did not provide sufficient contact time between the wastewater and the biofilm on the gravel medium of the filters probably because of the shallow bed depth (0.6 m) and the coarse texture of the gravel. It is concluded that vertical flow constructed wetland systems
have a high capacity to treat high-strength wastewater in tropical climates. The gravel and sand matrix of the vertical filter must, however, be designed in a way so that the pulseloaded wastewater can pass through the filter medium at a speed that will allow the water to drain before the next dose arrives whilst at the same time holding the water back long enough to allow sufficient contact with the biofilm on the filter medium.