Water and mass budgets of a vertical-flow constructed wetland used for wastewater treatment

To estimate the nutrient and organic matter (Biological Oxygen Demand (BOD 5) and Chemical Oxygen Demand (COD)) removal capacity of a constructed vertical-flow wetland in The Netherlands, a water and nutrient budget study was conducted. Also bacterial water quality enhancement was measured. The syst...

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Bibliographic Details
Published in:Ecological engineering 2003-03, Vol.20 (1), p.31-44
Main Authors: Meuleman, Arthur F.M., van Logtestijn, Richard, Rijs, Gerard B.J., Verhoeven, Jos T.A.
Format: Article
Language:English
Subjects:
BOD 5
Budgeting
Capacity
COD
Construction
Denitrification
Design engineering
Ecology
Efficiency
Escherichia coli
Harvesting
Hydraulics
Land development
Nitrogen
Nutrient budget
Nutrients
Oxygen demand
Phosphorus
Phragmites
Phragmites australis
Plant uptake
Plants (organisms)
Removal efficiency
Sedimentation
Sediments
Soil (material)
Soil sorption
Treatment wetland
Vegetation
Wastewater treatment
Water budget
Water quality
Wetlands
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Summary:To estimate the nutrient and organic matter (Biological Oxygen Demand (BOD 5) and Chemical Oxygen Demand (COD)) removal capacity of a constructed vertical-flow wetland in The Netherlands, a water and nutrient budget study was conducted. Also bacterial water quality enhancement was measured. The system had a Phragmites australis vegetation and comprised four parallel compartments of 0.25 ha each, which were loaded sequentially with sewage from recreational facilities. Annual loading rates were moderate and were estimated to be 16 700 kg COD ha −1; 6700 kg BOD 5 ha −1; 2400 kg N ha −1; and 335 kg P ha −1. The removal efficiencies for COD (81%) and BOD 5 (96%) were high. Almost all Escherichia coli and F-specific RNA bacteriophages (>99%) were removed from the wastewater during transport. The removal efficiencies for nitrogen (30%) and phosphorus (24%) were much lower. Nutrient removal was the result of plant uptake and harvesting (15% of total N input, 10% of total P input), denitrification (8% of total N input), sedimentation and accumulation of organic matter in the soil (7% of N total input, 14% of total P input). Removal efficiencies for N and P could be increased by harvesting the Phragmites vegetation in October, rather than the current harvesting practice in December. This vertical-flow wetland appeared to be P-saturated after 15 years of operation. The use of sandy sediments with better P-adsorbing properties is advocated as a critical issue for the design of these systems. Further, the groundwater eutrophication resulting from the poor functioning of the drainage systems has shown that a good hydraulic separation of vertical-flow systems from the subsurface is an important prerequisite for their proper functioning.
ISSN:0925-8574
1872-6992
DOI:10.1016/S0925-8574(03)00002-8