Nitrogen removal from sewage and septage in constructed wetland mesocosms using sand media amended with biochar

[Display omitted] •Addition of biochar in the sand media decreased hydraulic conductivity (Ksat).•Sand media amended with more than 5% biochar improved TN removal.•Sand media amended with more than 10% biochar improved NH4-N and NOx-N removal.•Strong positive correlation between percentage biochar i...

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Bibliographic Details
Published in:Ecological engineering 2018-02, Vol.111, p.1-10
Main Authors: de Rozari, P., Greenway, M., El Hanandeh, A.
Format: Article
Language:English
Subjects:
Agroforestry
Artificial wetlands
Biochar
Biomass
Charcoal
Chemical properties
Chemicophysical properties
Clarified wastewater
Coir
Domestic wastewater
Inflow
Media
Mesocosms
Microorganisms
Mineral nutrients
Mineralization
Nitrogen
Nitrogen compounds
Nitrogen removal
Nutrient removal
Nutrient retention
Organic nitrogen
Outflow
Oxides
Peat
Plant biomass
Plant growth
Plants (botany)
Removal
Sand
Secondary sewage
Septage
Sewage
Vertical flow wetland mesocosms
Waste treatment
Wastewater
Wastewater treatment
Wetlands
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Summary:[Display omitted] •Addition of biochar in the sand media decreased hydraulic conductivity (Ksat).•Sand media amended with more than 5% biochar improved TN removal.•Sand media amended with more than 10% biochar improved NH4-N and NOx-N removal.•Strong positive correlation between percentage biochar in the media and nitrogen removal.•Addition of biochar in the sand media did not increase N plant biomass. Biochar has been identified as a media amendment to improve nutrient removal from wastewater, and N retention and plant growth in agroforestry. It therefore has the potential for treating domestic wastewater. The aim of this research was to compare nitrogen removal and plant growth in pure sand and sand amended with biochar, in wetland mesocosms (240L) receiving sewage. There were seven media treatments based on the proportions of biochar in the sand media (100% sand, sand and coir peat, 5, 10, 15, 20, 25% biochar). The plant species were Paperback tree (Melaleuca quinquenervia) and Lemongrass (Cymbopogon citratus). The mesocosms were continuously loaded for 8 months with secondary clarified wastewater (SCW) (16L/day). Septage was then intermittently loaded (20L/2days) for a further 8 months. Inflow and outflow samples were monitored for TN, NH4-N, and NOx-N. All treatments showed good nitrogen removal efficiency. Average removal efficiencies of TN, NOx-N and NH4-N in the mesocosms loaded with SCW ranged from 71 to 87%, 81 to 93% and 65 to 79%, for 100% Sand to 25% Biochar respectively. For septage, the removal efficiencies ranged from 63 to 81%, 69 to 87% and 66 to 81%, for 100% Sand to 25% Biochar respectively. Significant differences of nitrogen outflow concentrations were observed between pure sand and sand amended with biochar. Physical chemical properties of the biochar would have facilitated microbial processes and adsorption. Strong positive correlations were observed between biochar content in the media and nitrogen removal rates. The increased nitrogen removal may be attributed to higher mineralisation of organic nitrogen and NH4-N, especially in the case of septage where strong correlation was observed between BOD5 and TN removal. Total N biomass in the plants harvested after 21 months ranged from 13.4–14.0gN. The addition of biochar did not increase plant N biomass in either species.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2017.11.002