Journal
JOURNAL OF CLEANER PRODUCTION
Volume 282, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2020.125427
Keywords
Adsorption; Biodegradation; Media; Recirculation; Water saturation
Categories
Funding
- University of Asia Pacific
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Landfill leachate treatment is challenging due to the complex chemical composition. This study identified factors associated with improved removal performance in wetland systems dosed with landfill leachate, with effluent recirculation playing a key role in adjusting composition and enhancing removal performance. Organic and nutrient removal in the hybrid wetlands primarily relied on adsorption, microbial degradation, and plant uptake, with different removal pathways affected by the imbalanced pollutant composition ratio.
Landfill leachate treatment is challenging because of complex chemical composition. This study identifies the factors associated with organics and nutrients removal performance improvement in construction or organic materials based four hybrid wetland systems dosed with landfill leachate. The imbalanced pollutant composition ratio of leachate influenced removal pathways in the hybrid wetlands; effluent recirculation (50 and 25% ratios) adjusted leachate composition and improved removal performances. Mean nitrogen (N), phosphorus (P), biochemical oxygen demand (BOD), and chemical oxygen demand (COD) removal percentages in the hybrid wetlands during without, with recirculation periods ranged between 50 and 93, 69-100, 34-89, and 55-76%, respectively. Pollutant removals were achieved through adsorption, microbial (heterotrophic organic removal, ammonia assimilation, nitrification, denitrification) degradation, and plant uptake. Removal rates did not vary substantially among organic or construction materials based first stage VF (vertical flow) wetlands because of leachate composition. Constant water saturation depth variation influenced pollutant removal rates among the second stage wetlands. Shallow water depth HF (horizontal flow) wetlands appeared to be a promising wastewater treatment technology due to the coexistence of unsaturated, saturated bed matrix that supported diverse removal pathways. (C) 2020 Elsevier Ltd. All rights reserved.
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