Your search keyword '"*PARROT'S-feather (Plant)"' showing total 3 results

1. Evaluating organics removal performance from lagoon-pretreated swine wastewater in pilot-scale three-stage surface flow constructed wetlands.

Author

Luo, Pei, Liu, Feng, Zhang, Shunan, Li, Hongfang, Chen, Xiang, Wu, Lu, Jiang, Qianwen, Xiao, Runlin, and Wu, Jinshui

Subjects

*PARROT'S-feather (Plant), *WASTEWATER treatment, *SEPARATION (Technology), *METHANE, *ORGANIC compounds

Abstract

Abstract Pilot-scale three-stage surface flow constructed wetlands (SFCWs) planted with Myriophyllum aquaticum were constructed to study the organics removal performance from lagoon-pretreated swine wastewater. The removal performance of organics in the SFCWs was evaluated using deterministic and probabilistic methods and the results were consistent. The SFCWs achieved a relatively high removal efficiency (79.0–82.7%) for a wide influent COD concentration range (456–1010 mg L−1). No significant difference (p > 0.05) of COD removal efficiency and first-order removal rate constant among the various strengths of influent suggested that the present loading rates (2.74–6.06 g m−2 d−1) have not yet reached the maximum removal capacity of the SFCWs. The mean emission fluxes of methane from the SFCW units fed with different strengths of wastewater were 25–1210 mg m−2 d−1. A significantly positive correlation (p < 0.01) between methane emission fluxes and COD loading rates indicated that the anaerobic digestion of organics was an important process for organics removal in the SFCWs. No significant organics accumulation in the sediment over time suggested that plant harvest could be in favor of reducing the organics accumulation in the substrate and should be considered important during management of constructed wetlands. Graphical abstract Image 1 Highlights • Pilot-scale three-stage CWs can remove organics from swine wastewater effectively. • Probabilistic approach was used to evaluate variability of organics removal. • Organics removal was little affected by influent loading rates and seasons. • Organics accumulation slowed down in the substrate under plant multiple harvesting. [ABSTRACT FROM AUTHOR]

Published

2018

2. Nitrogen removal and recovery from lagoon-pretreated swine wastewater by constructed wetlands under sustainable plant harvesting management.

Author

Luo, Pei, Liu, Feng, Zhang, Shunan, Li, Hongfang, Yao, Ran, Jiang, Qianwen, Xiao, Runlin, and Wu, Jinshui

Subjects

*WETLANDS, *NITROGEN removal (Sewage purification), *PARROT'S-feather (Plant), *LAGOONS, *HARVESTING, *MANAGEMENT

Abstract

A series of three-stage pilot-scale surface flow constructed wetlands (CWs) planted with Myriophyllum aquaticum were fed with three strengths of lagoon-pretreated swine wastewater to study nitrogen (N) removal and recovery under sustainable plant harvesting management. The CWs had mean removal efficiency of 87.7–97.9% for NH 4 + -N and 85.4–96.1% for total N (TN). The recovered TN mass via multiple harvests of M. aquaticum was greatest (120–222 g N m −2  yr −1 ) when TN concentrations were 21.8–282 mg L −1 . The harvested TN mass accounted for 0.85–100% of the total removal in the different CW units. Based on mass balance estimation, plant uptake, sediment storage, and microbial removal accounted for 13.0–55.0%, 4.9–8.0%, and 33.0–67.5% of TN loading mass, respectively. The results of this study confirm that M. aquaticum is appropriate for the removal and recovery of nutrients in CW systems designed for treating swine wastewater in conjunction with sustainable plant harvesting strategies. [ABSTRACT FROM AUTHOR]

Published

2018

3. Phosphorus removal from lagoon-pretreated swine wastewater by pilot-scale surface flow constructed wetlands planted with Myriophyllum aquaticum.

Author

Luo, Pei, Liu, Feng, Liu, Xinliang, Wu, Xiao, Yao, Ran, Chen, Liang, Li, Xi, Xiao, Runlin, and Wu, Jinshui

Subjects

*PARROT'S-feather (Plant), *WASTEWATER treatment, *INDUSTRIAL wastes, *CONSTRUCTED wetlands, *ARTIFICIAL habitats

Abstract

Although constructed wetlands (CWs) are used as one relatively low-cost technology for livestock wastewater treatment, the improvement of phosphorus removal in CWs is urgently needed. In this study, a three-stage pilot-scale CW system consisting of three surface flow CWs (SFCWs; CW1, CW2, and CW3) in series from inlet to outlet was constructed to treat swine wastewater (SW) from a lagoon. The CWs were planted with Myriophyllum aquaticum . Considering different inlet loading rates, three strengths of swine wastewater (low: 33% SW, medium: 66% SW, and high: 100% SW) were fed to the CW system to determine total phosphorus (TP) removal efficiency and clarify the important role of plant harvest. Results from the period 2014–2016 indicate that the three-stage CW system had mean TP cumulative removal efficiencies and removal rates of 78.2–89.8% and 0.412–0.779 g m − 2 d − 1 respectively, under different inlet loading rates. The TP removal efficiency and removal rate constant had temporal variations, which depended on temperature condition and the annual growth pattern of M . aquaticum . The harvested phosphorus mass was 15.1–40.9 g m − 2 yr − 1 in the CWs except for CW1 with high strength SW, and contributed 22.5–59.6% of TP mass removal rate by the SFCWs. The TP removal was mainly by adsorption and precipitation in the substrate in CW1 but by uptake and multiple harvests of M . aquaticum in CW2 and CW3. The results suggest the three-stage CW system planted with M . aquaticum is suited for removing high TP concentrations from swine wastewater with a high removal efficiency. However, TP removal in high strength SW amounted to 70.1 ± 23.3%, and the outflow concentration of 17.0 ± 14.9 mg L − 1 was still high. Optimal loading rates for high strength SW still need to be investigated for the CW system presented here. [ABSTRACT FROM AUTHOR]

Published

2017