Sustainability of constructed wetlands using biochar as effective absorbent for treating wastewaters
Coconut shell as biochar was acquired by warm disintegration of natural material under limited supply of oxygen. It offers basic and financially savvy techniques to treat wastewater and diminishing carbon impression. Combination of both (constructed wetland and biochar) advancements was established...
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| Veröffentlicht in: | International Journal of Energy and Water Resources 2019-06, Vol.3 (2), p.153-164 |
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| container_title | International Journal of Energy and Water Resources |
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| creator | Vidya Vijay, M. Sudarsan, J. S. Nithiyanantham, S. |
| description | Coconut shell as biochar was acquired by warm disintegration of natural material under limited supply of oxygen. It offers basic and financially savvy techniques to treat wastewater and diminishing carbon impression. Combination of both (constructed wetland and biochar) advancements was established to expand the efficiency in the treatment of domestic and tannery wastewater. Reduction in parameters such as pH, turbidity, and other physico-chemical parameters from domestic and tannery wastewater utilizing biochar from coconut shell was researched by blending the biochar with the wetland soil. The biochar altered wetlands demonstrated noteworthy reduction efficiencies of 99.9% and 85% in turbidity and TDS when contrasted with the normal wetlands which showed an effectiveness of 98% and 77.7% in reducing turbidity and TDS, for domestic wastewater. For tannery wastewater, the biochar mixed wetlands demonstrated a reduction efficiency of 99% and 83% in turbidity and TDS, separately when contrasted with the ordinary wetlands which displayed a reduction efficiency of 87% and 74% in reducing turbidity and TDS. The normal wetlands showed better productivity of 93% in nitrogen reduction when contrasted with biochar wetlands with a reduction efficiency of 77%. Concentration of Cr has been diminished marginally more in biochar wetlands. |
| doi_str_mv | 10.1007/s42108-019-00025-9 |
| format | Article |
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For tannery wastewater, the biochar mixed wetlands demonstrated a reduction efficiency of 99% and 83% in turbidity and TDS, separately when contrasted with the ordinary wetlands which displayed a reduction efficiency of 87% and 74% in reducing turbidity and TDS. The normal wetlands showed better productivity of 93% in nitrogen reduction when contrasted with biochar wetlands with a reduction efficiency of 77%. 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S.</creatorcontrib><creatorcontrib>Nithiyanantham, S.</creatorcontrib><title>Sustainability of constructed wetlands using biochar as effective absorbent for treating wastewaters</title><title>International Journal of Energy and Water Resources</title><description>Coconut shell as biochar was acquired by warm disintegration of natural material under limited supply of oxygen. It offers basic and financially savvy techniques to treat wastewater and diminishing carbon impression. Combination of both (constructed wetland and biochar) advancements was established to expand the efficiency in the treatment of domestic and tannery wastewater. Reduction in parameters such as pH, turbidity, and other physico-chemical parameters from domestic and tannery wastewater utilizing biochar from coconut shell was researched by blending the biochar with the wetland soil. The biochar altered wetlands demonstrated noteworthy reduction efficiencies of 99.9% and 85% in turbidity and TDS when contrasted with the normal wetlands which showed an effectiveness of 98% and 77.7% in reducing turbidity and TDS, for domestic wastewater. For tannery wastewater, the biochar mixed wetlands demonstrated a reduction efficiency of 99% and 83% in turbidity and TDS, separately when contrasted with the ordinary wetlands which displayed a reduction efficiency of 87% and 74% in reducing turbidity and TDS. The normal wetlands showed better productivity of 93% in nitrogen reduction when contrasted with biochar wetlands with a reduction efficiency of 77%. 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Reduction in parameters such as pH, turbidity, and other physico-chemical parameters from domestic and tannery wastewater utilizing biochar from coconut shell was researched by blending the biochar with the wetland soil. The biochar altered wetlands demonstrated noteworthy reduction efficiencies of 99.9% and 85% in turbidity and TDS when contrasted with the normal wetlands which showed an effectiveness of 98% and 77.7% in reducing turbidity and TDS, for domestic wastewater. For tannery wastewater, the biochar mixed wetlands demonstrated a reduction efficiency of 99% and 83% in turbidity and TDS, separately when contrasted with the ordinary wetlands which displayed a reduction efficiency of 87% and 74% in reducing turbidity and TDS. The normal wetlands showed better productivity of 93% in nitrogen reduction when contrasted with biochar wetlands with a reduction efficiency of 77%. 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| subjects | Agricultural pollution Artificial wetlands Biomass Carbon Charcoal Disintegration Domestic wastewater Efficiency Papal visits Parameters Raw materials Reduction Textile industry wastewaters Turbidity Wastewater Wastewater treatment Wetlands |
| title | Sustainability of constructed wetlands using biochar as effective absorbent for treating wastewaters |
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