Ecosystem services by wetlands for polluted water treatment

8TH BSME INTERNATIONAL CONFERENCE ON THERMAL ENGINEERING Pub Date : 2019-07-18 DOI:10.1063/1.5115973

P. Vasudevan, P. K. Sen, R. Srivastava, M. Tandon, S. Hegde, T. V. Kumar, P. Davies

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Abstract

Various designs are discussed for ecosystem services in engineered wetlands for contaminated water treatment. Techniques such as Rhizo filtration, Constructed wetlands and Floating rafts are highlighted based on our experiments. Specifically, enhanced bioenergy production by domestic wastewater treatment in rhizo filtration by fast growing trees is discussed. In another set of experiments, designs and factors which can enhance the rate of pollutant removal from wastewater by floating wetlands are seen. In a study extending over three years fast growing short rotation trees, eucalyptus (Eucalyptus hybrid), poplar (Populus deltoides), salix (Salix alba) and melia (Melia azedarach) were irrigated with domestic wastewater with ground water as control. It was seen that the calorific value of woody biomass grown using ground water was of the order 17.4-15.6MJ/kg and this was increased by 6.7 to 16% on wastewater irrigation. Thus, besides a significant increase in the yield biomass (2-4 times) there is a concurrent increase in the calorific value of wood, resulting in higher energy output by wastewater irrigation. TGA and FTIR of the samples did not show significant difference between waste water and ground water irrigated biomass. In the floating wetland study Canna indica was taken on floating rafts and the phytoremediation efficiency of the units was examined. Further the floating raft units were integrated with a constructed wetland to form a hybrid system to enhance the overall efficiency in water treatment. Changes in waste water characteristics with contact time were examined. Reduction in BOD and COD of waste water significant in 2-5 days of contact and this varies with the maturity and density of plants and roots. There is a significant reduction in bacterial load in terms of E. coli counts in parallel with BOD. Rate of reduction of contaminants is near first order. The dissolved oxygen (DO) levels increase with time.Various designs are discussed for ecosystem services in engineered wetlands for contaminated water treatment. Techniques such as Rhizo filtration, Constructed wetlands and Floating rafts are highlighted based on our experiments. Specifically, enhanced bioenergy production by domestic wastewater treatment in rhizo filtration by fast growing trees is discussed. In another set of experiments, designs and factors which can enhance the rate of pollutant removal from wastewater by floating wetlands are seen. In a study extending over three years fast growing short rotation trees, eucalyptus (Eucalyptus hybrid), poplar (Populus deltoides), salix (Salix alba) and melia (Melia azedarach) were irrigated with domestic wastewater with ground water as control. It was seen that the calorific value of woody biomass grown using ground water was of the order 17.4-15.6MJ/kg and this was increased by 6.7 to 16% on wastewater irrigation. Thus, besides a significant increase in the yield biomass (2-4 times) there is a concurr...

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湿地对污水处理的生态系统服务

讨论了用于污水处理的工程湿地生态系统服务的各种设计。在实验的基础上，重点介绍了Rhizo过滤、人工湿地和浮筏等技术。具体地说，通过快速生长树木根茎过滤处理生活废水来提高生物能源生产。在另一组实验中，发现了可以提高浮动湿地对废水中污染物去除率的设计和因素。在一项为期三年的速生短轮生树木研究中，用生活污水灌溉桉树(杂交桉树)、杨树(deltoides)、柳(salix alba)和苦楝(melia azedarach)作为对照。结果表明，地下水灌溉的木质生物质发热量为17.4 ~ 15.6 mj /kg，废水灌溉的发热量提高了6.7 ~ 16%。因此，除了产量显著增加(2-4倍)外，木材的热值也随之增加，从而通过废水灌溉产生更高的能量输出。样品的TGA和FTIR在地下水灌溉的生物量和废水灌溉的生物量之间没有显著差异。在漂浮湿地研究中，将美人蕉置于浮筏上，考察了各单元的植物修复效果。此外，浮筏单元与人工湿地相结合，形成一个混合系统，以提高水处理的整体效率。考察了废水特性随接触时间的变化。接触2-5天后，废水的BOD和COD显著降低，且随植物和根系的成熟度和密度而变化。就大肠杆菌数量而言，细菌负荷与生物需氧量平行显著减少。污染物的减少速度接近一级。溶解氧(DO)水平随着时间的推移而增加。讨论了用于污水处理的工程湿地生态系统服务的各种设计。在实验的基础上，重点介绍了Rhizo过滤、人工湿地和浮筏等技术。具体地说，通过快速生长树木根茎过滤处理生活废水来提高生物能源生产。在另一组实验中，发现了可以提高浮动湿地对废水中污染物去除率的设计和因素。在一项为期三年的速生短轮生树木研究中，用生活污水灌溉桉树(杂交桉树)、杨树(deltoides)、柳(salix alba)和苦楝(melia azedarach)作为对照。结果表明，地下水灌溉的木质生物质发热量为17.4 ~ 15.6 mj /kg，废水灌溉的发热量提高了6.7 ~ 16%。因此，除了产量显著增加(2-4倍)外，还有一个同步的…

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8TH BSME INTERNATIONAL CONFERENCE ON THERMAL ENGINEERING

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