Vertical Flow Constructed Wetland for Treatment of Nitrogen Under Mesocosm Level Phragmites and Calamus Ecosystem of Gomutra

Parag Dalal
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引用次数: 1

Abstract

This Vertical Flow Constructed Wetland (VFCW) system was evaluated for removal efficiency of Ammonium Nitrogen and Nitrate Nitrogen from Gomutra collected from cowsheds of Ujjain. The VFCW of mesocosm scale had a rectangular size and covered an effective area of 1.88 m 2 with a water retention capacity of 0.206 m 3. Two such units were combined together in series for better treatment performance. The VFCW was fabricated in a Reinforced Concrete Cement (RCC) tank below the ground level. The filter media was composed of coarse river sand supported below by coarse Gravel. Three sets were fabricated out of which – The first set was initially planted with locally available grass Phragmites; Second set was planted with Calamus at the rate of 10-12 plants per sq. m. Third set no plantation was there and considered as control. In all the three sets, inlet and outlet arrangements were placed at top and bottom of the RCC tank respectively. The diluted Gomutra (1:4) was kept in dosing tank and allowed to pass through the VFCW; treated effluent was collected from each outlet. Phragmites bed NH 4 –N and NO 3 -N gets reduced by 71.6% and 51.96% respectively from inlet to outlet. Calamus bed causes a maximum reduction of 75.58% of NH 4 –N from inlet to outlet and for NO 3 –N it shows a reduction of 80.35% from inlet to outlet. The control reduces NH 4 –N by 13.94% and NO 3 –N by 14.28% from inlet to outlet. The VFCW results established that This system is highly efficient for Gomutra treatment. Calamus bed system is most efficient in treatment of Gomutra in comparison to all three systems.
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垂直流人工湿地处理中生态层氮的研究
研究了垂直流人工湿地(VFCW)系统对乌贾因牛棚中Gomutra中铵态氮和硝态氮的去除效果。中尺度VFCW呈矩形,有效面积为1.88 m2,保水能力为0.206 m2。两个这样的单元串联在一起以获得更好的处理性能。VFCW是在地面以下的钢筋混凝土水泥(RCC)罐中制作的。滤料由粗河砂组成,下面由粗砾石支撑。制作了三套-第一套最初种植了当地可用的芦苇;第二组以每平方10-12株的速度种植菖蒲。m.第三组没有种植园,被认为是控制区。在所有三组中,进口和出口分别位于碾压混凝土罐的顶部和底部。将稀释后的Gomutra(1:4)保存在加药罐中,让其通过VFCW;从每个出口收集处理过的污水。芦苇床层nh4 -N和no3 -N从进口到出口分别降低了71.6%和51.96%。菖蒲床从进口到出口最大减少了75.58%的nh4 -N,从进口到出口最大减少了80.35%的no3 -N。从入口到出口,控制使nh4 -N减少13.94%,no3 -N减少14.28%。VFCW结果表明,该系统对Gomutra的治疗是高效的。菖蒲床系统是最有效的治疗Gomutra三种系统的比较。
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