厌氧消化废水中水葫芦的生长

K.K. Moorhead , D.A. Graetz, K.R. Reddy
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引用次数: 6

摘要

以含15n标记水葫芦为原料的厌氧沼气池稀释后和未稀释后的出水为研究对象,对水葫芦的生长特性和N同化进行了评价。稀释后的废水是一种极好的植物生长介质,并导致高干重增加。当初始NH4N浓度为65 mg l−1,电导率(EC)为1.6 dSm−1时,植物干重的最高增益(18 gm−2 day−1)被注意到。在六种未稀释的废水中,有四种植物死亡。用一级动力学速率常数(0.175 ~ 0.593 d−1)描述了废水中铵的损失。植物对15NH4N的同化在稀释后的废水中为36%至66%,在未稀释的废水中为2%至77%。植物存活并不完全依赖于NH4N浓度或出水EC。
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Water hyacinth growth in anaerobic digester effluents

Growth characteristics and N assimilation of water hyacinth (Eichhornia crassipes [Mart] solms) were evaluated for diluted and undiluted effluents from anaerobic digesters containing 15N-labeled water hyacinth as feedstock. The diluted effluents were an excellent growth media for plants and resulted in high dry weight gains. The highest gain in plant dry weight (18 gm−2 day−1) was noted for the diluted effluent having an initial NH4N concentration of 65 mg liter−1 and an electrical conductivity (EC) of 1·6 dSm−1. Plant death was observed in four of the six undiluted effluents. Ammonium loss from the effluents was described with first-order kinetic rate constants which ranged from 0·175 to 0·593 day−1. Plant assimilation of 15NH4N ranged from 36 to 66% in diluted effluents and from 2 to 77% in undiluted effluents. Plant survival was not dependent entirely on NH4N concentrations or EC of the effluents.

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