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李鲁丹, 胡征宇, 刘国祥. 毛枝藻对人工污水脱氮除磷能力的研究[J]. 水生生物学报, 2019, 43(1): 205-212. DOI: 10.7541/2019.025
引用本文: 李鲁丹, 胡征宇, 刘国祥. 毛枝藻对人工污水脱氮除磷能力的研究[J]. 水生生物学报, 2019, 43(1): 205-212. DOI: 10.7541/2019.025
LI Lu-Dan, HU Zheng-Yu, LIU Guo-Xiang. STUDY ON THE REMOVAL ABILITY OF NITROGEN AND PHOSPHORUS FROM STIGEOCLONIUM SPP.[J]. ACTA HYDROBIOLOGICA SINICA, 2019, 43(1): 205-212. DOI: 10.7541/2019.025
Citation: LI Lu-Dan, HU Zheng-Yu, LIU Guo-Xiang. STUDY ON THE REMOVAL ABILITY OF NITROGEN AND PHOSPHORUS FROM STIGEOCLONIUM SPP.[J]. ACTA HYDROBIOLOGICA SINICA, 2019, 43(1): 205-212. DOI: 10.7541/2019.025

毛枝藻对人工污水脱氮除磷能力的研究

STUDY ON THE REMOVAL ABILITY OF NITROGEN AND PHOSPHORUS FROM STIGEOCLONIUM SPP.

  • 摘要: 文章探究了2株毛枝藻(Stigeoclonium sp.)SHY-370及HB1617在不同初始氨氮浓度以及不同氮磷比条件下的生长情况与氮磷去除能力。结果表明氨氮浓度对2株毛枝藻的生长及TP去除能力均有一定的影响, SHY-370可耐受最大氨氮浓度为10 mg/L, HB1617为5 mg/L; 氨氮浓度为1—10 mg/L时SHY-370及HB1617对其去除率均达到97%以上, 最大去除速率为3.98 mg/(L·d)。氮磷比对SHY-370的生长影响不大, 但在氮磷比大于20时HB1617的生长受到抑制; SHY-370对 \rmNO_3^ – -N去除的最佳氮磷比为10—40, HB1617为2—10; 氮磷比为2时水体中TP的含量超过了SHY-370及HB1617所能去除的最大值, 去除率较低。实验结果表明SHY-370及HB1617在污水深度脱氮除磷方面具有一定的潜力, 可考虑将其应用于城市生活污水二级出水(TN≤15 mg/L、TP≤0.5 mg/L、 \rmNH_4^ + -N≤5 mg/L)的深度处理。

     

    Abstract: In this study, we explored the ability to remove nitrate and phosphorus of two strains of Stigeoclonium spp. (SHY-370 and HB1617) by setting different initial concentrations of ammonia nitrogen and nitrogen/ phosphorus (N/P) ratios in synthetic wastewater. The results indicated that different initial concentrations of ammonia nitrogen in synthetic wastewater could affect the biomass concentration and the ability to remove N and P of SHY-370 and HB1617. The maximum ammonia nitrogen concentration in synthetic wastewater that SHY-370 can tolerate was 10 mg/L, while that was 5 mg/L for HB1617. The ammonia-nitrogen removal rate of SHY-370 and HB1617 was above 97% and the maximum daily ammonia-nitrogen removal rate was 3.98 mg/L/d, while the initial concentration of ammonia nitrogen in synthetic wastewater varied between 1-10 mg/L. N/P ratios had a slight impact on the biomass concentration of the SHY-370, however, the biomass concentration of HB1617 was reduced when the corresponding rate was over 20 mg/L. The concentration of total phosphorus (TP) in synthetic wastewater was 10 mg/L. When the N/P ratio was 2, the content of TP in synthetic wastewater was higher than 10 mg/L, which led to a low TP removal rate. According to the results of our study, we can conclude that SHY-370 and HB1617 are appropriate for the treatment of urban sewage in which the concentration of ammonia nitrogen is relatively low, whereas the concentration of TP and NO3-N is relatively high.

     

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