RESEARCH ON CHLORELLA'S AMMONIA NITROGEN TREATMENT ABILITY AND BIOMASS PRODUCTION UNDER DIFFERENT pH CONDITIONS
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摘要: 针对目前沼液中高浓度氮氨氮对空气和水质的不良影响,探究在不同pH条件下小球藻对氨氮的处理能力以及生物质生产潜力。在初始ρ(NH3-H)为120~130mg/L,设置4组pH为6.5、7.5、8.5、9.5的模拟废水中培养小球藻。结果表明:pH为6.5~7.5时更适合氨氮的去除。随着pH值升高,pH>8.5时产生的高浓度游离氨对小球藻生长起主要抑制作用。基于藻细胞内叶绿素的积累,小球藻更偏好pH为6.5~8.5的实验环境。小球藻在pH=7.5时油脂产率达到最高为0.30 g/L/d,这与小球藻生长的适宜pH条件一致。综合考虑小球藻对氨氮的去除率及生长和油脂的积累情况,在利用小球藻处理沼液时,将pH控制在6.5~7.5区间内会更有利于氨氮的去除和废水的资源化利用。Abstract: Biogas slurry contains appreciable levels of nitrogen, particularly ammonia that can lead to potential air and water quality problems. In this study, the ammonia-nitrogen treatment capacity and biomass utilization potential of Chlorella was tested at different pH levels. Chlorella was cultivated in simulated wastewater at four different pH levels (6.5, 7.5, 8.5, 9.5) with initial ammonia nitrogen concentration in the range of 120~130 mg/L. The results showed that the removal of ammonia nitrogen was better at pH 6.5~7.5. When pH increased more than 8.5, high concentration of free ammonia had a major inhibitory effect on the growth of Chlorella. In terms of chlorophyll accumulation in algal cells, Chlorella preferred a pH range from 6.5 to 8.5. The highest lipid producitivity of Chlorella (0.30 g/L/d) was achieved at pH7.5, which was consistent with the suitable pH condition for Chlorella growth. It is proposed that controlling pH value between 6.5~7.5 would be conduciue for removal of ammonia nitrogen and wastewater recycling when using Chlorella to treat biogas slurry.
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Key words:
- Chlorella /
- ammonia nitrogen concentration /
- pH /
- biomass production
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