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微生物对芦苇人工湿地除磷影响研究 总被引:2,自引:0,他引:2
以上海梦清园人工芦苇湿地为对象,在微生物制剂使用的同时研究了微生物对湿地除磷效果的影响。经过对近一年的数据分析表明,微生物的增加使总磷平均去除率达到20.9%,高于空白的18.3%。微生物的磷酸化作用使得出水磷更多以磷酸根形式表达,甚至使磷酸盐含量不降反升。底泥监测表明,微生物制剂的加入能有效的促进浮泥层中磷的转移,减缓浮泥层中磷的积累,10个月后试验组浮泥层的磷含量相对空白对照组可降低10%以上,菌剂对于减缓磷的积累,促进磷向基质转移有重要意义。 相似文献
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氮、磷在湿地基质中降解的机理研究 总被引:1,自引:0,他引:1
湿地基质被看成是人工湿地处理污水的核心部分,通过科学实验,文章分析了人工湿地运行中氮、磷在沿程方向和纵向的基质中的分布,重点研究湿地基质对于氮、磷的净化作用,有利于进一步理清湿地基质降解氮、磷的机理。 相似文献
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城市污水除磷技术发展 总被引:8,自引:4,他引:8
磷是水体富营养化的一个主要限制因素,控制出水中磷的浓度尤其重要。污水除磷方法有生物除磷、化学除磷及生态除磷,也可将各种方法组合使用,如生物一化学除磷、生物一生态除磷等,实际应用中应根据具体情况选择适宜的除磷方法。 相似文献
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Shawn E. Rosenquist W. Cully Hession Matthew J. Eick David H. Vaughan 《Journal of the American Water Resources Association》2011,47(4):800-812
Rosenquist, Shawn E., W. Cully Hession, Matthew J. Eick, and David H. Vaughan, 2011. Field Application of a Renewable Constructed Wetland Substrate for Phosphorus Removal. Journal of the American Water Resources Association (JAWRA) 47(4):800‐812. DOI: 10.1111/j.1752‐1688.2011.00557.x Abstract: Phosphorus (P) is typically the best target to prevent eutrophication in freshwater, a biological process associated with water quality degradation. Constructed wetlands (CW) and other practices that include P removal by sorption processes in substrates can provide economical treatment of stormwater, but have limitations (e.g., large land requirements, loss of removal over time, lack of P recovery). Over the last three years, a multi‐study research program addressed these limitations with a new P management concept. This concept minimizes CW size with a rejuvenation cycle (or rejuvenation) that renews P‐sorption capacity in the CW substrates and enables P recovery for productive use. This study, conducted in Blacksburg, Virginia (July‐September 2009), tested the efficacy of rejuvenation in the field. Methods included replicate cells of two sand substrates monitored for P removal during prerejuvenation and postrejuvenation filtration runs. One substrate contained cast iron filings as a repository for sorption capacity. Results support the following conclusions: (1) P removal is likely dependent on multiple factors including influent P concentration, previous substrate/solution equilibrium, pH, and time; (2) rejuvenation is capable of releasing P adsorbed during stormwater filtration; (3) inclusion of cast iron in substrate promotes additional P removal and enables further removal after rejuvenation; but (4) inclusion of cast iron may limit release of P during rejuvenation. 相似文献
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钢渣吸附除磷性能的试验研究 总被引:9,自引:0,他引:9
研究了钢渣的吸附除磷效果并进行机理探讨。结果表明:钢渣采用0.5g,即可在25℃下、2个小时内,将100ml的磷浓度为10mg/L(以磷计)的模拟含磷废水的磷浓度降至0.5mg/L以下,达到磷的国家一级排放标准;钢渣吸附平衡时问为2小时;钢渣吸附除磷的机理主要是沉淀、吸附(表面络合反应),并辅以静电作用。 相似文献