序批式/连续流好氧颗粒污泥技术
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联系合作 
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查看详情所在单位情况:北京化工大学环境工程系
研究领域:污水处理厂运行
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核心问题
传统废水处理技术存在占地面积大、处理效率低、污泥产率高、抗冲击能力弱、难以实现脱氮除磷等痛点问题,尤其在工业废水及市政污水处理原位提标扩容改造及新建项目中,对高效、稳定、集约的处理技术需求迫切。
解决方案
该成果基于好氧颗粒污泥技术,在生物池中以市政污水或工业废水为进水基质,以絮状活性污泥为接种污泥,通过单周期A/O/A(厌氧-好氧-缺氧)运行方式和逐步增加体积交换比,实现好氧颗粒污泥的快速培养。整个过程包括污泥接种驯化、好氧颗粒污泥形成及稳定运行三个阶段,最终形成结构致密、沉降性能好、脱氮除磷能力强、污泥浓度高、污泥产率低、抗冲击能力强的圆形或椭圆形好氧颗粒污泥。
竞争优势
该技术无需添加任何载体,通过微生物相、EPS及有机和无机离子的物理、化学和生物力相互作用形成颗粒污泥,具有创新性;其结构致密、沉降性能好、脱氮除磷能力强、污泥浓度高、污泥产率低、抗冲击能力强,且占地面积小,集不同性质微生物于一体,在工业废水及市政污水处理领域具有显著效益和竞争优势;技术已处于产业化阶段,应用前景广阔。
成果公开日期
2019050100:00:00
摘要
好氧微颗粒污泥作为一种新型生物废水处理技术,在形成过程中没有添加任何载体,由各种微生物相、EPS及有机和无机离子通过物理、化学和生物力相互作用而成,呈圆形或椭圆形。其结构致密、沉降性能好、脱氮除磷能力强、污泥浓度高、污泥产率低、抗冲击能力强、占地面积小,集不同性质微生物(好氧,厌氧,兼氧)于一体,在工业废水及市政污水处理原位提标扩容改造及新建项目得到广泛应用。本成果涉及好痒颗粒污泥技术在生物池以市政污水或工业废水作为进水基质,以絮状活性污泥作为接种污泥,通过单周期A/0/A(厌氧-好氧-缺氧)运行方式和逐步增加体积交换比,快速培养出稳定的好氧颗粒污泥。整个过程包括污泥接种驯化、好氧颗粒污泥形成,好氧颗粒污泥稳定运行阶段。
