污泥生物炭制备吸附陶粒

以城市污泥热解产生的生物炭(BC)与高岭土(KL)为原料制备吸附陶粒(SKC),研究其对环丙沙星(CIP)的吸脱附性能,开展吸附动力学和等温吸附特性研究,结合形貌、孔结构、物相组成、表面电位探讨其吸附机制,利用TCLP法研究重金属浸出特征.结果表明BC与KL以6∶4的质量比混合造粒,经1 050℃烧结5 min得到的SKC对CIP有明显的吸附效果,去除率达65.34%;SKC对CIP的吸附符合二级动力学模型,在不同质量浓度下的吸附特性适用于Freundlich等温吸附模型,吸附过程同时存在物理和化学吸附.SKC具有良好的孔隙结构,物相组成以硅铝氧化物、铁氧化物和金属磷酸盐为主,既能降低重金属的浸出毒性又具有良好的CIP吸附去除效果,有望为处理废水中高浓度CIP提供一种低成本可回收的吸附材料,也为BC的规模化安全利用提供了新思路.     

Comparison of quartz sand, anthracite, shale and biological ceramsite for adsorptive removal of phosphorus from aqueous solution

The choice of substrates with high phosphorus adsorption capacity is vital for sustainable phosphorus removal from waste water in constructed wetlands. In this study, four substrates were used： quartz sand, anthracite, shale and biological ceramsite. These substrate samples were characterized by X- ray diffractometry and scanning electron microscopy studies for their mineral components （chemical components） and surface characteristics. The dynamic experimental results revealed the following ranking order for total phosphorus （TP） removal efficiency： anthracite 〉 biological ceramsite 〉 shale 〉 quartz sand. The adsorptive removal capacities for TP using anthracite, biological ceramsite, shale and quartz sand were 85.87, 81.44, 59.65, and 55.98 mg/kg, respectively. Phosphorus desorption was also studied to analyze the substrates＇ adsorption efficiency in wastewater treatment as well as the substrates＇ ability to be reused for treatment. It was noted that the removal performance for the different forms of phosphorus was dependent on the nature of the substrate and the adsorption mechanism. A comparative analysis showed that the removal of particulate phosphorus was much easier using shale. Whereas anthracite had the highest soluble reactive phosphorus （SRP） adsorptive capacity, biological ceramsite had the highest dissolved organic phosphorus （DOP） removal capacity. Phosphorus removal by shale and biological ceramsite was mainly through chemical adsorption, precipitation or biological adsorption. On the other hand, phosphorus removal through physical adsorption （electrostatic attraction or ion exchange） was dominant in anthracite and quartz sand.     

粉煤灰免烧陶粒制备及其重金属废水净化性能

摘要重金属废水对环境的污染已经引起科研人员的广泛关注。以粉煤灰和水泥为原料、添加活性成分FeS，制备一种免烧陶粒用于含重金属Cu2＋、Zn2＋、Pb2＋的废水处理。探讨了物料配比及蒸养时间对陶粒筒压强度及其比表面积的影响；研究了固液比、接触时间、pH、温度及初始溶液浓度等因素对Cu2＋、Zn2＋、Pb2＋离子净化效果的影响规律，并对实验结果进行了等温线拟合。XRD分析显示，免烧陶粒中存在Ca（OH）2、C—D—H、FeS等矿物相，对重金属离子具有非常好的固定化作用。该免烧陶粒对重金属离子具有很好的去除效果，具备较好的应用前景。     

人工湿地常用生物陶粒基质LDHs覆膜改性及其除磷效果研究

分别利用3种二价金属化合物和3种三价金属化合物,采用水热共沉淀法在碱性条件下对人工湿地中常用的生物陶粒基质进行层状双金属氢氧化物(LDHs)覆膜改性,并将9种不同类型的LDHs覆膜改性生物陶粒基质和普通生物陶粒基质分别填充于10个垂直流人工湿地模拟实验柱中,进行除磷净化实验.结果表明,9种不同类型的改性生物陶粒基质均能有效提高磷素的净化效果;Zn系LDHs改性生物陶粒对总磷、溶解性总磷、磷酸盐均有很好的处理效果,其中Zn Fe-LDHs、Zn Co-LDHs和Zn Al-LDHs对总磷的平均去除率均在92%以上,对溶解性总磷和磷酸盐的平均去除率均超过95%;其对磷素的净化机理主要集中于物理化学作用,同时还应与其对微生物生长的促进作用有关.     

Diversity of methanotrophs in a simulated modified biocover reactor

A simulated landfill biocover microcosm consisting of a modifying ceramsite material and compost were investigated. Results show that the mixture can improve the material porosity and achieve a stable and highly efficient (100%) methane oxidation over an extended operating period. The diversity of the methanotrophic community in the microcosm was assessed. Type I methanotrophs were enhanced in the microcosm due to the increased air diffusion and distribution, whereas the microbial diversity and population density of type II methanotrophs were not significantly affected. Moreover, the type I methanotrophic community structure significantly varied with the reactor height, whereas that of type II methanotrophic communities did not exhibit a spatial variation. Phylogenetic analysis showed that type I methanotroph-based nested polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) resulted in the detection of eight different populations, most of which are related to Methylobacter sp., whereas that of type II resulted in the detection of nine different populations, most of which are related to Methylocystaceae. Methanotrophic community analysis also indicated that a number of new methanotrophic genera not closely related to any known methanotrophic populations were present.     

3种人工湿地基质材料对氨氮的吸附特性

对陶粒、石英砂和砾石这3种人工湿地基质材料进行了氨氮（NH₄⁺-N）吸附特性研究.通过扫描电镜和BET比表面积分析仪对材料进行表征分析,发现陶粒表面相比石英砂和砾石更为粗糙,内部孔隙也较发达,陶粒（18.97 m²·g^-1）比表面积高于石英砂和砾石.在纯氨氮溶液和模拟污水厂出水一级B标准的混合溶液中,3种基质对NH₄⁺-N的吸附能力均表现为：陶粒>砾石>石英砂.陶粒对NH₄⁺-N的饱和吸附容量在混合溶液中最大（63.55 mg·g^-1）.陶粒对NH₄⁺-N的吸附过程符合伪二级动力学模型（在纯氨氮溶液中R²为0.99、在混合溶液中R²为0.98）.在纯氨氮溶液中运用Freundlich和Langmuir模型对等温吸附试验结果进行拟合,发现Freundlich模型（R²=0.93）描述陶粒的吸附特性比Langmuir模型更为精确（R²为0.93）,表明陶粒对NH₄⁺-N的吸附为多层吸附.综上所述,陶粒的吸附容量较强,在混合溶液中吸附容量较纯氨氮溶液增大了31%,适用于作为人工湿地基质填料.     

粉煤灰多孔陶粒在水处理中的应用研究

研究采用电厂的粉煤灰为主要原料制备多孔陶粒,分别将其用作水处理中的微生物载体和吸附剂。挂膜结果表明:COD、氨氮这两项指标的出水基本稳定,去除率高。用多孔陶粒作吸附剂处理含铬废水时,等温吸附实验表明,多孔陶粒吸附水中的铬的等温方程基本符合Langmiur等温方程式,在pH值为酸性时对铬的去除率较高。用HCl和NaOH溶液再生多孔陶粒,酸的效果更好。     

生物陶粒——硅藻土联合工艺脱氮除磷

试验采用硅藻土和生物接触氧化组合工艺处理污水处理厂出水,氨氮从10mg／L下降到0．5mg／L以下,去除率70～95％;硅藻土澄清池对总磷的去除率高于95％;且对浊度、色度均有良好的去除效果。     

沸石悬浮填料生物移动床的亚硝化特性

本研究以沸石为重要原料研制新型沸石悬浮填料,并将其用于启动沸石悬浮填料移动床反应器(ZMBBR),与装填普通陶粒的陶粒悬浮填料移动床(CMBBR)对比考察其亚硝化性能.结果表明:通过游离氨(FA)抑制的方法快速实现两种反应器的稳定亚硝化,两个反应器出水亚硝酸氮积累率均能达到90％以上;沸石对铵离子的吸附解吸作用使ZMB...     

轻质陶粒滤料生态滤床的挂膜与启动研究

以自行设计的反应器作为生态滤床的基础,采用活性污泥作为接种污泥,采用轻质陶粒作为生态滤床的滤料,对其进行挂膜.在整个挂膜过程中,温度控制在中温条件下,进水pH值控制在7左右,水力停留时间为24 h,进水方式为连续进水,并根据需要对曝气量进行调节.在挂膜过程中对进、出水的COD、NH_3-N、TP、Cl~-和pH进行检测,并刮取少量轻质陶粒上的生物膜制成镜检切片后用多媒体显微镜对生物膜的形态进行观察.研究结果表明,在中温条件下采用活性污泥作为接种污泥,以轻质陶粒为滤料的生态滤床在15 d内挂膜成功;且随着进水污染负荷的提高,其去除率也逐渐提高,其中COD的去除率最后稳定在95%左右,NH3-N的去除率稳定在85%左右,TP的去除率在挂膜后期达到了80%以上;Cl~-作为微生物所需的微量元素在微生物生长高峰期为50%,稳定期保持在20%左右;进水pH保持在7左右,出水pH略高于进水,在8左右;从第13 d和第15 d的切片可观察到轮虫这种象征生物膜成熟的微生物的出现,此外还有大量的丝状菌和菌胶团.