EDTA对生物转鼓的NO废气净化效率的影响

生物转鼓过滤器(Rotating Drum Biofilter,RDB)是一种能有效净化氮氧化物废气的新型生物反应器,但在之前的实验发现,由于NO在液相中的低溶解度降低了NO在RDB中的传质效果,从而影响其去除效率。改善气液传质速率是整个反硝化降解NO过程的关键步骤,实验用CuⅡ(EDTA)、ZnⅡ(EDTA)、MgⅡ(EDTA)和FeⅡ(EDTA)等络合剂添加到营养液中,利用NO能与络合剂结合的原理,使得NO能快速溶于液相,从而使NO去除效率由原来平均85%提高到98%。     

Removal of odors and VOCs in municipal solid waste comprehensive treatment plants using a novel three-stage integrated biofilter: Performance and bioaerosol emissions

• TSIBF was composed of ABRS, FRS and HBRS. • THIBF can effectively remove various odors, VOCs and bioaerosols. • Different reaction segments in TSIBF can remove different types of odors and VOCs. • TSIBF can reduce the emission of bioaerosols through enhanced interception. A novel three-stage integrated biofilter (TSIBF) composed of acidophilic bacteria reaction segment (ABRS), fungal reaction segment (FRS) and heterotrophic bacteria reaction segment (HBRS) was constructed for the treatment of odors and volatile organic compounds (VOCs)from municipal solid waste (MSW) comprehensive treatment plants. The performance, counts of predominant microorganisms, and bioaerosol emissions of a full-scale TSIBF system were studied. High and stable removal efficiencies of hydrogen sulfide, ammonia and VOCs could be achieved with the TSIBF system, and the emissions of culturable heterotrophic bacteria, fungi and acidophilic sulfur bacteria were relatively low. The removal efficiencies of different odors and VOCs, emissions of culturable microorganisms, and types of predominant microorganisms were different in the ABRS, FRS and HBRS due to the differences in reaction conditions and mass transfer in each segment. The emissions of bioaerosols from the TSIBF depended on the capture of microorganisms and their volatilization from the packing. The rational segmentation, filling of high-density packings and the accumulation of the predominant functional microorganisms in each segment enhanced the capture effect of the bioaerosols, thus reducing the emissions of microorganisms from the bioreactor.     

管式生物过滤器去除乙苯废气

生物过滤由于其良好的成本效益和环境友好性已经成为控制挥发性有机化合物(VOCs)含量和气味气体排放的常规技术。营养物质的均匀分布、生物膜和介质床内的气体流是成就一个性能优良的生物过滤器至关重要的因素。而由本实验室开发的管式生物过滤器(TBFs)已被证明具备此优势。本实验的管式生物过滤器以聚氨酯海绵作为填料,研究在不同有机负荷、气体停留时间(EBCT)、进气量和表面活性剂等条件下乙苯废气的去除效率(RE)。实验同时记录了管式生物过滤器启动阶段的表现。初期使附着在填料上的微生物暴露在浓度为40 mg/m3的乙苯废气中40 d,此时的气体停留时间为15 s,使微生物慢慢适应并逐步降解乙苯废气;然后连续地控制管式生物过滤器的入口乙苯浓度为40、80、120和160 mg/m3,以使有机负荷逐步升高。结果表明,乙苯去除效率随着有机负荷的增大而逐步减小。当气体停留时间从15 s增加到30 s和60 s,而有机负荷控制在38.60 g/(m3·h)时,乙苯废气去除效率略微增加。此外,随着进气量的增大乙苯废气的最大平均去除效率有所下降而此时的降解容量增大,这个过程中乙苯进气浓度保持不变。结果还表明,在营养液中加入聚乙二醇辛基苯基醚这种表面活性剂可以提高乙苯废气的去除效率。     

多层生物滤塔净化硫化氢废气研究

以木屑为填料,采用多层生物滤塔净化H2S气体,研究其适宜的工艺条件及生物降解宏观动力学.结果表明,填料分层可提高H2S去除率,当进气容积负荷＜153.2 g H2S/(m3·d)时,H2S的去除率保持在90%以上;进气浓度低于70 mg/m3,下层200mm填料对H2S总去除率的贡献在50%以上;填料含水率为50%～6...     

两种大型海藻自然环境下的营养动力学研究

在室外条件下,对菊花江蓠(Gracilaria lichenoides)及龙须菜(G.Lemaneiformis)的N、P吸收动力学及生长动力学进行了研究.两海藻对NO3-N、NH4-N及PO4-P的最大吸收速率(Vmax)分别为55.88、35.17 μmol/(g·h)、3.106 μmol/(g·h)和53.17、32.24 、3.064 μmol/(g·h);半饱和常数(Ks)分别为7.762、3.414 、0.222 μmol/L和6.331、2.345、0.110 μmol/L,两海藻对N营养的竞争能力相似;从生长动力学结果看:菊花江蓠N、P的最大生长浓度为60 和30 μmol/L,龙须菜为100和40 μmol/L.     

生物膜法处理挥发性有机化合物技术

综述了生物法有机废气处理技术的国内外研究现状,介绍了生物膜法处理VICs的装置及工艺流程。重点讨论了生物滤池和生物滴滤池在设计和运行中存在的问题及填料、生物量、湿度、pH和营养物质等主要影响因素。     

Anaerobic ammonium oxidation for advanced municipal wastewater treatment: is it feasible?

Anaerobic ammonium oxidation（ANAMMOX） is a recently developed process to treat ammonia-rich wastewater. There were numerous articles about the new technology with focus on the ammonium-rich wastewater treatment, but few on advanced municipal wastewater treatment. The paper studied the anaerobic ammonium oxidation （ANAMMOX） process with a down flow anoxic biofilter for nitrogen removal from secondary clarifier effluent of municipal wastewater with low COD/N ratio. The results showed that ANAMMOX process is applicable to advanced wastewater treatment with normal temperature as well as ammonia-rich high temperature wastewater treatment. The results indicated that ammonia removal rate was improved by raising the nitrite concentration, and the reaction rate reached a climax at 118.4 mgN/L of the nitrite nitrogen concentration. If the concentration exceeds 118.4 mgN/L, the ANAMMOX process was significantly inhibited although the ANAMMOX bacteria still showed a relatively high reactivity. The data also indicated that the ratio of NO2^- -N：NH4 ＊ -N = 1.3：1 in the influent was appropriate for excellent nitrogen removal. The pH increased gradually along the ANAMMOX biofilter reactor. When the ANAMMOX reaction was ended, the pH was tend to calm. The data suggested that the pH could be used as an indicator to describe the course of ANAMMOX reaction.     

甲苯废气的生物膜法净化处理研究

采用国内现有微生物菌种挂膜接种的生物膜填料塔净化低浓度有机废气是可行的。初步实验研究结果表明,增加口气体甲苯浓度和气体流量,同时减小循环液体喷淋量,可使甲苯的生经去除量增大,每Ｌ体积的生物膜填料对甲苯的生化去除量最大可达１５７．１３ｍｇ／ｈ。     

间歇曝气-内循环生物滤池效能及生物膜特性

针对间歇曝气耦合内循环生物滤池的强化脱氮作用机制尚不明确的问题,探究了反应器沿程污染物去除特性,运用多项测试手段解析系统沿程生物量、生物活性、硝化及反硝化速率,并对反应器内沿程微生物种群特性进行分析.试验结果表明:沿程类蛋白荧光强度逐渐减弱,最终出水并未检测到类蛋白峰;反应器沿程10～50cm区段NH4+-N的降低并没...     

高负荷生物滤池处理城市污水研究进展

高负荷生物滤池中试研究在城市污水处理厂内进行,进水BOD5为 118mg L。水力负荷在 10～ 2 6m3/m2 ·d的范围内对去除率有着十分显著的影响。在水力负荷HL =10m3/m2 ·d的操作条件下,该反应器对BOD5的去除率平均达到 80 %。通过实验观察发现,基于水力负荷的设计方程可以很好的反映BOD5的浓度