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CAST工艺高温短程硝化的实现及其除磷性能 总被引:1,自引:1,他引:0
以模拟废水为研究对象,考察了22、25、28℃这3个温度下CAST反应器内短程硝化的实现及其除磷性能.结果表明,不同温度下系统的TN去除均稳定在80%以上,且NH_4~+-N去除良好.当温度为22℃和25℃时系统内未观察到亚硝积累,除磷率为94. 3%和86. 9%,升高温度至28℃,反应器内亚硝积累率为87. 2%,实现稳定的短程硝化.此外,高温短程硝化阶段(28℃),系统释、吸磷能力较22℃和25℃均有所下降,且厌氧段释磷量/COD消耗量(P/C)比明显低于前两个阶段.然而,该温度条件下反应器除磷性能并未恶化,除磷率为68. 9%,说明进水碳源充足不仅能保证CAST工艺对TN的去除,同时可用于解毒NO_2~-以减弱其对聚磷菌的抑制.不同温度条件下的污泥吸磷小试发现,O_2、NO_3~-、NO_2~-均可作为电子受体进行吸磷,其中好氧吸磷速率高于以NO_3~-和NO_2~-为电子受体的反硝化吸磷速率,且以O_2和NO_3~-为电子受体的吸磷速率与温度呈负相关. 相似文献
297.
以普通小球藻FACHB-25为研究对象,利用常压室温等离子体在不同功率条件下对其诱变处理,在功率100W、120W条件下筛选出3株优势藻株,依次编号为S100-7、S120-4、S120-9.其中S120-9藻株培养末期生物量增加明显且多糖产量是原始藻株产量的1.34倍,达到237.98mg/L;S120-4碳水化合物含量占比为37.55%,较原始藻株提高了43.48%.对比了各藻株在光合性能、细胞组分以及细胞形态等方面差异.通过同步糖化发酵(SSF),碳水化合物含量最高的S120-4藻株乙醇产量达到1.58g/10g藻,但其生物量积累受到限制.考虑生物量积累情况,推算出S120-9藻株单位体积藻液乙醇产量最高达到0.1033g/L. 相似文献
298.
Microcosmic experiments were performed under a simulated marine environment to investigate the natural attenuation of C9 aromatics using nine components (propylbenzene, isopropylbenzene, 2-ethyltoluene, 3-ethyltoluene, 4-ethyltoluene, 1,2,3-trimethylbenzene, 1,2,4-trimethylbenzene, 1,3,5-trimethylbenzene, and indene). This research aims to assess the contribution of biodegradation and abiotic activity to total attenuation of C9 aromatics and ascertain the changes in the comprehensive toxicity of seawater in the natural environment. The process of natural attenuation indicates the agreement with pseudo-first-order kinetics for all nine components in microcosmic experiments. The half-lives of the nine main compounds in C9 aromatics ranged between 0.34 day and 0.44 day under optimal conditions. The experiments showed that the natural attenuation of nine aromatic hydrocarbons mainly occurred via abiotic processes. Seawater samples significantly inhibited the luminescence of P. phosphoreum (the luminescence inhibition ratio reached 100%) at the beginning of the experiment. In addition, the toxicity declined slowly and continued for 25 days. The attenuation kinetics and changes in toxicity could be applied to explore the natural attenuation of C9 aromatics in the marine environment. 相似文献
299.
Junling Li Hong Li Xuezhong Wang Weigang Wang Maofa Ge Hao Zhang Xin Zhang Kun Li Yan Chen Zhenhai Wu Fahe Chai Fan Meng Yujing Mu Abdelwahid Mellouki Fang Bi Yujie Zhang Lingyan Wu Yongchun Liu 《环境科学学报(英文版)》2021,33(4):185-197
Understanding the formation mechanisms of secondary air pollution is very important for the formulation of air pollution control countermeasures in China. Thus, a large-scale outdoor atmospheric simulation smog chamber was constructed at Chinese Research Academy of Environmental Sciences (the CRAES Chamber), which was designed for simulating the atmospheric photochemical processes under the conditions close to the real atmospheric environment. The chamber consisted of a 56-m3 fluorinated ethylene propylene (FEP) Teflon film reactor, an electrically-driven stainless steel alloy shield, an auxiliary system, and multiple detection instrumentations. By performing a series of characterization experiments, we obtained basic parameters of the CRAES chamber, such as the mixing ability, the background reactivity, and the wall loss rates of gaseous compounds (propene, NO, NO2, ozone) and aerosols (ammonium sulfate). Oxidation experiments were also performed to study the formation of ozone and secondary organic aerosol (SOA), including α-pinene ozonolysis, propene and 1,3,5-trimethylbenzene photooxidation. Temperature and seed effects on the vapor wall loss and SOA yields were obtained in this work: higher temperature and the presence of seed could reduce the vapor wall loss; SOA yield was found to depend inversely on temperature, and the presence of seed could increase SOA yield. The seed was suggested to be used in the chamber to reduce the interaction between the gas phase and chamber walls. The results above showed that the CRAES chamber was reliable and could meet the demands for investigating tropospheric chemistry. 相似文献
300.
Isolation and characterization of a strain with high microbial attachment in aerobic granular sludge
Tingting Zhao Kai Qiao Lei Wang Wei Zhang Wei Meng Fan Liu Xu Gao Jianrong Zhu 《环境科学学报(英文版)》2021,33(8):194-203
Aerobic granule is a special microbial aggregate associated with biofilm structure. The formation of aerobic granular sludge is primarily depending on its bacterial community and relevant microbiological properties. In this experiment, a strain with high microbial attachment was isolated from aerobic granular sludge, and the detailed characteristics were examined. Its high attachment ability could reach 2.34 (OD600nm), while other low attachment values were only around 0.06-0.32, which indicated a big variation among the different bacteria. The strain exhibited a very special morphology with many fibric fingers under SEM observation. A distinctive behaviour was to form a spherical particle by themselves, which would be very beneficial for the formation and development of granular sludge. The EPS measurement showed that its PN content was higher than low attachment bacteria, and 3D-EEM confirmed that there were some different components. Based on the 16S rRNA analysis, it was identified to mostly belong to Stenotrophomonas. Its augmentation to particle sludge cultivation demonstrated that the strain could significantly promote the formation of aerobic granule. Conclusively, it was strongly suggested that it might be used as a good and potential model strain or chassis organism for the aerobic granular sludge formation and development. 相似文献