SBR无厌氧段实现生物除磷

研究了SBR在模拟城市生活污水处理中的除磷效果.结果表明, SBR在进水后未经过传统除磷理论认为所必须的厌氧段而直接好氧曝气,废水中磷的浓度仍下降较快.在曝气时间为4h,进水COD浓度为400mg·L-1左右,反应过程中pH值7.0±0.2时,进水中TP浓度由15-20mg·L-1降到1mg·L-1以下,磷的去除效率达到90%以上.反应过程中传统的储能物质多β-羟基烷酸盐(PHA)基本保持不变且含量较低(PHA浓度在5mg·L-l左右),聚合磷酸盐(聚磷)在4h好氧阶段呈先下降后上升的趋势(好氧开始时聚磷含量为83.034mg· g-1,好氧1h时污泥中聚磷含量为79.980mg·g-1,好氧结束时聚磷含量为83.086mg·g-1),在0.5h沉淀和3.5h静置期内聚磷没有明显的水解现象.此研究表明在无厌氧段、无PHA合成而直接好氧曝气,聚磷菌亦能将废水中磷酸盐合成聚磷,通过排除富磷污泥而达到除磷目的,这和传统的理论与研究有所区别.     

DEM格网尺度对AnnAGNPS预测山地小流域径流和物质输出的影响

为了解流域地形空间参数和其它参数的精度对农业非点源污染模型AnnAGNPS预测准确性的影响,利用三峡库区黑河小流域观测资料校准了AnnAGNPS模型,分析了1.5-12.5m格网尺度DEM对地形参数和模型负载输出的影响.结果表明,1.5～12.5m格网尺度DEM对流域径流量、洪峰流量、总N输出影响不显著,但对泥沙、总P、有机碳输出影响显著.三峡库区类似小流域宜采用5m格网尺度DEM,AnnAGNPS模型较不适合于尺度较小、坡度较大的小流域泥沙负载预测.     

表面活性剂对二嗪磷在不同土壤中吸附迁移的影响

采用批量平衡法和薄层层析法, 分别研究了不同浓度的3种表面活性剂十二烷基苯磺酸钠(SDBS)、Tween80和十六烷基三甲基溴化胺(CTAB) 对二嗪磷在湖南省具有代表性的6大土类、9种不同母质土壤中吸附和迁移性能的影响. 结果表明, SDBS能够明显地降低各种土壤对二嗪磷的吸附, 促进二嗪磷的迁移作用, 并且吸附平衡系数(Kd)、比移值(Rf)分别随SDBS浓度增大而增大、减小.浓度成显著的负相关和正相关关系.Tween-80和CTAB对二嗪磷在土壤中的吸附和迁移表现出一定的相似性, Tween-80浓度在0.1~2倍临界胶束浓度(CMC)范围内(CTAB浓度为0.80~87.43 mg·L-1), 其Kd值、Rf值分别随表面活性剂浓度增大而增大、减小, 而Tween-80浓度在2~5倍临界胶束浓度的范围内(CTAB浓度为87.43~191.60 mg·L-1.), 则出现与之相反的变化趋势.     

Seasonal variation of Microcystis in Lake Taihu and its relationships with environmental factors

In order to monitor the changes of Microcystis along with temporal and spatial variations, seasonal variation of Microcystis in Lake Taihu was investigated by 16S-23S rRNA internal transcribed spacer denaturing gradient gel electrophoresis (16S-23S rRNA-ITS DGGE) and microscopic evaluation. Samples were collected quarterly at four sites (River Mouth, Meiliang Bay, Cross Area, and Lake Center) from August 2006 to April 2007. Results showed that Microcystis dominated total phytoplankton abundance at the four sites in all seasons except winter. The average annual abundance of Microcystis was relatively high at River Mouth and Meiliang Bay, reaching 81.22×106 and 61.32×106 cells/L, respectively. For temporal variations, Shannon-Wiener diversity index (H') according to DGGE profile revealed the richness of Microcystis in summer (H'=1.375±0.034) and winter (H'=1.650±0.032) was lower than that in spring (H'=2.078±0.031) and autumn (H'=2.365±0.032) (P<0.05). While for spatial variations, the richness of Microcystis at River Mouth (H'=2.015±0.074) was higher than at other sites during four seasons (P<0.01). Very few differences of Microcystis diversity in the same season were observed among the other three sites (P>0.05). Canonical correspondence analysis (CCA) was performed to elucidate the relationships between Microcystis operational taxonomic units (OTUs) composition and the environmental factors. Results of CCA revealed that temperature was strongly positively correlated with the first axis (r=0.963), while TSS was negative correlated with the second axis (r=-0.716). Phylogenetic tree based on the sequencing results of target bands on DGGE gel indicated that samples collected in summer and winter constituted two separated clusters.     

堆肥嗜热纤维素分解菌的筛选鉴定及其强化堆肥研究

对采集于农业堆肥高温期的微生物样品进行30d的高温驯化,驯化完成后从中筛选得到15株嗜热纤维素分解菌,经形态学特征、生理生化反应及16S rDNA序列同源性比对鉴定为:Bacillus sp3株,Paenibacillus sp1株,Bacillus licheniformis3株,Bacillus subtilis4株,Brevibacillus borstelensis1株,Bacillus coagulans3株.将筛选得到的菌种添加至高纤维素含量的堆体进行效果验证,结果表明添加嗜热纤维素分解菌对堆肥pH变化无显著影响,但可提高堆肥高温期温度、延长高温期并显著地降低堆肥产品的C/N和有机质含量,显著降低纤维素和半纤维素含量,加快堆肥腐熟.堆体有机质降解动力学结果表明,堆体接菌和不接菌处理的有机质最大降解度分别为62.5481%和61.7101%,速率常数分别为0.1250d-1和0.1051d-1,接菌处理的堆肥比对照堆肥提前6d达到稳定.研究表明,添加筛选的嗜热纤维素分解菌能缩短堆肥周期.     

2种典型基质作为碳源对单级好氧生物除磷影响的研究

以合成废水为研究对象,比较了SBR单级好氧工艺以2种典型基质(R1:葡萄糖;R2:乙酸钠)作为碳源时的除磷效果,试验运行方式为瞬时进水→曝气(4 h)→沉淀、静置(8 h)→瞬时出水.结果表明,在稳定运行中R1磷的去除效率明显高于R2.R1、R2中好氧曝气段反应器中单位混合液挥发性悬浮固体(MLVSS)的总磷(TP)去除量约为7.2～7.7、3.8～4.6 mg.g-1,静置期单位MLVSS的TP释放量分别为3.6～3.8、2.7～3.1 mg.g-1.R1反应过程中微生物体内储能物质多β羟基烷酸盐(PHA)含量并没有明显的变化,但糖原质浓度在曝气30 min时增长到最大值,曝气结束时微生物体内糖原质水平消耗到微生物的原始水平;R2中PHA和糖原质在曝气约45 min时均观察到最大的积累量.本研究试验现象表明在R1反应器中糖原作为其好氧段主要的能源物质为其生物代谢提供能量,而在R2反应器中其主要的能量来源于PHA的分解辅以糖原的水解,这也表明在单级好氧生物除磷过程中糖原质能代替传统厌氧/好氧(A/O)工艺中的PHA成为微生物的能源物质,且由于R1比R2有更多的糖原质的积累,使得R1中磷的去除效率高于R2.     

Fenton/SBR组合工艺处理博落回提取废水研究

在常温(25℃)条件下,对Fenton与序批式活性污泥法(SBR)组合工艺处理博落回提取废水的特性进行了研究.结果表明,当进水CODCr为7300mg·L-1时,通过多个单因素试验确定的最佳Fenton反应条件为:初始pH=3.0,n(H2O2)∶n(Fe2+)=15,H2O2投加量为7300mg·L-1.在此条件下反应120min后,CODCr去除率为65.3%,BOD5/CODCr由原水的0.14上升到出水的0.22,可生化性得到提高.同时,研究证明,出水pH不影响CODCr去除率,但污泥体积指数(SVI)值随着出水pH的增大而减小.Fenton氧化出水经SBR工艺处理后,CODCr可控制在500mg·L-1以内,达到国家三级排放标准.     

腾冲北海湿地生态系统碳储存功能及价值评估初探

在对自然湿地生态系统碳储存功能分析的基础上,以腾冲北海湿地保护工程的实施为据。依据林业碳汇及湖泊湿地碳汇相关理论和方法,对腾冲北海湿地碳储存价值进行估算,得出腾冲北海湿地每年总固碳量为41957．75t／a,折合人民币413．19万元／a。由此得出腾冲北海湿地生态系统具有极高的保护价值。     

菲、芘污染土壤中丛枝菌根真菌对土壤酶活性的影响

采用温室盆栽试验方法,研究了丛枝菌根真菌(AMF)对菲、芘复合污染土壤中微生物数量和酶活性的影响.结果表明,接种AMF显著增加了三叶草根际和菌丝际土壤中细菌、真菌和放线菌的数量,并对微生物区系有选择性.在供试菲、芘污染浓度范围内,低浓度菲、芘对土壤多酚氧化酶、酸性磷酸酶和过氧化氢酶活性有激活作用;但当菲、芘浓度升高时,3种酶活性受到抑制.与无植物对照土壤相比,接种AMF后三叶草菌根际酸性磷酸酶活性降低了2.4%~23.1%,过氧化氢酶活性增加了12.6%~20.3%,除高浓度处理外多酚氧化酶活性均增加;菌丝际多酚氧化酶活性比菌根际低12.9%~62.9%,酸性磷酸酶活性比菌根际高3.3%~24.0%,过氧化氢酶活性则高于菌根际.     

Effects of temperature and surfactants on naphthalene and phenanthrene sorption by soil

Adsorption experiments were carried out to investigate the sorption behaviors of naphthalene and phenanthrene in six different soils and to determine the effects of temperature, linear alkylbenzene sulfonate (LAS) and cetylrimethyl ammonium bromide (CTAB) on sorption. The results show that for a given sorbent phenanthrene exhibited greater nonlinear and stronger sorption than naphthalene. There was a strong negative correlation for the Koc values with organic carbon content (foc). The increase of temperature was not favorable to sorption. Sorption decreased along with the increasing aqueous LAS concentration from 0 to 1000 mg/L. At low CTAB concentration (＜ 100 mg/L), the adsorption increased as CTAB hemimicelles formed on the soil surface. At high concentration, CTAB decreased the adsorption by occupying active hydrophobic adsorption sites and solubilization of naphthalene and phenanthrene.