有机负荷调控对餐厨垃圾高温固态发酵全过程影响

为提高餐厨垃圾沼气工程能源利用效率.本试验采用全混合式连续发酵,通过调控餐厨垃圾高温厌氧发酵过程中OLR变化,探究OLR为0.7、1.2、4.4 kg·m^-3·d^-1下产气性能、pH、SCOD和VFAs等参数变化.结果表明,反应器能在0.7 kg·m^-3·d^-1下低负荷启动,此阶段产气性能较差,VFAs浓度受正丁酸含量增长缓慢上升,但仍处于低浓度范围.OLR提升至1.2 kg·m^-3·d^-1,正丁酸分解成乙酸速率加快,乙酸浓度比0.7 kg·m^-3·d^-1阶段增长17.36%,发酵液中VFAs积累导致系统酸化抑制产甲烷菌产气性能,外加碱溶液无法调控酸碱平衡.OLR为4.4 kg·m^-3·d^-1时,VFAs浓度增长趋于平稳,调节pH至6.7以上反应器稳定运行.随着产甲烷菌活性恢复,沼气产量维持在25 L·d^-1左右,VFAs浓度快速下降并稳定在19.68~21.30 g·L^-1之间.实际沼气工程可控制OLR在0.7 kg·m^-3·d^-1下启动,待发酵系统稳定运行后增加OLR至4.4 kg·m^-3·d^-1同时调节pH到6.7以上,可以达到最佳产沼气工艺.而维持OLR在1.2 kg·m^-3·d^-1更适合获得高浓度VFAs.     

淹水厌氧条件下腐殖酸对红壤中铁异化还原过程的影响

采用室内培养实验,观测淹水厌氧条件下分别添加及共同添加葡萄糖和不同制备来源的腐殖酸,对红壤中铁的异化还原作用的影响.结果表明,红壤单独培养条件下,Fe(Ⅱ)浓度培养前后没有发生变化.添加葡萄糖促进了铁的异化还原,培养至12 d其Fe(Ⅱ)浓度为培养前的25倍.腐殖酸不能作为电子供体促进铁的异化还原,单独添加时红壤中Fe(Ⅱ)浓度没有发生变化,而同时添加葡萄糖情况下,培养前期促进而后期减弱铁的异化还原,其Fe(Ⅱ)浓度增幅仅为单独添加葡萄糖处理的35%.腐殖酸的浓度对红壤中铁的异化还原作用有影响,浓度为2.00 g/kg时培养前期促进而后期减弱铁的异化还原,低浓度时（0.20和0.02 g/kg）影响很小.不同制备来源的腐殖酸对红壤中铁异化还原过程的影响不同.培养前期,从山西大同风化煤(HAs)、河南巩县褐煤(HAh)和云南昆明滇池底泥(HAk)中提取的腐殖酸都促进了红壤中铁的异化还原;培养后期,HAk依然发挥促进作用,其Fe(Ⅱ)浓度始终高于G处理,而添加HAs和HAh的处理培养至7 d Fe(Ⅱ)仅为单独添加葡萄糖处理的14%和25%,减弱了铁的异化还原.     

活化剂联合植物移除污染土壤重金属的研究进展

土壤重金属活化移除技术作为一种快速有效的污染土壤治理技术,越来越受到重视。综述了近年来螯合剂、低分子有机酸、表面活性剂等不同活化剂对重金属的活化移除效果,包括活化剂对部分重金属形态变化的影响以及与植物联合修复的效果,并综合考虑其本身的生物降解性和生态毒性等优缺点,以期为研究重金属污染土壤修复技术提供参考。     

全国自来水厂卤乙酸浓度调查、风险评估与标准建议

采用高特异性和高灵敏度的UPLC-MS/MS方法对中国34个城市的117个自来水厂出水中9种卤乙酸进行检测,其中二氯乙酸和三氯乙酸的检出率和检出浓度最高,检出率分别为78.6%和81.2%,平均浓度分别为3.47μg/L和3.31μg/L.风险评价结果表明,二氯乙酸导致我国饮用水致癌风险的期望值为5.72′10-6,处于较低风险水平;全国只有1.7%水厂出水TCAA浓度超过20μg/L的健康指导值.在风险评价的基础上结合我国水厂的卤乙酸浓度数据,建议我国饮用水的二氯乙酸和三氯乙酸标准分别修改为16μg/L和20μg/L.     

pH值对餐厨垃圾厌氧发酵产挥发性脂肪酸的影响

通过间歇实验研究了中温条件下pH值对餐厨垃圾厌氧发酵产挥发性脂肪酸(VFA)的影响.考察了pH值为5.0、6.0、7.0及不控制pH值下的有机酸浓度及组成情况.结果表明,当控制反应器中pH值为6.0时,餐厨垃圾水解酸化效果最好,比其他pH值条件下产生更多的有机酸.pH值为6.0时,VFA浓度与单位VS产酸量在第68h达到最大值,分别为40.89g/L和0.328gVFA/gVS,是不控制pH值时的8倍.pH值对发酵产物组成影响显著.不控制pH值时,反应器内的pH值在24h内由6.6迅速下降到3.8,乙醇为主要的发酵产物,占59.8%,表现为典型的乙醇型发酵.当控制pH值为5.0、6.0、7.0时,均为丁酸型发酵.但pH值为5.0时,乙酸为主要产物;pH值为6.0时,丁酸为主要产物;pH值为7.0时,乙酸与丁酸比例相当.试验表明,餐厨垃圾厌氧发酵产酸的最佳pH值为6.0.     

Effects of vegetation type on soil microbial community structure and catabolic diversity assessed by polyphasic methods in North China

Soil microbes play a major role in ecological processes and are closely associated with the aboveground plant community.In order to understand the effects of vegetation type on the characteristics of soil microbial communities,the soil microbial communities were assessed by plate counts,phospholipid fatty acid (PLFA) and Biolog microplate techniques in five plant communities,i.e.,soybean field (SF),artificial turf (AT),artificial shrub (AS),natural shrub (NS),and maize field (MF) in Jinan,Shandong Province,North China.The results showed that plant diversity had little discernible effect on microbial biomass but a positive impact on the evenness of utilized substrates in Biolog microplate.Legumes could significantly enhance the number of cultural microorganisms,microbial biomass,and community catabolic diversity.Except for SF dominated by legumes,the biomass of fungi and the catabolic diversity of microbial community were higher in less disturbed soil beneath NS than in frequently disturbed soils beneath the other vegetation types.These results confirmed that high number of plant species,legumes,and natural vegetation types tend to support soil microbial communities with higher function.The present study also found a significant correlation between the number of cultured bacteria and catabolic diversity of the bacterial community.Different research methods led to varied results in this study.The combination of several approaches is recommended for accurately describing the characteristics of microbial communities in many respects.     

Ce3+对厌氧颗粒污泥产VFA的影响

采用批式实验,以葡萄糖和乙酸钠为基质,研究投加不同浓度稀土Ce³⁺对稳定驯化和长期贮存的厌氧颗粒污泥消化产VFA的影响.结果表明,Ce³⁺浓度<1 mg/L时可降低消化过程中的VFA浓度,促进丁酸向乙酸的转化以及乙酸转化为甲烷;Ce³⁺浓度为1～10 mg/L时则抑制细菌活性,不利于乙酸和丁酸的降解.稀土Ce的投加对以葡萄糖为基质的厌氧颗粒污泥消化产VFA中各组分的质量分数影响较小,厌氧消化前期和中期VFA产物主要为丁酸和乙酸,两者含量之和约为96%,丙酸含量<3%.以乙酸钠为唯一基质厌氧消化时,0.05 mg/L Ce³⁺的投加对乙酸钠降解具有一定促进作用,可提高反应速率和去除率.污泥经过长期贮存活性降低,但含稀土Ce的厌氧颗粒污泥活性高于不含稀土的污泥,利用含稀土Ce的污泥有利于反应器再启动.     

Enhanced anaerobic fermentation with azo dye as electron acceptor： Simultaneous acceleration of organics decomposition and azo decolorization

Accumulation of hydrogen during anaerobic processes usually results in low decomposition of volatile organic acids（VFAs）. On the other hand, hydrogen is a good electron donor for dye reduction, which would help the acetogenic conversion in keeping low hydrogen concentration. The main objective of the study was to accelerate VFA composition through using azo dye as electron acceptor. The results indicated that the azo dye serving as an electron acceptor could avoid H2 accumulation and accelerate anaerobic digestion of VFAs. After adding the azo dye, propionate decreased from 2400.0 to 689.5 mg/L and acetate production increased from 180.0 to 519.5 mg/L. It meant that the conversion of propionate into acetate was enhanced. Fluorescence in situ hybridization analysis showed that the abundance of propionate-utilizing acetogens with the presence of azo dye was greater than that in a reference without azo dye. The experiments via using glucose as the substrate further demonstrated that the VFA decomposition and the chemical oxygen demand（COD） removal increased by 319.7 mg/L and 23.3% respectively after adding the azo dye. Therefore, adding moderate azo dye might be a way to recover anaerobic system from deterioration due to the accumulation of H2 or VFAs.     

有机酸对根际土壤中铅形态及其生物毒性的影响

采用根袋盆栽试验和连续浸提方法研究外源柠檬酸、EDTA对根际土壤中Pb形态转化及其生物毒性的影响。结果表明，有机酸能明显活化根际土壤中的Pb，高浓度(3mmol／L)比低浓度(0．5mmol／L)的柠檬酸对Pb的活化能力强；EDTA在低浓度(0．5mmol／L)时对Pb的活化能力就很强。柠檬酸、EDTA能增强土壤Pb的毒性，提高小麦根部对Pb的吸收，并促进Pb由根部向地上部转移。     

不同降水下覆盖与缓释肥减量对油菜土壤微生物群落结构的影响

为探讨沟垄集雨、秸秆覆盖和减量缓释肥集成技术对油菜土壤微生物群落结构的影响,在大田定位试验条件下,设置3种栽培方式（秸秆覆盖、沟垄集雨、传统平作）和4种施肥水平（习惯施肥、缓释肥减量20%、缓释肥减量40%、不施肥）,比较分析2016~2017年（多雨年份）和2017~2018年（季节性干旱年份）这2种不同降水年型下油菜土壤微生物群落结构对集成技术的响应.结果表明,不同降雨条件下,秸秆覆盖+缓释肥减量20%（J80）与沟垄覆盖+缓释肥减量20%（M80）较习惯栽培（PC）更利于土壤微生物生长.在多雨年型和季节性干旱年型下,J80与M80能平均分别提高微生物量碳9.94%和10.32%;提高土壤微生物量氮2.38%和1.19%.多雨年型下,土壤微生物磷酸脂肪酸（PLFA）总量较干旱年型降低30.75%,覆盖能有效提高土壤PLFA质量摩尔浓度.多雨年型下土壤细菌、真菌PLFA质量摩尔浓度较干旱年型平均减少33.67%和53.21%;而放线菌PLFA增加13.04%.微生物群落对异常降水具有敏感响应.多雨气候会造成细菌/真菌升高;干旱气候则会增加直链饱和脂肪酸/直链单不饱和脂肪酸及直链单不饱和脂肪酸/环丙烷脂肪酸.通过秸秆覆盖与缓释肥的集成技术,能稳定异常降水下的土壤微环境,缓解水分和养分胁迫,为油菜稳产和可持续发展提供有效途径.