秸秆发酵产氢的影响因素研究

以加热预处理的厌氧活性污泥为接种物,以秸秆（稻草、麦杆）为发酵底物进行微生物产氢实验,研究了不同秸秆粒径、纤维素酶用量、预处理方法、发酵液pH值对秸秆发酵产氢速率以及产氢气量的影响.其中颗粒粒径为170 μm的稻草经过NaOH预处理,按照底物与纤维素酶用量1∶1的比例酶解,进而发酵产氢的单位总产氢量为90.5 mL/g,最大单位产氢速率为0.58 mL/(h·g).     

Assessing field vulnerability to phosphorus loss in Beijing agricultural area using Revised Field Phosphorus Ranking Scheme

Guanting Reservoir,one of the drinking water supply sources of Beijing,suffers from water eutrophication.It is mainly supplied by Guishui River.Thus,to investigate the reasons of phosphorus(P)loss and improve the P management strategies in Guishui River watershed are important for the safety of drinking water in this region.In this study,a Revised Field P Ranking Scheme(PRS)was developed to reflect the field vulnerability of P loss at the field scale based on the Field PRS.In this new scheme,six factors are included, and each one was assigned a relative weight and a determination method.The affecting factors were classified into transport factors and source factors,and,the standards of environmental quality on surface water and soil erosion classification and degradation of the China were used in this scheme.By the new scheme,thirty-four fields in the Guishui River were categorized as"low","medium"or"high"potential for P loss into the runoff.The results showed that the P loss risks of orchard and vegetable fields were higher than that of corn and soybean fields.The source factors were the main factors to affect P loss from the study area.In the study area,controlling P input and improving P usage efficiency are critical to decrease P loss.Based on the results,it was suggested that more attention should be paid on the fields of vegetable and orchard since they have extremely high usage rate of P and high soil test of E Compared with P surplus by field measurements,the Revised Field PRS was more suitable for reflecting the characteristics of fields,and had higher potential capacity to identify critical source areas of P loss than PRS.     

基于活性污泥模型的污水COD组分划分方案研究

活性污泥数学模型(ASM)在污水处理厂的成功应用与进水组分的正确划分密切相关.从标准化和定量化的角度利用3个批式试验开发了COD组分划分方案及Matlab计算程序.该方案在上海2个污水处理厂的测定结果表明,曲阳污水厂进水COD中含有8.1%±1.6%的易生物降解组分SS、6.3%±2.2%的溶解性惰性组分SI、45.5%±3.5%的慢速生物降解组分XS、31.1%±2.1%的颗粒性惰性组分XI和9.0%±1.1%的异养菌组分XH.而白龙港污水厂进水COD中含有11.1%±2.2%的SS、9.9%±2.0%的SI、38.9%±10.7%的XS、23.3%±9.8%的XI和16.9%±1.8%的XH.与曲阳污水厂相比,白龙港污水厂进水COD中XS和XI含量偏低,而XH/COD值则明显偏高,表明长距离管道输送会显著影响COD组分浓度.     

长三角区域城市间一次污染跨界影响

长三角城市群作为我国三大经济圈之一,高强度的能源消耗致使区域大气污染问题十分突出.为了定量弄清城市之间一次污染传输情况,以长三角15个城市的污染排放清单、MM5气象场为基础,利用CALPUFF空气质量模型,模拟测算了长三角区域内城市间一次污染跨界输送影响.结果显示,环太湖地区的上海、苏州、无锡和常州等地由于自身排放强度...     

陶粒移动床处理低浓度生活污水的性能

采用填充率为30%的生物陶粒移动床(BCMBBR)处理东莞城镇低浓度、低碳高氨氮生活污水(COD约130～185 mg·L-1、C/N=3～7).同时,考察了BCMBBR在5种工况下的运行效果及相应的微生物相状况.结果表明,BCMBBR运行的最佳条件为:HRT为8 h,气水体积比为4:1.COD,BOD5、NH4+-N...     

咪唑型离子液体对小鼠的急性毒性

采用寇氏改良法研究了咪唑型离子液体对小鼠的急性毒性,并考察了烷基侧链长度对其毒性的影响,同时采用HE染色法观察了其对小鼠肝脏的毒性.结果表明,4种咪唑型离子液体([C10mim]Br、[C12mim]Br、[C14mim]Br和[C18mim]Br)对小鼠肝脏均有损伤,其LD50值在98.91～220.16 mg·kg...     

一起甲苯爆炸事故的调查与分析

分析了利用压缩空气压送甲苯混合物时发生爆炸事故的直接原因和间接原因,提出了相应的对策.     

青岛大气气溶胶中氨基化合物的分布特征

氨基化合物是大气气溶胶和雨水中常被检出的一类有机氮化合物,由于其可作为生物生长直接的氮源,因此可能对海洋生态系统产生直接作用.利用2008年1～12月在青岛采集的66个总悬浮颗粒物样品,采用邻苯二甲醛/N-乙酰-L-半胱氨酸柱前衍生高效液相色谱法,分析了其中溶解态(DAC)和颗粒态氨基化合物(PAC)的浓度.气溶胶中DAC浓度为2.4～40.9nmol·m-3,在春季最高,夏季次之,秋季、冬季最低.PAC浓度为0.7～76.1nmol·m-3,呈现春季冬季秋季夏季的变化趋势.不同季节氨基化合物的组成不同.依据气团的后向轨迹,气溶胶样品可分为受北方陆源、南方陆源和海洋源影响,DAC和PAC在受南方陆源影响的气溶胶中浓度最高,北方陆源次之,海洋源气溶胶中最低.不同来源的气溶胶中氨基化合物的组成不同,蛋白质类氨基化合物对总氨基化合物的贡献在海洋源气溶胶中最高,在南方源气溶胶中最低.     

Archaeal community structure along a gradient of petroleum contamination in saline-alkali soil

The impact of petroleum on archaeal community in salinealkali soils was investigated, which will expand the knowledge of the archaeal population involved in the natural attenuation of hydrocarbons in extreme environments.     

Characteristics of nitrogen and phosphorus removal in a sequencing batch reactor

Laboratory scale experiments were conducted to study the characteristics of N and P removal under different influent organic carbon concentration in a sequencing batch reactor (SBR) with simple anaerobic/aerobic operating mode. Experimental results indicated that, under the operating condition of influent N concentration of 89 mg/L and P concentration of 15 mg/L, when the influent C/N ratio increased from 1.5 to 6.9 (influent C/P ratio from 9 to 41), total N and P removal efficiency improved from 50% and 46% to 78% and 96% respectively. Track studies of N, P and other operating parameters demonstrated that N removal of the SBR was realized through simultaneous nitrification and denitrification (SND) in the aeration phase and anoxic denitrificaiton in the filling phase, P removal was accomplished through conventional anaerobic P release and aerobic P taken-up process. Keeping dissolved oxygen (DO) concentration during the first two aeration hours as low as 0.1-0.6 mg/L is essential for the simultaneous occurrences of nitrification, denitrification and P-taken up.