高有机负荷冲击对填料型MBR运行性能的影响

针对分散式农村生活污水有机负荷变化明显的特点,研究了填料型厌氧-缺氧-好氧膜生物反应器（A²O-MBR）抗高有机负荷的能力,考察了高有机负荷冲击对污染物去除效果、悬浮和附着污泥性质以及膜污染的影响.结果表明,高负荷冲击期间污染物去除稳定,氨氮去除率在冲击第3d从99.1%下降到78.5%,出水氨氮浓度高于5mg/L,随后去除率恢复至97.6%;悬浮和附着微生物的三磷酸腺苷（ATP）含量增加;附着生物量显著增加;细胞外聚合物（EPS）增加;高有机负荷冲击期间膜污染更严重,膜面污染层EPS含量显著增加;太阳能微动力A²O-MBR系统能减少10%的碳排放.     

壳聚糖-海藻酸钠固定化菌小球处理猪场沼液

采用包埋法,以海藻酸钠-壳聚糖为载体、自行筛选的高效脱氨氮菌为目标菌制备固定化菌小球,用于去除猪场沼液中的氨氮.优化了固定化小球的制备条件,考察了废水处理条件对氨氮去除效果的影响.结果表明,固定化菌小球的最佳制备条件为：壳聚糖投加量20g/L、海藻酸钠投加量10g/L、目标菌种包埋量2：5（V/V）.处理含氨氮废水时,在不调节废水pH值的条件下,当固定化菌小球投加量为15g/L、反应时间为4h时,氨氮的去除率为93.9%,其中吸附作用对氨氮的去除率为64.3%,微生物作用对氨氮的去除率为29.6%.扫描电镜表征结果表明,处理废水后,固定化菌小球外部及内部微生物数量明显增多.动力学与等温线拟合结果显示,固定化菌小球对废水中氨氮的去除过程符合准二级反应动力学方程（R²=0.9252）和Langmuir等温线方程（R²=0.9578）.     

航空装备腐蚀维护维修新材料研究进展

针对海洋环境下服役航空装备极易发生腐蚀的问题,介绍了清洗剂、去腐蚀产物膏、缓蚀剂等腐蚀维护维修新材料的研究进展,包括功能、分类、技术指标等。清洗剂用于航空装备的日常清洗、维护以及维修,去除油污等污染物,防止腐蚀;去腐蚀产物膏用于外场航空装备腐蚀产物的原位去除;缓蚀剂用于在不能对现役航空装备的防护体系进行大幅改动的情况下,针对海洋环境下航空装备的防腐蚀需求,对航空装备进行附加防护或临时防护。综合运用腐蚀维护维修新材料进行航空装备的腐蚀防护,可以预防和减少腐蚀的发生,及时对腐蚀部位进行修复,保障航空装备的使用性能和战斗力。     

微藻无机氮利用过程中的稳定氮同位素分馏

选用两种δ15N差异显著的铵态氮和硝态氮,分别设置不同浓度的铵态氮和硝态氮来处理莱茵衣藻和蛋白核小球藻,通过分析微藻的稳定氮同位素组成变化,来研究微藻利用不同浓度、不同形态无机氮过程中的稳定氮同位素分馏特征。结果显示,在未添加无机氮的条件下,微藻利用有机氮时,生长缓慢,稳定氮同位素基本上不存在分馏;在添加低浓度无机氮(≤20 mmol/L)时,微藻的生长和稳定氮同位素分馏都随着无机氮浓度的增加而增加;而添加高浓度无机氮(20 mmol/L)时,微藻的生长趋于稳定,铵态氮条件下的微藻稳定氮同位素分馏继续加大,而硝态氮条件下的微藻稳定氮同位素分馏反而减小,可能与此时微藻硝酸还原酶的活力减小有关。     

氮和氧同位素示踪伊洛河河水硝酸盐来源及转化过程

河流硝酸盐(NO^-₃)浓度及氮和氧同位素组成(δ¹⁵N-NO^-₃和δ¹⁸O-NO^-₃)可以辨识河水NO^-₃受自然过程和人为输入的影响,但流域不同土地利用方式对河水NO^-₃来源及转化过程的影响尚不明确,特别是山区人为输入对河水NO^-₃的影响仍不清楚.选择土地利用空间异质性显著的伊河和洛河作为研究对象,借助水体水化学组成,氢氧同位素(δD-H₂O和δ¹⁸O-H₂O)、δ¹⁵N-NO^-₃和δ¹⁸O-NO^-₃,辨识不同土地利用方式影响下河水NO^-₃来源及...     

EDTA直接滴定测定镍

参考磷酸在345~356℃时有强腐蚀性的特点,采有硫磷混合酸消解矿样,能使样品消解完全。本方法经加标校核证明,检测结果重现性好,准确度高。     

RELATIONSHIP OF NITRATE CONCENTRATIONS TO DISTANCE OF WELL SCREEN OPENINGS BELOW CASING WATER LEVELS1

ABSTRACT: Data from 54 well in central and eastern Kansas developed in unconsolidated deposits of Quaternary age indicate that nitrate concentrations are inversely related to the depth of the well screen opening below the water level in the well casing because this relationship was found to exist in an area of Nebraska and in a large area of Kansas, the relationship is generally valid over a wide geo- graphical area. In addition, the data indicate that the incidence of nitrate concentrations exceeding 45 milligrams per liter and nitrate concentrations, in general, are significantly lower in water from wells with screens deeper than 25 feet below the water table in unconfined aquifers or where screens are placed in deep confined aquifers. No concentrations of nitrate greater than 45 milligrams per liter were in obseved wells where screens were deeper than 60 feet below the casing water level. These findings suggest that general placement of well screens as far below the water table as possible in unconfined unconsolidated aquifers in Kansas. and possibly other areas of the Midwest, may be an effective measure in preventing undesirable nitrate concentrations in ground water supplies. particularly in areas where nitrate is a problem.     

Seasonal variations of Rn concentrations in the air of a tunnel located in Nagano city

The seasonal variation of 222Rn concentrations in the air of tunnels constructed during World War II at Nagano City has been investigated. The determination of 222Rn concentrations in tunnel air was performed using a solid-state nuclear track detector technique. The monthly radon concentrations changed smoothly, decreasing towards winter and increasing towards summer, and it was found that the concentrations strongly correlate with the temperature difference between the inside and the outside of the tunnel. In the innermost areas of the tunnel, the maximum concentration was observed in July, its value being about 6500 Bq m (-3). The concentrations of radon in the tunnel air decrease exponentially towards the openings of the tunnel, which indicates that the radon concentration in the tunnel is basically governed by diffusion and mixing of radon gas with air. These observations lead to the conclusion that the seasonal variation of the radon concentration in the tunnel air is mainly caused by a convection current due to a stack effect induced by the temperature difference between the tunnel air and the outside air.     

有机改性粘土去除赤潮生物的机制研究

研究了季铵化合物改性粘土的制备条件对其去除赤潮藻效果的影响,探讨了该粘土体系高效除藻的机制.实验表明,十六烷基三甲基铵(HDTMA)可以有效地提高粘土的絮凝能力,同时HDTMA改性粘土中含有亚稳态HDTMA,增加了该改性粘土对赤潮生物的灭杀能力.改性粘土去除赤潮藻的能力与所吸附季铵化合物的杀藻能力、吸附量正相关,当老化时间延长、吸附季铵化合物稳定性增强时改性粘土除藻能力大大降低.结构不同的粘土对于吸附HDTMA的稳定化产生的空间阻力不同,在吸附量相同的情况下3层结构的蒙脱土中会有更多的亚稳态HDTMA产生;由于同离子效应,反应介质中高价金属阳离子的存在提高了亚稳态HDTMA的量,因此相应的改性粘土具有更高的赤潮藻去除能力.在60℃条件下吸附的HDTMA会更有效地占据粘土中的阳离子交换位,达到稳定态;而升高或降低温度都会有利于亚稳态HDTMA的出现,相应的改性粘土具有更高的赤潮藻去除能力.     

电解浮选用于活性污泥固液分离的研究

在装有Ti/RuO₂-IrO₂-TiO₂阳极、Ti阴极的电解浮选槽中进行了活性污泥固液分离的研究.考察了影响电解浮选性能的操作参数,这些参数包括水力停留时间、电流密度、进水SS浓度和进水pH值.研究表明,电解浮选是高效的固液分离单元,水力停留时间和电流密度是主要的影响因素.SS的去除率随着水力停留时间和电流密度的增加而增大;污泥负荷增加,SS的去除率下降;pH值影响电解产生微气泡的尺寸和污泥性质,但对SS的去除影响不大,实际应用中可以不调节pH值.进水SS约1 000mg/L时,当水力停留时间为20min,接触室电流密度为5 mA/cm²,分离区电流密度为2.5 mA/cm²,SS的去除率可达97%以上,此时的能耗为0.4～0.5(kW.h)/m³废水.电解浮选产生的浮渣含水率为95.9%,低于溶气气浮和二沉池的污泥含水率,对污泥减量化及其最终处置有较大的意义.