Recurrence risk of neural tube defects following a miscarriage

Data from 280 sibships in three published series were used to see if the increased risk of neural tube defect (NTD) associated with having had a miscarriage in the immediately preceding pregnancy was also found in women with a previous affected pregnancy. A statistically significant relative risk of 4.0 (2-tail P=0.0111, Fisher exact test) was found among such women, and this could not be accounted for by the effect of parity or of a history of miscarriage in general. The finding may be useful when counselling patients.     

用MnSO_4作催化剂开管测定废水COD

本研究介绍了用硫酸锰代替硫酸银作催化剂快速开管测定废水中COD的方法。该方法降低了分析成本 ,且使样品的回流时间缩短到 12min ,而准确度和精密度同标准法基本相同。此法取样量少 ,消解速率快 ,适用于大批量水样的测定。     

小径薄壁管射线透照布置方法

小径薄壁管广泛用于工艺管道中，在对其进行无损探伤时，一般采用双壁双影椭圆成像法和双壁重叠成像法，针对小径薄壁管对接焊缝透照成像的特殊要求，具体介绍双壁双影椭圆成像法的透照布置方法。     

锅壳锅炉后管板孔桥裂纹事故的分析及处理

分析了锅壳锅炉后管板裂纹产生的原因，阐述了事故发生的机理和处理方法。     

检测管法与纳氏试剂光度法测定氨氮的比较研究

对氨氮真空玻璃检测管法和纳氏试剂光度法进行检出限、精密度、准确度,以及实际样品测试方面的比较研究。研究表明,氨氮检测管的检出限为0．2mg／L,精密度测定的相对标准偏差为0％～5．75％,准确度测定的加标回收率为93％～124％。检测管法和纳氏剂法同时测定多种实际样品,结果两种方法的相对误差为-37．8％～11．8％,结论：检测管法能够满足半定量测试的需求。     

电化学产电菌的分离及性能评价

利用兼性滚管法分离了折流板空气阴极微生物燃料电池(BAFMFC)A、B两格室的阳极生物膜,共获得19株纯菌.将菌株投加至无菌立方型反应器中,检验其产电特性.利用交流阻抗法测量各纯菌电池的内阻,结果显示38个电池的欧姆内阻为25Ω±5Ω,说明了各电池的产电差异来源于菌株本身的活性.其他运行条件均保持不变,在1000Ω外阻下,7株纯菌电池的输出电压在200mV以上.其中,A格室产电活性最高的菌株(A2)产生的最大电压为328mV,输出的最大功率密度为165.1mW/m2,B格室产电活性最高的菌株(B1)最大电压为241mV,最大功率密度为214.4mW/m2.原子力显微镜和脂肪酸快速鉴定表明,A2为肠杆菌科的杆菌,B1为厚壁菌门的芽孢杆菌.     

有关斜管沉淀池的上升流速讨论

文章从理论上了分析斜管沉淀池上升流速对沉淀池处理效果的影响,及原水特性与斜管沉淀池上升流速取值的关系。讨论分析斜管沉淀池设计时,应根据原水特性不同选择不同的斜管沉淀池上升流速。     

双组分VOCs的催化氧化及动力学分析

考察了微波加热与管式炉加热下挥发性有机化合物(VOCs)甲苯与氯苯的催化氧化性能,并对双组分VOCs的反应动力学进行了分析.结果表明,VOCs的竞争吸附使得双组分中甲苯和氯苯的转化率比单组分降低3%~12%;微波的"热点效应"与"非热效应"使得VOCs转化效率明显优于管式炉加热,尤其是氯苯的转化率提高了31%~38%;微波加热降低了氧化反应温度和处理能耗.动力学分析表明,微波加热下甲苯和氯苯的反应活化能比管式炉加热下减少了2146 J·mol-1和1450J·mol-1,微波加热下氯苯的化学反应速率常数是管式炉加热的35倍,甲苯的反应速率常数提高了6倍.     

不同构造措施的钢管混凝土边框钢板剪力墙抗震性能试验研究

钢管混凝土边框钢板剪力墙是一种新型抗震剪力墙,为了比较不同构造措施对该新型剪力墙抗震性能的影响,进行了3个剪跨比为1.5的钢管混凝土边框钢板剪力墙低周反复荷载试验.其中,试验模型1为墙体钢板与边框柱钢管焊接,试验模型2为墙体钢板与边框柱钢管螺栓连接,试验模型3为墙体钢板开孔并与边框柱钢管焊接.通过试验研究,比较了各剪力...     

Volatile Organic Compounds: Sampling Methods and Their Worldwide Profile in Ambient Air

The atmosphere is a particularly difficult analytical system because of the very low levels of substances to be analysed, sharp variations in pollutant levels with time and location, differences in wind, temperature and humidity. This makes the selection of an efficient sampling technique for air analysis a key step to reliable results. Generally, methods for volatile organic compounds sampling include collection of the whole air or preconcentration of samples on adsorbents. All the methods vary from each other according to the sampling technique, type of sorbent, method of extraction and identification technique. In this review paper we discuss various important aspects for sampling of volatile organic compounds by the widely used and advanced sampling methods. Characteristics of various adsorbents used for VOCs sampling are also described. Furthermore, this paper makes an effort to comprehensively review the concentration levels of volatile organic compounds along with the methodology used for analysis, in major cities of the world.