粪大肠菌群测定中的实验室质量控制研究

对在粪大肠菌群实验过程中涉及到的实验室质控设备、培养基、精密度检验等内容进行了分析,并对实验过程中的关键问题进行了阐述。     

巷道冲击地压模拟试验及其过程动态演示

以巷道冲击地压灾害为典型案例,通过对巷道类冲击地压事故机理的分析,设计了一项巷道冲击地压试验装置,通过视频剪辑和动画制作技术,实现了对冲击地压试验的全程记录,并利用分频、字幕说明等形式对冲击地压试验动态过程进行了演示和说明。结果表明,该试验装置结合了巷道冲击地压发生原理,以动画方式演示,具有直观、简洁、易于理解的特点,为揭示冲击地压过程及其发生机制提供了一种新方法。     

能力验证是环境监测质量保证的重要环节

能力验证是近几年来开展的一项新的技术活动,是环境监测质量保证的重要环节.有组织、有计划的开展环境监测系统实验室的能力验证来确定实验室的能力并确保实验室维持较高的检测水平,也是保证环境监测数据具有科学性、准确性、可比性的必要措施.本文对此进行了论述.     

对实验室污染问题的思考和建议

分析了目前实验室存在的污染种类及危害,阐明实验室是一种不容忽视的污染源,且污染种类复杂,毒害较大.提出实验室污染防治措施.     

多因素耦合条件下硫化矿自燃神经网络动态预测模型研究

硫化矿石自燃是多种因素、多场耦合综合作用的结果,是一典型的非线性问题。笔者应用人工神经网络技术,以Matlab软件为平台,通过现场调查和理论分析,建立了矿石含硫量、通风强度、环境温度3因素与硫化矿石自燃之间的预测模型;通过数据样本学习与部分现场监测数据相结合进行模拟,研究表明预测数据与实测结果基本吻合,误差控制在10%以内,取得了较好的效果。该研究为预防硫化矿石自燃提供一个新的思路和方法,具有一定的理论意义和应用价值。     

Topsoil organic carbon mineralization and CO2 evolution of three paddy soils from South China and the temperature dependence

Carbon mineralization and its response to climatic warming have been receiving global attention for the last decade. Although the virtual influence of temperature effect is still in great debate, little is known on the mineralization of organic carbon （SOC） of paddy soils of China under warming. SOC mineralization of three major types of China＇s paddy soils is studied through laboratory incubation for 114 d under soil moisture regime of 70% water holding capacity at 20℃ and 25℃ respectively. The carbon that mineralized as CO2 evolved was measured every day in the first 32 d and every two days in the following days. Carbon mineralized during the 114 d incubation ranged from 3.51 to 9.22 mg CO2-C/gC at 20℃ and from 4.24 to 11.35 mg CO2-C/gC at 25℃ respectively; and a mineralizable C pool in the range of 0.24 to 0.59 gC/kg, varying with different soils. The whole course of C mineralization in the 114 d incubation could be divided into three stages of varying rates, representing the three subpools of the total mineralizable C： very actively mineralized C at 1-23 d, actively tnineralized C at 24--74 d and a slowly mineralized pool with low and more or less stabilized C mineralization rate at 75-114 d. The calculated Q10 values ranged from 1.0 to 2.4, varying with the soil types and N status. Neither the total SOC pool nor the labile C pool could account for the total mineralization potential of the soils studied, despite a well correlation of labile C with the shortly and actively mineralized C, which were shown in sensitive response to soil warming. However, the portion of microbial C pool and the soil C/N ratio controlled the C mineralization and the temperature dependence. Therefore, C sequestration may not result in an increase of C mineralization proportionally. The relative control of C bioavailability and microbial metabolic activity on C mineralization with respect to stabilization of sequestered C in the paddy soils of China is to be further studied.     

飞机蒙皮用含氟聚氨酯涂层老化原因分析

选用飞机蒙皮常用的含氟聚氨酯涂层体系为研究对象,结合飞机服役环境的主要特点,开展了实验室模拟加速老化试验研究,并利用电化学阻抗谱对老化试验后的涂层进行了表征.结果表明,紫外线仅对涂层的表面结构产生影响,紫外试验后的涂层电阻下降较慢.在紫外-盐雾循环试验中,紫外线引起涂层表面结构发生变化,涂层的耐水性变差,水更快地进入涂...     

美军电磁环境效应(E3)实验室建设浅析

对美军E3实验室建设情况进行了介绍,重点对美国海军航空作战中心及美国海军水面作战中心达尔格伦分部的E3实验室建设进行了介绍和剖析,对美军E3实验室试验设施进行了总结,分析了美军E3实验室建设的特点,有利于深刻认识美军E3实验室建设的发展状况,对我国E3实验室建设有一定的启示作用.     

Risk assessment of safety level in university laboratories using questionnaire and Bayesian network

Accidents in university laboratories not only create a great threat to students’ safety but bring significant negative social impact. This paper investigates the university laboratory safety in China using questionnaire and Bayesian network (BN) analysis. Sixteen influencing factors for building the Bayesian net were firstly identified. A questionnaire was distributed to graduate students at 60 universities in China to acquire the probability of safe/unsafe conditions for sixteen influencing factors, based on which the conditional probability of four key factors (human, equipment and material, environment, and management) was calculated using the fuzzy triangular theory and expert judgment. The determined conditional probability was used to develop a Bayesian network model for the risk analysis of university laboratory safety and identification of the main reasons behind the accidents. Questionnaire results showed that management problems are prominent due to insufficient safety education training and weak management level of management personnel. The calculated unsafe state probability was found to be 65.2%. In the BN analysis, the human factor was found to play the most important role, followed by equipment and material factor. Sensitive and inferential analysis showed that the most sensitive factors are personnel incorrect operation, illegal operation, and experiment equipment failure. Based on the analysis, countermeasures were proposed to improve the safe management and operation of university laboratories.     

二级絮凝-活性炭处理实验室无机废水的效果

采用两级絮凝-活性炭吸附法处理实验室无机废水,研究了该方法对重金属、硫化物、挥发酚、苯胺和浊度等的处理效果。结果表明,在絮凝温度、搅拌、曝气及污水pH值调节范围一定的情况下,硫酸亚铁(FeSO4.7H2O)与聚合氯化铝(PAC)结合的二级絮凝方法能有效地降低污水中的重金属和硫化物等污染物。二级絮凝处理中,使用聚合氯化铝(PAC)对一级絮凝中去除效果不好的Cr6+的去除效果显著,去除率达到90%以上;活性炭对苯胺和硫化物的去除效果最佳,去除率都在90%以上。同时,该方法还有效降低了废水的浊度和色度。因此,是一种快速、低成本和工艺简单的处理实验室废水的有效途径。