电梯接地保护与检验

良好的接地保护是维护电梯正常运行的重要措施,同时为检修作业人员的安全提供强有力的保障,因此是电梯检验中一个重要的项目。文章先对接地保护的概念进行澄清,接着介绍低压系统的几种接地型式,通过比较得出适用于电梯的接地系统,最后结合检规的要求介绍了有关的检验方法并指出日常检验中接地线存在的问题。     

气相色谱-三重四级杆质谱测定环境样品中17种二 英

研究了基于Agilent气相色谱-三重四级杆质谱测定环境样品中17种二 英的分析方法.结果表明,在浓度范围0.5~2000ng/mL之间具有良好的线性,17种二 英的相对响应因子在0.96~1.21之间,相对标准偏差< 14%,定量限范围在0.080~2.83pg/μL之间,适合环境样品中超痕量二 英的分析.利用该方法对第15轮二 英国际实验室比对的沉积物样品进行了测试,总I-TEQ值落在Intercal给定的中位值±标准偏差范围内.研究选取污染源烟道气、飞灰、土壤和沉积物等40多个环境样品进行测试,并与高分辨质谱测定结果比较表明,当环境样品中二 英浓度在0~60ng I-TEQ范围,两者数据具有较好的线性相关性,R2=0.997.就17种单体而言,利用三重四级杆质谱测定的2,3,7,8-TCDF和1,2,3,7,8,9-HxCDF结果会高于高分辨质谱,而1,2,3,7,8,9-HxCDD的结果低于高分辨质谱的测定值.鉴于三重四级杆质谱在购置、维护和能耗等方面的低成本优势,本方法可作为简易经济的环境中超痕量二 英的分析方法.     

Experimental studies of crevice corrosion for buried pipeline with disbonded coatings under cathodic protection

Numerous fire and explosion accidents have occurred because of pipeline ruptures through the corrosion area. Coatings under cathodic protection (CP) have been recognized to prevent/mitigate potential pipeline corrosion. In this work, a wedge-shaped crevice assembly was developed to study the effect of cathodic protection on corrosion of 20# steel pipeline with disbanded coatings. Polarization potential, current density, solution pH value, and dissolved oxygen concentration were measured by using the simulation of crevice area with disbonded coatings. Results have demonstrated that CP cannot reach the crevice bottom which reduces the effectiveness of corrosion protection. This effectiveness depends on the crevice geometry and could be improved with the increase of crevice length and decrease of its mouth size. A potential difference always exists between the mouth area and inside crevice. The oxygen concentrations drop significantly inside crevice whether CP is applied or not. The solution pH values inside crevice increase with the time. The solution pH values are higher when the applied CP potentials are more negative. According to the experiments, the effectiveness of cathodic protection could also be improved through enhancement of the local solution alkalinity. The research provides necessary information to prevent potential pipeline ruptures due to crevice corrosion and therefore mitigate potential losses for oil and gas transportation in the process industries.     

API Standard 521 new alternative method to evaluate fire relief for pressure relief device sizing and depressuring system design

Since the 1950's, API Standards have provided guidance on determining relief loads for equipment exposed to pool fires. The API method is empirical based on tests performed in the 1940's. There is increasingly widespread interest in analytical methods based on heat transfer principles to model fire heat input. The API committee agreed to include an analytical method in the 6th edition of API Standard 521 to establish relief loads for pressure relief devices and to design depressuring systems for the fire scenario. The analytical method provides more flexibility than the empirical method but has limitations (e.g., too many permutations are possible leading to potential under-sizing of the pressure relief device).This paper discusses the basis for the empirical method in API Standard 521 and provides comparisons of the empirical and analytical method with two more recent large-scale pool fire tests. This pool fire test data indicates that the empirical method will provide a conservative estimate of pool fire heat input for most applications and is still the method of choice when designing pressure relief systems. However, these recent tests indicate the empirical method needs to be modified when a vessel or equipment is partially confined by adjacent embankments or walls equal or greater than the vessel height. In such cases, the wetted area exponent should be 1.0 instead of 0.82.The analytical method is useful in determining time-versus-temperature profiles for heating unwetted vessels of varying wall thicknesses and materials of construction. These profiles, which depend upon the type of fire (e.g., unconfined pool fire, jet fire, etc.), can be combined with tensile strength and stress-rupture data to specify a depressuring system's pressure-versus-time profile. This will minimize failure and/or mitigate the effects of failure due to overheating from fire exposure.     

新疆卡拉麦里山有蹄类自然保护区生物多样性保护研究

生物多样性具有多重价值,如生态价值、社会价值和经济价值。卡拉麦里山自然保护区生物多样性不但关系到当地经济发展和人民生存安全,而且关系到整个保护区、整个新疆的可持续发展。本文分析了卡拉麦里山有蹄类自然保护区生物多样性特点及生物多样性遭受严重破坏的原因,提出了保护该区生物多样性的对策措施：①加强卡拉麦里山有蹄类自然保护区生物多样性的调查研究工作。②加强保护区的建设。③加大立法与执法制度。④加强生物多样性保护的宣传教育。⑤加强生物多样性保护的公众参与。⑥加强当地居民的基本生产、生活条件建设。⑦在保护区推行生态旅游。     

环氧乙烷生产系统的安全性评价

用道氏火灾、爆炸危险指数评价方法对抚顺乙烯化工厂环氧乙烷生产系统进行安全性评价.针对环氧乙烷生产系统实际运转情况,对其中的M101混合器单元从一般工艺危险性、特殊工艺危险性和安全补偿措施等方面进行了系统分析,并对该系统的危险性因素进行辨识并提出了相应的整改措施.结果表明,该生产系统中5个评价单元内的实际最大可能财产损失分别是1.407×107元、1.488×107元、0.489×107元、0.804×107元和0.711×107元,均在该评价方法规定的最大可能财产损失范围内,说明现役环氧乙烷生产系统在理论上是可以安全运行的.     

环氧乙烷生产装置的安全分析与评价

综合运用道化学公司火灾、爆炸危险指数评价法,事故树分析以及事件树分析对环氧乙烷生产装置进行安全评价,定量地得出装置的危险程度,定性地分析了各危险因素的大小以及系统中各元件的故障率对事故发生概率的影响程度,并提出了改进措施.结果表明,该装置的危险程度很大,必须加强安全生产管理,采取有效措施控制氧气的浓度,从而降低危险性等级,保证生产安全.     

爆炸危险环境防雷安全措施探讨

针对当前爆炸危险环境建筑物的防雷措施存在的漏洞,探讨了合理可行的安全措施和解决对策.     

综合关联分析在火灾分析中的应用

应用灰色综合关联分析理论,以1994年至1998年中国火灾成因及后果的统计数据为样本,选取了造成火灾的5种原因,分别以事故起数、死亡人数、直接经济损失为系统特征,对系统进行了综合关联分析和优势分析,为掌握火灾发生规律及进行火灾预防等提供了依据.