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在相对比较法的基础上推导出按K=a-b)/a*100%法计算采样效率的新方法,实例分析表明,该法比目前采用的绝对比较法简便快速,较相对比较法准确,它应用范围广,尤其适用于选择吸收材料。 相似文献
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为了研究不同自燃倾向性煤自燃特性变化规律,利用煤氧化动力学测定系统,测试了三种不同自燃性煤的氧化特征。结果表明:(1)单一气体生成量、耗氧量及耗氧速率均随着煤自燃性的增强而增大,且CO生成量和耗氧速率急剧上升的拐点温度与出现C_2H_4气体的温度相同。(2)CO、CO_2和C_2H_4产生率具有明显的阶段性,且前两种气体最大产生率所对应的温度相同;当不同自燃性煤的温度超过80℃时,两组指标CO/ΔO_2和CO/CO_2均迅速增大,表明其氧化反应加快。(3)在TG-DSC试验中,煤的氧化燃烧过程可分为5个阶段,对应于4种特征温度。其中过渡稳定阶段指煤的质量保持稳定,是失重到增重的过渡态,且不同自燃性煤每个阶段持续时间及阶段性特征温度存在显著差异。 相似文献
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含硫油品储罐腐蚀产物自燃性的研究 总被引:1,自引:0,他引:1
通过模拟储油罐中硫铁化物的生成方式, 分析和研究了H2S气体在无氧条件下,与不同相对湿度的Fe2O3、Fe3O4和Fe(OH)3反应所生成的硫铁化物的自燃性.不同相对湿度的试样经6 h硫化后,其自燃性明显不同.以Fe2O3试样为例,相对湿度为0的硫化产物氧化升温最高为256 ℃,平均升温速率为10.8 ℃/min; 相对湿度为5%、10%和15%的硫化产物,氧化升温最高温度分别为474 ℃、408 ℃和388 ℃,平均升温速率分别为20.5 ℃/min、18.3 ℃/min和13.5 ℃/min.实验结果表明, 不同相对湿度、不同物质的硫化产物,其自燃性有显著差异,样品的相对湿度对硫化产物的自燃性有重要影响.对各种干燥样品的硫化产物进行电镜分析发现,由不同物质硫化所生成的硫化产物结构不同,致使其自燃性有较大差异.硫铁化物氧化反应放热是引发油罐着火的主要因素. 相似文献
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含硫油品储运过程中H2S腐蚀产物是常温下硫铁化合物的主要来源,以H2S与铁粉反应制备的硫铁化合物来模拟设备内H2S的腐蚀产物,利用自然氧化的方法测定了硫化反应产物的一次氧化升温和二次氧化升温,考察了铁粉含水量对硫化反应及硫化反应产物自燃性的影响,采用XRD和SEM手段对硫化反应产物进行了表征。结果表明:H2S与铁粉的硫化反应产物为FeS,呈微小颗粒状,覆盖在铁粉表面;硫化反应产物具有自燃性,一次氧化升温最高达到87℃;未被完全氧化的硫化反应产物密封放置一段时间后自燃性明显增加,其二次氧化升温速率最高超过39℃/min;铁粉中含有适量的水可以增加硫化反应速率,提高硫化反应产物的自燃性。 相似文献
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不同变质程度的煤具有不同的自燃倾向性,研究煤的微观结构特征,对揭示和表征不同变质程度煤自燃的内在属性具有重要意义。以巴拉普库利亚、张家口、龙固、埠康等7个矿区的煤样为研究对象,分析了不同变质程度煤的表面特性、微晶结构和官能团的变化规律,进一步揭示了煤自燃性的内在微观机理。结果表明:煤表面性质参数随变质程度加深先减小后增大,微晶结构阶段性是导致这种变化的关键,且煤Cdaf为90%左右是转折点;随变质程度加深,煤分子内部微晶结构排列逐渐有序化,芳香环深度缩合,脂肪层结构含量减少,煤自燃性减弱;随煤变质程度加深,煤分子中羟基、羰基、烷基醚和芳香醚等官能团的含量均逐渐降低,这些官能团数量的差异决定了煤内在自燃性的难易程度。 相似文献
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元素硫高温腐蚀产物氧化自燃性影响因素的研究 总被引:1,自引:1,他引:0
用差热-热重分析仪考察元素硫与Fe(OH)3发生硫化腐蚀反应的初始温度,分析硫化温度、硫化时间、氧化温度和水对高温硫腐蚀产物氧化自燃性的影响。结果表明:元素硫与Fe(OH)3发生硫化反应的初始温度为287.67℃;硫化温度越高,硫化时间越长,元素硫高温硫化腐蚀产物中FeS2的含量越高,氧化自燃性越大;氧化温度对高温硫腐蚀产物的氧化自燃性有很大影响,室温时几乎不发生氧化反应,氧化温度超过95℃后,腐蚀产物的氧化反应速率大幅度提高,对炼油装置安全构成极大威胁;水对高温硫腐蚀产物的氧化自燃性起着重要作用,无水时,高温硫化产物基本不发生氧化反应,少量水存在即可极大影响高温硫腐蚀产物的氧化速率。 相似文献
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《中国安全生产科学技术》2001,21(5):13-14
513装置通电后,检查是否有显示或检查装置工作正常的功能。514装置工作稳定性试验a装置置于正常工作状态,用模拟爆炸信号如火焰温度<阈值温度-15K,压力<阈值压力-0.5kPa触发,用数字万用表测试传感控制器件的输出;然后接上喷撒装置,再用上述信号触发,观察喷撒装置是否被启动。b用模拟爆炸信号如火焰温度>阈值温度+15K,压力>阈值压力+0.5kPa触发,重复a试验。c装置置于正常工作状态,工作100h后,重复a和b试验。515装置抑爆性能试验5151管道用装置抑爆性能试验a试验条件:1抑爆剂… 相似文献
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为了分析有氧条件下H2S对铁锈腐蚀产物的自燃性,模拟含硫油品储罐中铁锈(Fe2O3:75%;Fe(OH)3:7%;Fe3O4:18%)在有氧条件下与H2S气体的反应试验。将铁锈与H2S气体、O2按不同比例混合形成的混合物进行反应,再进行所得产物的氧化反应。采用X射线衍射分析法鉴定混合气体与铁锈的反应产物,并研究不同初始O2体积分数下的混合气体与铁锈的反应及其产物的再氧化反应,通过温度变化评价铁锈与H2S气体反应产物的自燃性。结果表明,在有氧条件下,H2S对铁锈腐蚀产物主要是FeS;随着初始O2体积分数的增加,铁锈与H2S的反应伴随其产物的氧化反应,HS对铁锈腐蚀产物的量减小,这种产物再氧化自燃性降低。 相似文献
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室内火灾条件下复合板装潢材料火灾特性的实验研究 总被引:12,自引:7,他引:5
运用ISO Room方法在全尺寸室内墙角火源条件下进行了复合板装潢材料火灾特性的研究,详细讨论了复合板的点燃,火焰传播和炭化物性以及室内火灾的发展过程。在墙角火源条件下,内火灾发展过程可分为四个不同阶段,而在每一发展阶段,东面和北面墙上复合板分别存在四个和三个明显不同的区域。当区域四内的复合板东面和北面墙上复合板分别存在四个和三个明显不同的区域。 相似文献
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The minimum ignition temperature of dust suspension (MIT) and the hot surface ignition temperature of the dust layer (LIT) are essential safety parameters for the process industry. However, the knowledge of the ignition behavior when solid mixtures of flammable fuels and phosphorous-free inhibitors are considered is still scarce and further experimental and theoretical analyses are requested. In this work, the ignition temperature of phosphorous-free inhibitors (coal fly ash and calcium carbonate) mixed with lycopodium dust have been studied in terms of LIT analysis (hot plate thickness: 5 mm, 12.5 mm and 15 mm), and by the Godbert-Greenwald test for the MIT. Both coal fly ash and calcium carbonate have been tested at different concentrations and particle sizes.Results show that the effects of the inhibitor can be counter-productive when layer ignition temperature is considered even if the minimum ignition temperature of the dust suspension shows a positive effect from the safety point of view. This behavior has been analyzed in the terms of thermal conductivity and diffusivity of the mixture, by using Maxwell's equation for two-phase solid mixtures. Standard empirical correlations for the ignition temperature of solid mixtures have been also tested, showing their weakness in reproducing mixture behavior. 相似文献
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利用修正了的高斯模式探讨核电站核素污染事故中的核素扩散。分析了边界条件,气象条件和核素衰变规律对核素扩散污染的影响,并进一步讨论了核素的污染范围,距源距离及核素的沉积量,可作为确定应急安全的理论依据。 相似文献
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The risk assessment of combustible explosive dust is based on the determination of the probability of dust dispersion, the identification of potential ignition sources and the evaluation of explosion severity. It is achieved in most of cases with the two main experimental normalized devices such as the Hartmann tube (spark ignition) and the 20 L spherical bomb (with two 5 kJ pyrotechnic ignitors).Ignition energy of the 5 kJ ignitor is well calibrated and generates a reproducible ignition. But, on the other hand, this ignition is not punctual and the over pressure produced is nearly 2 bar. Moreover, the pyrotechnic igniter accelerates the combustion with multi ignition points in a large volume and that disturbs the flame propagation. In this way, this ignition source does not allow to analyze the combustion products because the composition of the pyrotechnic igniter was found in the combustion products.This paper deals with the comparison of two ignition sources in the 20 L spherical bomb. Different explosive dusts of great industrial interest are studied with electrical and pyrotechnic ignitors, in order to understand, first, the influence of each type of igniter on the explosion behaviour and then to evaluate the possibility of establishing a correspondence between parameters obtained with these two ignition sources.Severity parameters of nicotinic acid, aluminium powder and titanium alloy were measured by using the two types of ignition system in our 20 L spherical bomb equipped with the Kühner dihedral injector. The explosion overpressure and the rate of pressure rise were measured in a large range of concentration allowing to propose correlations between electrical and pyrotechnic ignition for each parameter and each type of powder. These correlations aim to link the tests used with two different collections of experimental parameters for the same dust. The relevance of these correlations will be discussed. 相似文献
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《Process Safety and Environmental Protection》2014,92(4):311-323
This work presents the results of the experimental characterization of the ignition sensitivity of solid inertant/combustible powders mixtures. Three inert solids (alumina, Kieselguhr, aerosil) and eleven organic powders have been considered and the following parameters have been determined: (1) the minimum ignition energy, (2) the minimum ignition temperature in cloud and (3) the minimum ignition temperature in 5 mm layer. The effects of the addition of inert solids are described and a simple model is proposed to represent the experimental results.Generally, increasing inert solid content in a powder leads to a higher minimum ignition energy as well as a higher minimum ignition temperatures in cloud and in layer. In some cases, the flammability is influenced above a threshold concentration value, which can be quite high (up to 85 wt.%). Indeed, the proposed model shows a zone below the minimum ignition concentration (MIC), which does not enable an efficient or safe inerting: either the admixed inert solid does not provide a sufficient effect, or it can even facilitate the ignition of the dust by notably improving its dispersability.The influence of key parameters such as the thermal conductivity or optical properties on the efficiency of the inerting by admixed solid need to be further assessed in a future work in view to better understand the mechanisms involved and to extend the scope to other types of oxidizable materials. 相似文献