流动注射在线富集原子吸收法测定痕量铅镉

在含铅、镉的试液中加入pH=5.72乙酸-乙酸钠缓冲溶液3.20 mL,泵的转速恒为5 mL/min,用自制的强酸性阳离子交换树脂柱对试液中的铅、镉在线富集150 s,1.50 mol/L HNO3溶液洗脱20 s,火焰原子吸收法测定铅、镉的含量。该方法的线性范围分别是0~80.0μg/L、0~40.0μg/L,检出限分别为3.0μg/L、1.0μg/L,富集倍数分别为40倍、35倍。用该方法测定地表水中铅、镉的含量,结果满意。     

火焰原子吸收法测定水中铁的不确定度评定

测量不确定度是表征合理地赋予被测量值的分散性,与测量结果相联系的参数,通过火焰原子吸收分光光度法对水中铁的不确定度进行评定,确定铁测量不确定度的来源主要为工作曲线拟合、消解过程、重复测定和分析仪器,最主要来源是工作曲线,其他测量因素引起的分量较小,可以不予考虑。通过合理选择不确定度分量,优化评定过程,减少评定环节,达到对不确定度合理评定的目的。     

Toxic effects on adult male zebrafish（Danio rerio） following co-exposure to tris-（2,3-dibromopropyl） isocyanurate and 17 β-estradiol

三-（2,3-二溴丙基）异氰脲酸酯（TBC）是近年来在环境中新检测到的一种杂环溴化阻燃剂,但其毒性效应尚不明确.我们以雄性斑马鱼为受试动物,开展了TBC和17β-雌二醇（E2）的复合暴露实验,以研究TBC潜在的致毒机制.结果显示TBC可显著抑制E2所引起的斑马鱼肥满度指数上升,并能改善E2暴露所造成的斑马鱼精子细胞比例降低和性腺发育迟缓;E2暴露可造成斑马鱼肝组织脂肪样病变,肝中MDA含量上升,但SOD活力没有显著改变;TBC复合暴露后,MDA含量呈现下降趋势,但鱼肝仍有明显的脂肪样病变,对肝脏中的SOD活力也没有显著影响;更重要的是,TBC可显著抑制E2单一暴露所诱导的雄鱼肝脏中卵黄蛋白原基因的表达,这些数据表明TBC具有明显的内分泌干扰效应.因此,需要进一步关注TBC这类杂环溴化阻燃剂对水环境的潜在危害.     

环境中新兴有机污染物得克隆的研究进展

得克隆(Dechlorane plus,DP),即双(六氯环戊二烯)环辛烷,是一种有机氯系脂肪族添加型阻燃剂,也是环境中一类新型的有机污染物。前期对环境中DP的研究主要集中在北美五大湖地区,近来我国和欧洲部分国家也开展了类似的研究。文章综述了DP各种环境介质中的浓度分布和同系物特征,并对需要重点开展的研究方向进行了展望。     

丙烷扩散火焰燃烧光谱特性研究*

为实现烃类火灾事故的光谱辨识,对丙烷火焰燃烧初期过程中的光谱特性进行实验研究,利用拉曼光谱仪等设备采集、提取丙烷扩散火焰光谱数据。分析燃烧初期OH*,C2*,CH*,H2O分子谱带范围及特征峰值分布特性,揭示谱带光谱特征强弱的主要原因,阐述沿火焰轴向与径向C2*,CH*以及H2O分子光谱峰值强度的分布特性。研究结果表明:丙烷火焰特征光谱主要分布在可见光与近红外波段,250~380 nm的近紫外波段光谱强度较弱。C2*的509.4,512.8,810.5 nm特征谱带,CH*的431.4 nm谱带以及H2O分子的586.2,652.2 nm处振动-转动谱带可作为丙烷火焰燃烧的关键特征光谱,为烃类火灾的早期识别与防控提供光谱实验依据。     

坡地建筑外立面火灾温度演化研究

针对坡地建筑外立面开口火溢流行为,为了预测不同坡地角度时圆形开口建筑火溢流的外立面热羽流温度分布规律,采用1∶8缩尺寸建筑火灾模型,开展圆形开口建筑火溢流实验研究.结果 表明:在建筑火灾燃烧状态稳定下,对于确定开口尺寸、火源功率以及坡地坡度(倾斜挡墙)下,带有圆形开口的燃烧室内温度基本均匀且保持一致;针对圆形开口建筑,...     

Characteristics of dust explosion venting pressure and flame under high activation pressure

A 20 L spherical explosive device with a venting diameter of 110 mm was used to study the vented pressure and flame propagation characteristics of corn dust explosion with an activation pressure of 0.78–2.1 bar and a dust concentration of 400∼900 g/m³. And the formation and prevention of secondary vented flame are analyzed and discussed. The results show that the maximum reduced explosion overpressure increases with the activation pressure, and the vented flame length and propagation speed increase first and then decrease with time. The pressure and flame venting process models are established, and the region where the secondary flame occurs is predicted. Whether there is pressure accompanying or not in the venting process, the flame venting process is divided into two stages: overpressure venting and normal pressure venting. In the overpressure venting stage, the flame shape gradually changes from under-expanded jet flame to turbulent jet flame. In the normal pressure venting stage, the flame form is a turbulent combustion flame, and a secondary flame occurs under certain conditions. The bleed flames within the test range are divided into three regions and four types according to the shape of the flame and whether there is a secondary flame. The analysis found that when the activation pressure is 0.78 bar and the dust concentration is less than 500 g/m³, there will be no secondary flame. Therefore, to prevent secondary flames, it is necessary to reduce the activation pressure and dust concentration. When the dust concentration is greater than 600 g/m³, the critical dust concentration of the secondary flame gradually increases with the increase of the activation pressure. Therefore, when the dust concentration is not controllable, a higher activation pressure can be selected based on comprehensive consideration of the activation pressure and destruction pressure of the device to prevent the occurrence of the secondary flame.     

磁场对扩散火焰特性的影响

通过磁场对扩散火焰特性影响的研究，可以发现磁场能够改变火焰的燃烧特性，使火焰的温度升高，而火焰的高度有所降低。这能使我们更精确地了解实际火灾过程中火焰的燃烧特性，掌握火灾的特点，为减灾和灭灾提供有益的参考。     

Behavior of flames propagating through lycopodium dust clouds in a vertical duct

The structure of flame propagating through lycopodium dust clouds has been investigated experimentally. Upward propagating laminar flames in a vertical duct of 1800 mm height and 150×150 mm square cross-section are observed, and the leading flame front is also visualized using by a high-speed video camera. Although the dust concentration decreases slightly along the height of duct, the leading flame edge propagates upwards at a constant velocity. The maximum upward propagating velocity is 0.50 m/s at a dust concentration of 170 g/m³. Behind the upward propagating flame, some downward propagating flames are also observed. Despite the employment of nearly equal sized particles and its good dispersability and flowability, the reaction zone in lycopodium particles cloud shows the double flame structure in which isolated individual burning particles (0.5–1.0 mm in diameter) and the ball-shaped flames (2–4 mm in diameter; the combustion time of 4–6 ms) surrounding several particles are included. The ball-shaped flame appears as a faint flame in which several luminous spots are distributed, and then it turns into a luminous flame before disappearance. In order to distinguish these ball-shaped flames from others with some exceptions for merged flames, they are defined as independent flames in this study. The flame thickness in a lycopodium dust flame is observed to be 20 mm, about several orders of magnitude higher than that of a premixed gaseous flame. From the microscopic visualization, it was found that the flame front propagating through lycopodium particles is discontinuous and not smooth.     

水雾作用下气体爆炸火焰传播的实验研究

利用自行设计的全程透明的火焰加速管和水喷雾系统，对不同水雾条件下的气体火焰传播现象进行了实验研究。运用光电传感器与数字摄像技术分析了不同浓度的甲烷在不同水雾条件下的火焰传播速度、火焰阵面轨迹以及火焰结构特性，并通过对传播火焰反应区温度的测量，探讨了水雾抑制气体爆炸火焰传播的内在机理及所需的条件。实验结果表明：由于水雾作用于火焰反应区，降低了火焰反应区内的温度和气体燃烧速度，延长火焰阵面的预热区，减缓火焰阵面传热与传质的进行，从而使传播火焰得以抑制。水雾对气体爆炸火焰传播的抑制效果与水雾流量速度、雾区浓度以及火焰到达水雾区的火焰传播速度有关。