HSE管理体系运行常见问题分析及对策

1HSE管理体系运行的常见问题国内石油企业推行HSE管理体系已经十余年,在从上到下各级领导的高度重视下,由最初的少数企业行为,发展到现今的全面推进实施,普遍应用这一系统方法管理企业职业健康、安全和环境工作,     

济南市土壤中酞酸酯的分析与分布

本文对济南市土壤中酞酸酯污染的重点地区进行了比较详细的研究，初步掌握了酞酸酯在土壤中分布状况及分布规律。     

考虑接头影响的综合管廊标准段地震响应分析∗

地震是造成综合管廊破坏的主要原因之一,综合管廊一旦发生破坏,其产生的后果将比传统埋地管道复杂得多。本文介绍了常见的几种综合管廊接头形式,并对不同的接头形式分别建立有限元模型,选取综合管廊标准段并考虑混凝土塑性损伤模型以及土体本构模型,利用自编程序施加黏弹性人工边界以及等效节点力对不同接头形式下管廊及内部管道进行地震响应分析。结果表明,在不同地震动强度下的最大纵向位移差,整体现浇结构的响应会高于预制拼装结构,且随着地震动强度的增加,响应的差异会进一步增大。两种接头形式下,管廊标准段在地震动作用下的损伤很小,仅在地震动峰值加速度达到0.4g及以上时会发生轻微损伤,不会影响正常使用。同一地震动作用下,小管径的管道应力水平会小于大管径的管道应力水平。同时采用橡胶止水带和预应力钢筋的接头形式会比仅采用橡胶止水带的接头形式更有利于降低廊内管道的应力水平。考虑到采用预应力钢筋连接的预制拼装结构会进一步提高廊内管道的安全水平,因此,在成本允许的情况下,不仅要考虑接头的防水,还应该采用预应力筋对相邻节段连接,进一步提升综合管廊的抗震性能。     

降雨诱发公路滑坡社会风险评估∗

降雨诱发公路滑坡灾害威胁着行车人员的生命安全,评估公路滑坡社会风险具有重要意义。然而,目前的公路滑坡社会风险评估方法无法考虑不同伤亡人数的年发生概率。针对上述不足,提出公路滑坡两类影响方式下不同伤亡人数的年发生概率计算方法,两类影响方式分别为运动滑体冲击行进中车辆和运动车辆碰撞已滑落滑体。提出的方法被用于评估香港地区青山公路某滑坡社会风险。首先基于中国香港历史滑坡数据统计获得降雨诱发该滑坡的年发生概率,之后采用经验公式预测该滑坡可能的滑动距离,最后基于全概率理论对两类影响方式下不同伤亡人数的年发生概率分别进行计算,并基于F?N 图对社会风险进行评价。评价结果表明不同类型车辆人员的伤亡风险互不相同,运动滑体冲击行进中车辆造成的人员伤亡风险低于运动车辆碰撞已滑落滑体造成的人员伤亡风险。     

生活垃圾堆肥工艺条件及其反应动力学研究

为了改善堆肥微环境 ,提高生活垃圾堆肥速率 ,研究堆肥工艺条件及其反应动力学是非常必要的。通过控制堆肥工艺条件 ,如初始温度、含水率、C/N比及堆料颗粒大小 ,研究生活垃圾堆肥过程中生物、化学及物理因素的变化。试验结果表明 ,生活垃圾堆肥反应符合一级反应动力学 ;合理控制堆肥初始反应条件 ,能明显提高堆肥效率。     

酚类化合物对不同组织细胞DNA损伤的研究

应用单细胞凝胶电泳技术 ,研究了酚类化合物对不同组织细胞DNA的损伤 .试验结果表明 ,酚类化合物均能引起不同组织细胞不同程度的DNA损伤 ,并呈现剂量效应关系 .其高剂量组与对照组相比 ,均有极显著性差异 (P <0 0 1 ) .不同组织细胞对同一种药物呈现出不同的敏感性 .酚类化合物遗传毒性效应与其结构密切相关     

典型四环素类抗生素的预测无效应浓度和风险评估

四环素类抗生素是一类广谱抗生素,对生态环境存在潜在风险.本研究以四环素和土霉素为研究对象,根据欧盟现有化学物质风险评价技术指导文件(TGD),推导不同环境介质中四环素和土霉素的预测无效应浓度(PNEC),并采用风险商值(RQ)法对我国部分地区水质、淡水沉积物和土壤的暴露风险进行评估.结果 表明,我国水质、淡水沉积物及土壤中四环素的PNEC值分别为0.115 μg·L-1、423 μg·kg-1(湿质量)和57 μg· kg-1(湿质量);土霉素的PNEC值分别为4.93μg·L-1、1.78x104 μg·kg1(湿质量)和3.16×103μg·kg-1(湿质量).淡水沉积物风险区域主要集中在海河,土壤风险区域主要集中在山东省、四川省彭州市、辽宁省沈阳市等,部分区域点位存在潜在的生态风险.研究结论可为四环素类抗生素的生态环境风险评价提供科学依据.     

Cu/Cr co-stabilization mechanisms in a simulated Al2O3-Fe2O3-Cr2O3-CuO waste system

• Cu and Cr can be mostly incorporated into CuFe_xAl_yCr_2−x−yO₄ with a spinel structure. • Spinel phase is the most crucial structure for Cu and Cr co-stabilization. • Compared to Al, Fe and Cr are easier to be incorporated into the spinel structure. • ‘Waste-to-resource’ by thermal process at attainable temperatures can be achieved. Chromium slag usually contains various heavy metals, making its safe treatment difficult. Glass-ceramic sintering has been applied to resolve this issue and emerged as an effective method for metal immobilization by incorporating heavy metals into stable crystal structures. Currently, there is limited knowledge about the reaction pathways adopted by multiple heavy metals and the co-stabilization functions of the crystal structure. To study the Cu/Cr co-stabilization mechanisms during thermal treatment, a simulated system was prepared using a mixture with a molar ratio of Al₂O₃:Fe₂O₃:Cr₂O₃:CuO= 1:1:1:3. The samples were sintered at temperatures 600–1300°C followed by intensive analysis of phase constitutions and microstructure development. A spinel phase (CuFe_xAl_yCr_2−x−yO₄) started to generate at 700°C and the incorporation of Cu/Cr into the spinel largely complete at 900°C, although the spinel peak intensity continued increasing slightly at temperatures above 900°C. Fe₂O₃/Cr₂O₃ was more easily incorporated into the spinel at lower temperatures, while more Al₂O₃ was gradually incorporated into the spinel at higher temperatures. Additionally, sintered sample microstructures became more condensed and smoother with increased sintering temperature. Cu / Cr leachability substantially decreased after Cu/Cr incorporation into the spinel phase at elevated temperatures. At 600°C, the leached ratios for Cu and Cr were 6.28% and 0.65%, respectively. When sintering temperature was increased to 1300°C, the leached ratios for all metal components in the system were below 0.2%. This study proposes a sustainable method for managing Cu/Cr co-exist slag at reasonable temperatures.     

纳米硫化镉对A549细胞的损伤研究

研究纳米硫化镉(Nano-Cd S)材料对肺癌细胞系A549的毒性及氧化损伤作用。培养A549细胞,经传代后接种于6孔板中,每孔2 m L完全培养基,接种次日进行染毒。用直径20~30 nm、长度80~100 nm的Nano-Cd S进行染毒,染毒浓度分别为0、5、10、20、40和80 mg·L~(-1)。染毒24 h后用MTT检测细胞存活率,以存活率在80%左右的浓度为后续实验染毒浓度。应用流式细胞技术,用荧光探针法检测A549细胞的活性氧(reactive oxygen species,ROS)含量,PI-Annexin-V法检测细胞凋亡情况;用试剂盒检测细胞中超氧化物岐化酶(superoxide dismutase,SOD)和过氧化氢酶(catalase,CAT)活性以及丙二醛(malondialdehyde,MDA)含量,判断细胞氧化损伤情况。不同浓度Nano-Cd S处理细胞24 h之后,细胞存活率随剂量的增加而下降,浓度为10、20、40和80μg·L~(-1)时,存活率分别为(88.71%±0.80%)、(81.93%±3.06%)、(75.23%±1.13%)和(70.66%±5.63%),且各组间差异均具有统计学意义(P0.05)。以浓度为10和20 mg·L~(-1)的Nano-Cd S染毒24 h后,胞内ROS含量和细胞凋亡率随染毒剂量的增加而增加(P0.05);浓度为10 mg·L~(-1)时,细胞凋亡率为(6.26%±0.44%)。与对照相比,各染毒组SOD和CAT活性和MDA含量升高,20 mg·L~(-1)染毒组SOD和CAT活性和MDA含量高于10 mg·L~(-1)染毒组(P0.05)。研究表明,纳米硫化镉能引起A549细胞的氧化损伤和细胞凋亡,具有明显的细胞毒性。     

Improving simulations of sulfate aerosols during winter haze over Northern China: the impacts of heterogeneous oxidation by NO<Subscript>2</Subscript>

We implemented the online coupled WRF-Chem model to reproduce the 2013 January haze event in North China, and evaluated simulated meteorological and chemical fields using multiple observations. The comparisons suggest that temperature and relative humidity (RH) were simulated well (mean biases are–0.2K and 2.7%, respectively), but wind speeds were overestimated (mean bias is 0.5 m?s^–1). At the Beijing station, sulfur dioxide (SO₂) concentrations were overpredicted and sulfate concentrations were largely underpredicted, which may result from uncertainties in SO₂ emissions and missing heterogeneous oxidation in current model. We conducted three parallel experiments to examine the impacts of doubling SO₂ emissions and incorporating heterogeneous oxidation of dissolved SO₂ by nitrogen dioxide (NO₂) on sulfate formation during winter haze. The results suggest that doubling SO₂ emissions do not significantly affect sulfate concentrations, but adding heterogeneous oxidation of dissolved SO₂ by NO₂ substantially improve simulations of sulfate and other inorganic aerosols. Although the enhanced SO₂ to sulfate conversion in the HetS (heterogeneous oxidation by NO₂) case reduces SO₂ concentrations, it is still largely overestimated by the model, indicating the overestimations of SO₂ concentrations in the North China Plain (NCP) are mostly due to errors in SO₂ emission inventory.

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