某炼铁厂炉顶除尘系统的风量调整与仿真分析研究

某炼铁厂炉顶除尘设备运行中各吸尘点风量失衡,造成除尘系统不能发挥应有的作用.通过对除尘系统各吸尘点风量及阻力、除尘器性能、风机性能等参数进行测试,并利用Fluent对系统内流场分布进行仿真与评估、对系统阻力平衡点进行分析,重新调整各个调节阀的开度,优化系统各吸尘点风量分布.调整后,不仅使系统达到现有条件下最佳除尘效果,而且找出了除尘系统设计及运行缺陷,提出了可行的解决方案.     

多相流动状态下HCO_3~-对X70钢CO_2腐蚀的影响

自制实验装置,应用多种检测手段对挂片形貌、腐蚀速率以及挂片在线腐蚀情况进行分析,实验与数值仿真了多相流动状态下HCO_3~-对X70钢CO_2腐蚀速率的影响。结果表明:HCO_3~-浓度较低时,腐蚀介质中的H~+浓度升高,阴极析氢反应加快,X70钢腐蚀速度升高;HCO_3~-浓度较高时,碳酸根不溶盐优先附着在挂片表面,形成一层腐蚀产物膜,保护挂片。     

基于地域性的三种污泥干化工艺的经济性比较

随着城市污水排放量的增多和成分的复杂化,污泥处理已成为污水处理厂面临的最大难题。脱水污泥含水率高,不利于后续的处理与再利用。污泥热干化可将污泥含水率降至10%~40%,但该过程耗能大,会大幅增加污泥处理成本,不利于污泥处理技术的推广应用。以拉萨、上海、重庆为例,分别对带式干化、热泵-太阳能干化、热泵-太阳能-蓄热干化3种污泥干化工艺的经济性进行分析,阐明了不同干化方式的适用特点,为相变蓄热技术在污泥干化中的推广应用提供了技术参考。     

垂直流湿地基质中酶的分布与氮磷及有机质的关系

为了解垂直流人工湿地基质中酶的空间分布特点及其与基质中氮磷和有机质的关系,采用垂直流人工湿地微宇宙试验系统进行了为期4个月的运行试验,分析种植植物的皇竹草系统和不种植物的对照系统基质中不同深度层酶活性的变化,以及酶活性与基质中污染物的关系. 结果表明:脲酶、磷酸酶、过氧化氢酶、转化酶、蛋白酶和纤维素酶这6种酶的活性在上层(0~<10 cm)的分布特点相一致,即皇竹草系统基质中的酶活性显著高于对照系统(P＜0.05). 在垂直方向上,两个系统中6种酶的活性都表现为上层显著较高,这与基质中w(TN)、w(TP)和w(有机质)的分布规律相一致;Pearson相关性分析发现,脲酶活性与w(TN)、w(TP)、w(有机质)均呈极显著正相关(相关系数依次为0.951、0.970、0.933,P均小于0.01),过氧化氢酶、转化酶活性均与w(TN)呈极显著正相关(相关系数依次为0.997、0.916,P均小于0.01),磷酸酶活性与w(TP)、w(有机质)均呈极显著正相关(相关系数依次为0.925、0.919,P均小于0.01),转化酶活性与w(TP)呈显著相关(相关系数为0.869,P<0.05),纤维素酶活性与w(有机质)呈显著相关(相关系数为0.864,P<0.05). 研究显示,在垂直流人工湿地系统中种植皇竹草有助于提高基质中酶的活性,酶活性与氮磷及有机质等污染物的积累和迁移密切相关.      

微电解技术处理难降解工业废水的研究进展

介绍了铁碳微电解技术处理工业废水的作用机理。综述了铁碳微电解技术的研究进展。针对该技术在处理不同工业废水时普遍存在的堵塞、短路、死角、铁屑结块等问题,介绍了研发的新型纳米铁碳微电解复合材料及新工艺,并对铁碳微电解技术今后的研究方向进行了展望。     

基于可拓和组合赋权的泥石流危险性评价

基于可拓学物元理论,结合层次分析主观赋权法与灰色关联度客观赋权法,对评价因子进行组合赋权,避免单一赋权方法的片面性,建立泥石流危险性评价模型。影响泥石流危险性的因子有很多,通过现场实际调查,选取一次泥石流最大冲出量、发生频率、24 h最大降雨量等8个因子对泥石流进行危险性评价。运用该模型对卡拉地区7条泥石流沟进行危险性评价,评价结果与实际情况相吻合,表明此方法可为泥石流危险性评价提供参考。     

Experimental study of the evaporation of spreading liquid nitrogen

The investigation of cryogenic liquid pool spreading is an essential procedure to assess the hazard of cryogenic liquid usage. There is a wide range of models used to describe the spreading of a cryogenic liquid pool. Many of these models require the evaporation velocity, which has to be determined experimentally because the heat transfer process between the liquid pool and the surroundings is too complicated to be modeled. In this experimental study, to measure the evaporation velocity when the pool is spreading, liquid nitrogen was continuously released onto unconfined concrete ground. Almost all of the reported results are based on a non-spreading pool in which cryogenic liquid is instantaneously poured onto bounded ground for a very short period of time. For the precise measurement of pool spreading and evaporation weight with time, a cone-type funnel was designed to achieve a nearly constant liquid nitrogen release rate during discharge. Specifically, three nozzles with nominal flow rates of 3.4 × 10⁻² kg/s, 5.6 × 10⁻² kg/s and 9.0 × 10⁻² kg/s were used to investigate the effect of the release rate on the evaporation velocity. It is noted that information about the release rate is not necessary to measure the evaporation velocity in case of the non-spreading pool. A simultaneous measurement of the pool location using thermocouples and of the pool mass using a digital balance was carried out to measure the evaporation velocity and the pool radius. A greater release flow rate was found to result in a greater average evaporation velocity, and the evaporation velocity decreased with the spreading time and the pool radius.     

Thermal runaway reaction for highly exothermic material in safe storage temperature

Highly exothermic materials have caused many serious accidents involving storage and transportation, due to being thermally reactive. The safe storage and management of these materials is still a critical problem in many countries. Our aim was to study the thermal hazard of thermal reactive materials, such as a propellant, by employing differential scanning calorimetry (DSC) non-isothermal tests and isothermal tests, and then comparing the kinetic parameters by isothermal and non-isothermal of kinetics. The chosen approach was to obtain reliable thermal decomposition by a safe and effective method, which acquired the kinetic and safety parameters of storage conditions that could be applied as highly exothermic materials' reduction of loss prevention and energy potential for safer design during storage transport and processing operations.     

电极材料对电动修复尾矿周边铅污染土壤的影响研究

影响土壤电动修复效率的因素很多,包括土壤类型、污染物性质、电压和电流大小、洗脱液组成和性质、电极材料和结构等.但很少有文献报道不同电极材料对电动修复土壤重金属污染的效率影响,文章采用不同电极材料(石墨、不锈钢和钛板)对尾矿附近的土壤进行电动修复,研究了修复效率及土壤pH随时间的变化情况.当电场强度为1 V/cm,采用石墨电板电动修复48 h总铅的去除效率为77％,不锈钢电极和钛电极的修复效率分别为64％和54％.石墨电极去除效率的提高归因于相比于不锈钢电极和钛电极,石墨电极提供更多的电子传递所需的活性界面.     

基于非对称流场流分离技术的纳米银分离监测方法

以纳米银(AgNPs)作为典型的纳米颗粒物,利用非对称流场流分离技术构建纳米颗粒物的分离监测方法。制备了柠檬酸盐稳定的AgNPs分散液,采用透射电镜、紫外可见分光光度计、Zeta电位分析仪对AgNPs分散液进行了表征。结果表明,AgNPs半径多数小于10 nm,最大吸收波长为400 nm,Zeta电位为-42.56 m V。采用非对称流场流分离仪对AgNPs进行粒径分离,得到UV-Vis信号谱图,并收集得到半径小于10 nm、10~30 nm、30~50 nm、50~70 nm、70~100nm范围的AgNPs颗粒,结合电感耦合等离子体质谱仪测定每个粒径范围内AgNPs的质量浓度。结果表明,该方法重现性良好,AgNPs在半径小于10 nm的范围内达到了UV-Vis吸收峰值,响应信号最高为0.022 5~0.027 5 V,表明半径小于10 nm的AgNPs浓度较高。半径小于10 nm、10~30 nm、30~50 nm、50~70 nm、70~100 nm范围内AgNPs的质量浓度分别为(1 021.86±61.74)μg/L、(323.23±45.83)μg/L、(72.90±32.14)μg/L、(44.64±9.28)μg/L、(39.12±5.04)μg/L,回收率为43.96%±0.84%。