粉体气力输运中的静电问题研究

粉体在气力输运过程中会产生静电危害，首先要分析粉体产生静电的物理机制即着重研究：粉体气力输运中的静电现象与粉体和管路的几何、物理性质及输运的技术参数之间的关系；在对其中的某些因素如：输运气流流速、质量流量、粉体材料、粉体粒度等进行实验的基础上，总结出这些因素影响起电的规律。在测试技术方面，提出了一种新的、非接触式的利用静电感应原理测量粉体电量的方法，并与计算机结合，构成一个完整的测量系统。此法具有对工业粉体气力输运过程中的静电起电做连续、非接触在线测量的可行性。     

3GY型粉体无尘装车机的开发与应用

应用自主知识产权,采用“密闭输送、最小落差、零匝输送、软连接和科学运行管理”技术,科学组合,研究开发成功粉体无尘装车机,科学消除了高温,高压、高料位条件下贮仓放料,常规除尘器出灰和粉体转输与装车的粉尘污染与资源流失。     

某碳酸钙粉体厂职业病危害分析和防控对策

通过工作场所的职业卫生调查,结合该碳酸钙粉体厂现状,运用职业病危害因素检测检验以及职业病危害分级方法进行分析,粉尘、噪声是该碳酸钙粉体厂主要职业病危害因素。该碳酸钙粉体厂职业病危害防控应从职业病危害工艺点着手,采取有效对策,特别应加强对粉尘和噪声的防护。     

白云母/硅微粉疏水改性对三相泡沫热稳定性的影响

为了制备高热稳定性的三相泡沫,对白云母/硅微粉疏水改性。采用十六烷基三甲氧基硅烷(HTEOS)为改性剂,以接触角、粒度分析、FTIR为表征。在合成蛋白泡沫中按比例添加粉体制备三相泡沫,以自主设计可视化油池进行热稳定性试验并与两相泡沫对比。结果表明:改性白云母的性质为“两亲”,改性硅微粉表现为疏水;三相泡沫热稳定性高于两相泡沫,三相泡沫中,利用改性白云母制备的三相泡沫热稳定性最优,覆盖至破灭时间为1 905 s,而改性硅微粉制备的三相泡沫热稳定性不足,覆盖至破灭时间仅为983 s。     

气-固复合粉体在高原地区灭火性能的试验研究

为满足高原地区低压低氧环境对火灾防治的特殊需求,在拉萨进行模拟试验,研究由溴氟丙烯和13X沸石所组成的气-固复合粉体灭火剂对汽油火的灭火性能,并与平原地区的合肥的灭火效果进行对比。试验结果表明,在拉萨低压低氧的环境下,复合粉体灭火剂对汽油火具有很好的灭火性能。在同样的试验条件下,其灭火时间和灭火剂用量比合肥减少20%以上,说明该复合粉体灭火剂在高原地区有很好的适用性。     

燃烧风洞的研制及其燃烧特性研究

本文介绍了为可燃物燃烧特性研究而建立起来的模拟自然环境条件的燃烧风洞设备以及在燃烧设备中进行的模拟火场的火蔓延特性研究。在燃烧风洞中进行的可燃物燃烧实验为林火机理的研究、火蔓延模型的建立提供了实验依据．     

溴氟丙烯/13X沸石复合粉体抑制汽油火的试验研究

为提高粉体灭火介质的灭火性能,基于粉体灭火剂在火灾防治领域的重要性,通过减压吸附的方法,将洁净高效的气体灭火剂溴氟丙烯负载在13X沸石的孔洞之中,形成气-固复合粉体灭火剂。采用X-射线衍射仪、扫描电镜等对复合粉体的结构和组分进行表征。通过模拟试验研究溴氟丙烯含量不同的复合粉体对汽油油池火的灭火效果,并和普通的干粉灭火剂进行对比。结果证明,溴氟丙烯和13X沸石所形成的气-固复合粉体灭火剂针对汽油油池火具有很好的灭火性能,在同样的试验条件下,其灭火时间和灭火剂用量远少于普通的干粉灭火剂,且随着复合粉体中溴氟丙烯的含量增加,复合粉体的灭火性能逐渐提高。     

超细聚苯乙烯微球粉体的燃爆特性研究

为研究超细聚苯乙烯微球粉体的燃爆特性,通过粉尘层最低着火温度测试装置、MIE-D1.2最小点火能测试装置、20 L球形爆炸测试装置,对其最低着火温度、最大爆炸压力、最小点火能量(MIE)等爆炸特性参数进行测定,探讨了加热温度、点火延滞时间、粉尘质量浓度、粉尘粒径对粉体燃爆特性的影响。结果表明:超细聚苯乙烯微球粉尘层在350℃左右时会发生无焰燃烧,且加热温度越高,粉体粒径越小,粉尘层发生着火时所需的时间越短;当粉体质量浓度为250 g/m3时,最大爆炸压力达到0.65 MPa,质量浓度为500 g/m3时,最大爆炸压力的上升速率达90 MPa/s以上;随点火延滞时间增加,最小点火能表现出先缓慢减小再急剧增大的规律;随粉尘质量浓度增加,最小点火能逐渐降低,当粉尘质量浓度超过500g/m3后逐渐趋于稳定。     

碳酸氢钠粉体粒径对铝粉火焰传播特性的影响

为探索碳酸氢钠粒径的变化对铝粉火焰结构变化和火焰传播特性的影响,采用竖直粉尘燃烧管道实验平台,研究惰化剂质量分数为30%的惰化条件下的火焰传播过程,并记录火焰温度。实验结果表明:碳酸氢钠粉体能显著降低火焰强度,钝化火焰前端;且粉体对铝粉火焰温度的抑制作用与其粒径成反比关系;碳酸氢钠粒径对铝粉火焰传播速度的惰化抑制作用在微米级与其粒径成反比关系,其粒径越小,对铝粉火焰最大传播速度的抑制效果越好。     

Inhibition effects of Al(OH)3 and Mg(OH)2 on Al-Mg alloy dust explosion

To identify a superior explosion suppressant for Al-Mg alloy dust explosion, the inhibition effects of Al(OH)₃ and Mg(OH)₂ powders on Al-Mg alloy explosion were investigated. A flame propagation suppression experiment was carried out using a modified Hartmann tube experimental system, an explosion pressure suppression experiment was carried out using a 20-L spherical explosion experimental system, and the suppression mechanisms of the two kinds of powders on Al-Mg alloy dust explosion were further investigated. The results demonstrate that by increasing the mass percentages of Al(OH)₃ and Mg(OH)₂, the flame height, flame propagation speed and explosion pressure of deflagration can be effectively reduced. When 80% Mg(OH)₂ powder was added, the explosion pressure was reduced to less than 0.1 MPa, and the explosion was restrained. Due to the strong polarity of the surface of Mg(OH)₂, agglomeration easily occurs; hence, when the added quantity is small, the inhibition effect is weaker than that of Al(OH)₃. Because the Mg(OH)₂ decomposition temperature is higher, the same quantity absorbs more heat and exhibits stronger adsorption of free radicals. Therefore, to fully suppress Al-Mg alloy explosion, the suppression effect of Mg(OH)₂ powder is better.     

微胶囊化红磷增效氢氧化镁阻燃聚乙烯的燃烧特性

探讨了微胶囊化红磷（MRP）在氢氧化镁（MH）阻燃低密度聚乙烯（LDPE）中的阻燃增效作用,用氧指数和锥型量热计研究了MRP/MH的不同配比对其氧指数、热释放速率、发烟量等燃烧性能参数的影响。试验结果表明在LDPE/MH体系中添加适量的MRP可以有效地提高材料的氧指数,进一步降低材料的热释放速率,延长材料的着火时间,但是材料的发烟量有所增加。从热失重实验结果可以看出,在LDPE/MH体系中添加MRP不仅大大提高材料的初始分解温度,而且具有较好的成炭作用。     

人工湿地污水处理技术及其发展现状

人工湿地是近20年来发展起来的一种污水处理技术,与传统的污水处理法相比具有基建、运行费用低,操作与维护简单等优点.人工湿地可用来处理多种工业废水和生活污水,是适合我国国情的污水处理技术.总结了人工湿地系统的研究现状和目前存在的问题,并指出了其未来的发展方向.     

城镇小型生活污水处理设备及其展望

介绍了我国城镇小型生活污水处理设备特点、分类和几种常用处理设备，对城镇生活污水的处理现状进行了分析，最后指出要使我国城镇生活污水能达标排放，并且能够完成我国近期污水处理的目标，研究开发具有除磷脱氮功能的小型生活污水处理设备是目前迫切需要解决的问题。     

Efficiency characterization of fire extinguishing compound superfine powder containing Mg(OH)2

To improve the fire extinguishing efficiency of existing dry powders, a new type of superfine dry powder was prepared using magnesium hydroxide as an additive. In our study, a thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC) were used to analyze the thermal decomposition of the synthesized powders. The temperature of thermal decomposition, weight loss, and other thermodynamic parameters of the fire extinguishing powders were analyzed to explain the performance advantages of the compound superfine powder. Through a small-scale fire experiment, the physical parameters of the extinguishing process—such as extinguish time, powder dosage, smoke concentration, and minimum extinguishing concentration—were quantified for the suppression of a diesel fire using the different powders; these parameters were used to evaluate the fire extinguishing capacity and toxic gas suppression ability of the powders. TGA demonstrated that the compound superfine powder decomposed more quickly and its thermal decomposition process was much shorter than those of the other powders. The DSC data indicated that the compound superfine powder could decrease the characteristic temperature at each stage and thus the powder absorbed the flame's heat more quickly and suppressed flame propagation. The fire extinguishing test demonstrated that the consumption of the three types of fire extinguishing powder decreased with an increase in the driving pressure, and the order of powder dosage was as follows: commercial dry powder > superfine powder > compound superfine powder. Similarly, the order of minimum extinguishing concentration was as follows: commercial dry powder > superfine powder > compound superfine powder. Furthermore, the compound superfine powder exhibited a greater capacity for controlling toxic and harmful gas emissions.     

双(对羧苯基)苯基氧化膦阻燃改性聚酯的热解和燃烧特性实验研究

本文以双(对羧苯基)苯基氧化膦为阻燃单体,合成了阻燃共聚酯(COPET)。通过热失重分析和锥形量热分析,研究了阻燃共聚酯的热降解行为和燃烧特性,并对阻燃剂的阻燃机理进行了简单的讨论。实验结果表明,阻燃剂双(对羧苯基)苯基氧化膦是适于聚酯的较好阻燃剂,但其发烟量有待抑制。     

Inerting characteristics of ultrafine Mg(OH)2 on starch dust explosion flame propagation

Experiments on the flame propagation of starch dust explosion with the participation of ultrafine Mg(OH)₂ in a vertical duct were conducted to reveal the inerting evolution of explosion processes. Combining the dynamic behaviors of flame propagation, the formation law of gaseous combustion products, and the heat dissipation features of solid inert particles, the inerting mechanism of explosion flame propagation is discussed. Results indicate that the ultrafine of Mg(OH)₂ powders can cause the agglomeration of suspended dust clouds, which makes the flame combustion reaction zone fragmented and forms multiple small flame regions. The flame reaction zone presents non-homogeneous insufficient combustion, which leads to the obstruction of the explosion flame propagation process and the obvious pulsation propagation phenomenon. As the proportion of ultrafine Mg(OH)₂ increases, flame speed, flame luminescence intensity, flame temperature and deflagration pressure all show different degrees of inerting behavior. The addition of ultrafine Mg(OH)₂ not only causes partial inerting on the explosion flame, but also the heat dissipation of solid inert particles affects the acceleration of its propagation. The explosion flame propagation is inhibited by the synergistic effect of inert gas-solid phase, which attenuates the risk of starch explosion. The gas-solid synergistic inerting mechanism of starch explosion flame propagation by ultrafine Mg(OH)₂ is further revealed.     

大型构件防腐喷砂(涂)车间通风除尘设计

考虑到大型构件喷砂（涂）车间铝粉尘污染的特点以及构件进出空间的限制，比较了各种类型的除尘器，选择了最合理的通风除尘方案，进行了通风除尘系统的设计。该设计方案实施后，除尘效果显著。     

Fe(OH)_2在湍流扩散火焰中抑制效果的CMC模拟研究

采用条件矩封闭模型(CMC)数值模拟了Fe(OH)2在湍流射流火焰中的灭火性能,计算结果表明该灭火添加剂在湍流燃烧中对H、OH和O的最大抑制效果要比层流下分别高出40%,10%,15%,其原因在于湍流扩散作用加强了某些不良输运特性组分的扩散,使得灭火添加剂的效果更强。不同Re数下的局部Damkholer数分布表明该灭火添加剂使得火焰变的不稳定,稳定燃烧位置沿轴向方向提高了3倍喷口直径的距离。     

含聚乙烯氧基长侧链共聚物阻磷酸钙垢性能研究

以过硫酸铵为引发剂,含不同乙烯氧基重复单元数n的烯丙基聚乙烯氧基硫酸铵(ASn,n=5,10,15,20)和马来酸酐(MA)为单体在水溶液中聚合,合成对循环冷却水系统中磷酸钙垢有显著阻垢效果的共聚物MSn(n=5,10,15,20),并利用红外光谱(FT-IR)和核磁共振氢谱(1H-NMR)对聚合物MS10结构进行了表征。采用静态阻垢方法探讨了共聚物MSn中n值以及聚合物用量、溶液中Fe2+、Ca2+、杀生剂和溶液pH值、溶液温度对共聚物阻磷酸钙垢性能的影响。结果表明MSn用量存在临界值效应,MS10阻磷酸钙垢性能最好,在投加量为6 mg/L时MS10阻磷酸钙垢率达92%,且在高Fe2+浓度、高Ca2+浓度、高pH值以及高温条件下具有优异的阻磷酸钙垢性能,与异噻唑啉酮杀生剂和含氯含溴杀生剂有很好的配伍性。实验表明MS10是一种性能优异的循环水用阻磷酸钙阻垢剂。