氯离子浓度对硝酸基复合肥水溶液热安全性影响研究

为了研究复合肥洗涤液中氯离子浓度对硝酸基复合肥水溶液热稳定性影响,利用自行研制的临界爆炸测试装置对硝酸基复合肥水溶液的热安全性进行测试。结果表明,不同浓度氯离子对硝酸基复合肥水溶液临界爆炸温度影响较大,复合肥水溶液的分解温度随着氯离子浓度的增大呈先降低后升高的趋势。研究结果对硝酸基复合肥的安全生产具有指导意义。     

二氧化氯发生器残液处理方法研究与比较

采用离子交换膜、离子交换树脂和铁粉还原法对复合法制备二氧化氯过程中产生的高浓度氯酸盐残液进行处理,对3种方法进行综合比较。结果表明:离子交换膜处理后氯酸盐富集质量浓度为13.06 g/L,为进水质量浓度的6.5倍,去除率大于50%,离子交换膜不可重复使用;离子交换树脂处理后富集质量浓度为23.51 g/L,为进水质量浓度的11.8倍,去除率为95%,离子交换树脂可重复使用;铁粉对氯酸根去除率为99%,可连续使用15次。综合比较处理效果、控制条件和处理成本,选择铁粉还原法为最佳方法。     

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.     

敞开气氛中硝酸铵热分解过程危险特性的实验研究

利用差热分析仪分析和研究了敞开气氛中硝酸铵的热分解过程,通过在硝酸铵样品中加入酸性物质、KCl、有机物等各种杂质,研究硝酸铵热分解过程的影响因素。结果表明,在敞开气氛中,酸性物质和KCl对硝酸铵热分解过程具有催化作用,有机物会降低硝酸铵的热稳定性,研究结论可以为解决硝酸铵的生产、储存和运输过程中的安全问题提供重要参考。     

Removal of Cr(VI) from simulative contaminated groundwater by iron metal

The Cr(VI) removal from simulative contaminated groundwater using zero-valent iron (Fe⁰) filings, Fe⁰ powder and nanoscale Fe⁰ in batch experimental mode was studied. Cr(VI) is a primary pollutant of some soils and groundwater. Zero-valent iron, an important natural reductant, could transform Cr(VI) to Cr(III) which is much less toxic and immobile. The Cr(VI) removal percentage was 87% at a metal to solution ratio of 6 g l⁻¹ for commercial iron powder (200 mesh) in 120 min, and 100% Cr(VI) was removed when the metal to solution ratio was 10 g l⁻¹. The results demonstrates that the Cr(VI) removal percentage was affected apparently by pH, the amount of Fe powder and the reaction temperature. The Cr(VI) removal percentage with nanoscale Fe⁰ was much higher than those with Fe⁰ filings or Fe⁰ powder at the same reaction time. Electrochemical analysis of the reaction process led to the conclusion that the Cr(VI) trended to form Cr(III) hydroxide under the reaction conditions. The kinetics analysis showed that Cr(VI) reduction by Fe⁰ could be described as a pseudo-first-order kinetics model.     

杂质对硝酸铵水溶液临界爆炸温度的影响

利用自制装置对含杂质的硝酸铵水溶液临界爆炸温度进行测试研究.结果表明,Cl-单独作用在一定程度上抑制硝酸铵溶液的热分解,提高了其临界爆炸温度;pH值一定时,随着Cl-浓度的增大,硝酸铵水溶液的临界爆炸温度呈指数形式降低;Cl-浓度一定时,pH值越小,硝酸铵水溶液的临界爆炸温度越低;油脂会降低硝酸铵溶液的热稳定性.该结果...     

微量Fe3+对过氧化氢异丙苯热稳定性影响研究

为研究微量铁离子（Fe³⁺）对过氧化氢异丙苯（CHP）热稳定性的影响,采用绝热加速量热仪（ARC）对CHP及含4种不同浓度Fe3+的CHP进行了绝热分解测试,测试分析了5个样品在绝热条件下的起始分解温度（To,s）、绝热温升（ΔTad,s）、最大温升速率（mm,s）和最大温升速率到达时间（θm,s）等参数,并利用热惰性因子Φ对实验数据进行了修正。研究结果表明:在绝热条件下,微量Fe3+的存在对CHP分解的To,s,ΔTad,s,mm,s和θm,s均有较大影响,且浓度不同对各参数的影响不一样;Fe³⁺的存在增加了CHP分解的剧烈程度,且浓度越大,CHP分解越剧烈,其热分解失控可能性越大,危险性越高;储存运输CHP时要避免与高浓度的Fe³⁺接触。研究结果可为CHP的热稳定性安全提供一定参考。     

硝酸及氯离子对高温硝酸铵水溶液热危险性的影响研究

国内外学者对硝酸铵的危险性进行了大量的研究,而对其水溶液的危险性至今开展不多。笔者采用差示扫描量热仪(DSC)及全自动反应量热仪(RC1e)对高温状态下的硝酸铵水溶液的热分解危险性、杂质离子对其稳定性的影响进行了研究。纯硝酸铵和90%硝酸铵水溶液的DSC实验表明,90%硝酸铵溶液和分析纯硝酸铵具有相似的热爆炸危险;90%硝酸铵水溶液在140~180℃之间的RC1e试验表明:硝酸或氯离子单独存在时,对硝酸铵分解都有不同程度的抑制作用,而同时存在时则大大降低体系的热稳定性。该结果对保障硝酸铵在生产、使用过程中的安全具有重要的参考价值。     

Biosorption of zinc(II) on rapeseed waste: Equilibrium studies and thermogravimetric investigations

The removal of heavy metals from aqueous effluents so as to avoid their toxic, bioaccumulation and biomagnification effects to humans and environment is usually realized by means of physical, chemical treatment, and biological processes. The aim of this study is to evaluate the potential of rapeseed waste from biodiesel production as a biosorbent for Zn(II) ions.The ability of the rapeseed waste for Zn(II) biosorption exhibited a maximum at pH 4.5–5. The removal efficiency of Zn(II) from solution with an initial concentration of 72 mg L⁻¹ varied from 39% to 89% for an increase of the rapeseed waste dose from 2 to 30 g L⁻¹. The amount of Zn(II) retained on the tested rapeseed increased with increasing metal ion concentration, but the Zn(II) sorption percentage decreased. The equilibrium data are fitted to the Langmuir isotherm better than to the Freundlich isotherm. The kinetics of Zn(II) biosorption process follows a pseudo-second order model. The thermal stability of the rapeseed before and after Zn(II) biosorption was studied by thermogravimetric analysis. It was found that the zinc loaded rapeseed exhibits a better initial thermal stability than the original rapeseed, presumably due to the cross linking generated by the intermolecular complexation of Zn(II) ions. In both cases, the thermal decomposition takes place according to some reassembling kinetic models, in two phases with order n reactions. The results of this study strongly suggest the possibility to use rapeseed as an effective biosorbent for Zn(II) ions removal from aqueous effluents (municipal/industrial wastewaters).     

Calorimetry studies of ammonium nitrate – Effect of inhibitors,confinement, and heating rate

Ammonium nitrate (AN) has been widely used as a fertilizer for almost a century because it is an excellent nitrogen source. However, AN related explosions continue to occur time and again, despite the fact that AN has been extensively investigated. There have been more than 70 AN-related incidents during the last century, which reemphasize the dire need for further research on AN reactive hazards. This research focuses on the alternatives to make AN safer as a fertilizer by reducing its explosivity, by studying the effect of inhibitors, confinement, and heating rate on AN thermal decomposition using the Reactive Systems Screening Tool (RSST). First, the thermal decomposition of AN in the presence of different types of additives, including sodium bicarbonate, potassium carbonate, and ammonium sulfate, was studied under two concentrations, i.e., 2.8 wt.% and 12.5 wt.%. The results show that they are good inhibitors for AN. Second, the effect of confinement was tested by observing AN decomposition under five different initial pressures, varying from ambient pressure to 187 psig. It is concluded that confinement is dangerous to AN, which should be avoid in AN storage and transportation. Lastly, the effect of heating rate was studied by heating up AN under two heating rates of 0.25 °C min⁻¹ and 2 °C min⁻¹. The lower the heating rate, the lower the “onset” temperature detected.     

铝粉超细化对KClO3/Al/S配方药剂特性的影响

为研究铝粉超细化后对烟火药剂性能的影响,将普通铝粉和纳米铝粉分别与氯酸钾、硫黄粉按照零氧平衡的同一配比(17%Al+63%KClO3+20%S)配制成烟火药剂,分别用0#样品和1#样品表示。用ARC、WL-1型落锤仪和MGY-1型摆式摩擦感度仪等试验装置从热安全性、撞击感度和摩擦感度等方面进行对比试验。结果表明,与含普通铝粉的0#样品相比,含纳米铝粉的1#烟火药剂热分解的初始反应温度明显降低(118.67℃<123.3℃),反应到达最大温升速率所需的时间明显延长(4.94min>0.13 min),反应所能达到的最高压力明显降低(2.77 MPa/g<3.14 MPa/g),反应动力学因子明显降低(361.85 kJ/mol<409.41 kJ/mol),撞击感度明显下降(12%<100%)。这说明铝粉粒径对药剂的性能有一定的影响。纳米铝粉的加入在加速烟火药剂反应进程的同时,可有效降低其反应的激烈程度、压力危险性和撞击危险性,即铝粉超细化后可以有效改善烟火药剂的性能,提高其安全性。     

Effect of urea on detonation characteristics and thermal stability of ammonium nitrate

A study has examined the effect of urea on the thermal stability and detonation characteristics of ammonium nitrate (AN). The thermal decomposition temperature and surface morphology of samples were investigated by differential scanning calorimetry (DSC) and scanning electron microscopy (SEM). For further research on the thermal sensitivity and shock sensitivity of the samples, the Koenen test and UN gap test were conducted. The results indicate that urea can substantially increase the thermal stability of AN (the greatest exothermic peak is increased by more than 100 °C) and reduce the thermal sensitivity of AN. However, AN-50wt. % urea mixtures can still produce a steady detonation in the UN gap test. Urea cannot reduce the ability to propagate a detonation. Possible explanations for these results are discussed.     

不同聚合度的聚磷酸铵灭火性能研究*

为考察聚磷酸铵（APP）干粉灭火剂的聚合度对其灭火性能的影响,选用3种不同聚合度的APP,结合其晶体结构、粒度分布及热性能测试,并通过粉体杯式燃烧器进行小尺寸灭火实验,对比3种样品的灭火性能及灭火机理,研究聚合度与其灭火性能的关系。热性能测试结果显示,聚合度的升高会导致APP的热稳定性下降,随着聚合度从80升至1 500,其初始分解温度从326.11 ℃降低至321.54 ℃,失重率从75.21%增加至79.66%。实验结果表明:随着APP聚合度的增加,火焰降温速率升高,最小灭火浓度（MEC）降低,灭火性能增强,当聚合度为1 500时,MEC为118.143 g/m3。聚合度的升高有助于APP在进入火场后更早、更充分地与火焰发生反应,从而使灭火性能得到提升。     

Preparation of Co–MgO mixed oxide nanocatalysts for low temperature CO oxidation: Optimization of preparation conditions

In this study, a series of Co–MgO mixed oxides (30 wt.% Co) were prepared by co-precipitation method and employed as catalyst in low temperature CO oxidation reaction. The preparation conditions were optimized by the Taguchi method of experimental design to synthesize a sample with high catalytic performance toward CO oxidation reaction. The effects of four variables, pH of solution, aging temperature, aging time and molarity of precursor solution at three levels were investigated. The optimized sample was characterized by X-ray diffraction (XRD), temperature programmed reduction (TPR), temperature programmed desorption of oxygen (O₂-TPD), N₂ adsorption/desorption, thermal gravimetric and differential thermal analysis (TGA/DTA), and transmission electron microscopy (TEM) techniques. The results revealed that the optimized sample showed a mesoporous structure with a narrow pore size distribution centered in the range of 7–17 nm and particle size about 5.5 nm. It was found that the molarity of solution and aging time had the most influence on the CO conversion, respectively. The catalytic results showed that the highest CO conversion obtained from samples synthesized by Taguchi orthogonal array was about 90% at 200 °C, while the CO conversion for optimized sample was 95%. In addition, the effect of operational conditions was studied over optimized sample.     

Experimental study on the inhibition of methane/air explosion by modified attapulgite powder

In order to explore the influence of attapulgite powder on the methane explosion, a small-size semi-closed visual explosion experiment platform was built, and experiments were carried out. The effect of spraying powder on the whole process of methane explosion was studied when methane concentration was 7%, 8%, 9.5%, 11% and 12%, respectively. When the methane concentration was 11%, the maximum explosion overpressure dropped by modified spraying attapulgite powder was as high as 33.26%, and at the same time, the reduction rate of flame propagation velocity reached the maximum value of 36.65%. Furthermore, when the methane concentration was 9.5%, the experimental results when the powder spraying amount of modified attapulgite was 120 mg, 160 mg, 200 mg, 240 mg and 280 mg showed that when the powder spraying was 240 mg, the maximum explosive overpressure decreased by 33.14%, and the reduction rate of the peak flame propagation velocity reached the maximum value of 33.73%. Through the video images recorded by the high-speed camera, the flame structure, shape, color, etc. Were analyzed. The characterization analysis illustrated that the modified attapulgite powder has a small particle size, relatively large porosity and specific surface area. Also, it has a high weight loss rate. Combined with the results of characterization analysis, the explosion suppression mechanism of modified attapulgite powder was discussed. It was found that the modified attapulgite powder could effectively absorb the active free radicals generated in the explosion, and the modified new chemical components have a better thermal decomposition and endothermic effect and a better suppression of methane explosions.     

过氧化甲乙酮的热危险性研究

为研究过氧化甲乙酮(MEKPO)在运输与储存中的热危险性,利用差示扫描量热仪(DSC)对质量分数为52%的MEKPO溶液(以2,2,4-三甲基-1,3-戊二醇二异丁酸酯为溶剂)进行测试,得到其起始分解温度T0约为40℃,比放热量ΔH约为1.24 kJ/g。运用加速量热仪(ARC)对3种MEKPO溶液(40%,45%和52%)及MEKPO纯品(化学纯)在绝热条件下进行了热分解测试,并在此基础上,借助Semenov热爆炸模型,计算得到上述样品在50 kg包件下的自加速分解温度(TSADT)分别为65.64,63.72,55.88和51.17℃。研究结果表明,加入稀释稳定剂是降低MEKPO热危险性的有效途径,且MEKPO混合物中其质量分数越大,其危险性越高。     

纳米铝粉对烟火药剂热安全性影响研究

为研究铝粉纳米化后对烟火药剂性能的影响,本文将普通铝粉和纳米铝粉分别与氯酸钾、硫粉按照零氧平衡的同一配比（17％AL＋63％KClO3＋20％S）配成的烟火药剂进行ARC热分析对比试验发现,含纳米铝粉的烟火药剂热分解的初始反应温度降低,反应到达最大温升速率所需的时间延长,反应所能达到的最高压力降低。这说明纳米铝粉的加入在加速其反应进程的同时,可有效地降低其反应的激烈程度和危险性,即铝粉纳米化后可以有效的改善烟火药剂的性能,提高其安全性。     

密闭压力容器小型循环试验结果

在联合国危险品运输试验和标准建议书(桔皮书)中,系列E涉及评价物质在密闭容器中对剧烈加热的热爆炸敏感性的标准。但是人们一直希望并致力于发展一种定量,可靠,重复性好的方法来评价物质的热爆炸敏感性。本文介绍了一种小型密闭压力容器循环试验的研究及其作为一种筛选试验向联合国提案的最新进展。实验结果表明,几种物质在不同实验室的重复性非常好,其(dP／dt)max平均偏差率在20％以内,表明该小型密闭压力容器作为评价物质热反应危险性的测试方法具有较高的可靠性。     

硝酸铵水溶液热稳定性研究

采用加速度量热法(ARC)对高温状态下的硝酸铵水溶液的热分解危险性、杂质对其稳定性的影响进行了研究.实验结果表明,硝酸促进硝酸铵的分解,而氯离子对其有抑制作用;当两者同时存在时大大降低系统的稳定性,且硝酸对硝酸铵的影响远大于氯离子.     

皮带转运站除尘技术的研究与应用

针对皮带输送机运送各种含铁原料(矿粉),导致转运站岗位粉尘质量浓度严重超标的状况,通过不断研究、试验,研制了1种新型除尘装置,使转运站岗位粉尘质量浓度由过去的368 mg/m3降至10 mg/m3以下,解决了转运站扬尘的问题,目前此除尘技术已在济钢铁前区广泛推广应用.