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1.
The fire and explosion risks of metal powders admixed with solid inertants have been extensively investigated for many years. However, it remains unclear why such solid mixtures have high potential fire and explosion risk even when mixed with high percentages of non-combustible solids. This paper investigates how to interpret these risks, from a microscopic perspective, with thermal and kinetic parameters including initial ignition temperature, mass unit exothermic energy, activation energy and risk index of spontaneous combustion. The results show that the initial ignition temperature based on TG (Thermogravimetry) analysis is related to ignition sensitivity, and increased with percentage of admixed solid inertant. The unit mass exothermic energy based on DSC (Differential scanning calorimetry) analysis is related to flame spread velocity. Activation energy and the risk index of spontaneous combustion can be used to explain the reactivity and spontaneous combustion hazard, respectively, of metal powders. We conclude that thermal and kinetic parameters may provide another way to describe the fire and explosion risk of combustible powders, especially for nano metal powders due to the laboratory safety in the normative tests for explosion parameter determination. 相似文献
2.
Long-range atmospheric transport of three toxaphene congeners across Europe. Modeling by chained single-box FATEMOD program 总被引:1,自引:1,他引:0
Jaakko Paasivirta Seija Sinkkonen Vladimir Nikiforov Fedor Kryuchkov Erkki Kolehmainen Katri Laihia Arto Valkonen Manu Lahtinen 《Environmental science and pollution research international》2009,16(2):191-205
Background, aims, and scope Since toxaphene (polychlorocamphene, polychloropinene, or strobane) mixtures were applied for massive insecticide use in the
1960s to replace the use of DDT, some of their congeners have been found at high latitudes far away from the usage areas.
Especially polychlorinated bornanes have demonstrated dominating congeners transported by air up to the Arctic areas. Environmental
fate modeling has been applied to monitor this phenomenon using parallel zones of atmosphere around the globe as interconnected
environments. These zones, shown in many meteorological maps, however, may not be the best way to configure atmospheric transport
in air trajectories. The latter could also be covered by connecting a chain of simple model boxes. We aim to study this alternative
approach by modeling the trajectory chain using catchment boxes of our FATEMOD model. Polychlorobornanes analyzed in biota
of the Barents Sea offered one case to study this modeling alternative, while toxaphene has been and partly still is used
massively at southern East Europe and around rivers flowing to the Aral Sea.
Materials and methods Pure model substances of three polychlorobornanes (toxaphene congeners P26, P50, and P62) were synthesized, their environmentally
important thermal properties measured by differential scanning calorimetry, as evaluated from literature data, and their temperature
dependences estimated by the QSPR programs VPLEST, WATSOLU, and TDLKOW. The evaluated property parameters were used to model
their atmospheric long-range transport from toxaphene heavy usage areas in Ukraine and Aral/SyrDarja/AmuDarja region areas,
through East Europe and Northern Norway (Finnmarken) to the Barents Sea. The time period used for the emission model was June
1997. Usual weather conditions in June were applied in the model, which was constructed by chaining FATEMOD model boxes of
the catchment’s areas along assumed maximal air flow trajectories. Analysis of the three chlorobornanes in toxaphene mixtures
function as a basis for the estimates of emission levels caused by its usage. High estimate (A) was taken from contents in
a Western product chlorocamphene and low estimate (B) from mean contents in Russian polychloroterpene products to achieve
modeled water concentrations. Bioaccumulation to analyzed lipid of aquatic biota at the target region was estimated by using
statistical calculation for persistent organic pollutants in literature.
Results The results from model runs A and B (high and low emission estimate) for levels in sea biota were compared to analysis results
of samples taken in August 1997 at Barents Sea. The model results (ng g−1 lw): 4–95 in lipid of planktovores and 7–150 in lipid of piscivores, were in fair agreement with the analysis results from
August 1997: 21–31 in Themisto libellula (chatka), 26–42 in Boreocadus saida (Polar cod), and 5–27 in Gadus morhua (cod) liver.
Discussion The modeling results indicate that the application of chained simple multimedia catchment boxes on predicted trajectory is
a useful method for estimation of volatile airborne persistent chemical exposures to biota in remote areas. For hazard assessment
of these pollutants, their properties, especially temperature dependences, must be estimated by a reasonable accuracy. That
can be achieved by using measurements in laboratory with pure model compounds and estimation of properties by thermodynamic
QSPR methods. The property parameters can be validated by comparing their values at an environmental temperature range with
measured or QSPR-estimated values derived by independent methods. The chained box method used for long-range air transport
modeling can be more suitable than global parallel zones modeling used earlier, provided that the main airflow trajectories
and properties of transported pollutants are predictable enough.
Conclusions Long-range air transport modeling of persistent, especially photo-resistant organic compounds using a chain of joint simple
boxes of catchment’s environments is a feasible method to predict concentrations of pollutants at the target area. This is
justified from model results compared with analytical measurements in Barents Sea biota in August 1997: three of six modeled
values were high and the other three low compared to the analysis results. The order of magnitude level was similar in both
modeled (planktovore and piscivore) and observed (chatka and polar cod) values of lipid samples. The obtained results were
too limited to firm validation but are sufficient to justify feasibility of the method, which prompts one to perform more
studies on this modeling system.
Recommendations and perspectives For assessment of the risk of environmental damages, chemical fate determination is an essential tool for chemical control,
e.g., for EU following the REACH rules. The present conclusion of applicability of the chained single-box multimedia modeling
can be validated by further studies using analyses of emissions and target biota in various other cases. To achieve useful
results, fate models built with databases having automatic steps for most calculations and outputs accessible to all chemical
control professionals are essential. Our FATEMOD program catchments at environments and compound properties listed in the
database represent a feasible tool for local, regional, and, according our present test results, for global exposure predictions.
As an extended use of model, emission estimates can be achieved by reversed modeling from analysis results of samples corresponding
to the target area.
This article is dedicated to the memory of Professor Alexander B Terentiev (who passed away in November 2006), our true friend.
With his Institute of Organo-Element Compounds, Russian Academy of Science, Moscow, he was an important main organizer of
the six joint Finnish–Russian seminars (every third year since 1989) on the field (‘Chemistry and Ecology of Organo-Element
Compounds’). He prompted us especially to search properties and environmental fates for various polyhalogen compounds. We
remember him for his friendly character and great sense of humor. 相似文献
3.
Jen-Hao Chi Sheng-Hung WuJean-Claude Charpentier Yet-Pole IChi-Min Shu 《Journal of Loss Prevention in the Process Industries》2012,25(1):142-147
Hydrogen peroxide (H2O2), historically, due to its broad applications in the chemical industries, has caused many serious fires and explosions around the world. Its thermal hazards may also be incurred by an incompatible reaction with other chemicals, and a runaway reaction may be induced in the last stage. This study applied thermal analytical methods to explore the H2O2 leading to these accidents by incompatibility and to discuss what might be formed by the upset situations. Thermal hazard analysis contained a solvent, propanone (CH3COCH3, so-called acetone), which was deliberately selected to mix with H2O2 for investigating the degree of thermal hazard. Differential scanning calorimetry (DSC) and vent sizing package 2 (VSP2) were employed to evaluate the thermal hazard of H2O2. The results indicated that H2O2 is highly hazardous while mixed with propanone, as a potential contaminant. The time to maximum rate (TMR) was used as emergency response time in the chemical industries. Therefore, TMR of H2O2 was calculated to be 70 min for runaway reaction (after T0) and TMR of H2O2/propanone was discovered to be 27 min only. Fire and explosion hazards could be successfully lessened if the safety-related data are properly imbedded into manufacturing processes. 相似文献
4.
以某一化学物质(ANPyO)为例,探讨了化学物质热危险性分析方法和步骤:建议首先从化学结构上对物质进行初步分析,然后根据化学结构进行理论计算预测,最后在前面研究的基础上,选择和确定采用合适的,比如:DSC/TG、ARC等小药量实验方法,研究化学物质的热危险性.对于ANPyO,通过分子结构可知其为多硝基多氨基芳烃,是具有潜在的燃烧、爆炸危险的活性化学物质.理论计算预测其属于高危险性物质.对其进行DSC/TG、ARC实验,得到绝热分解反应的热力学和动力学参数,自加速分解温度( TSADT)为199℃,热分解开始温度为310.0℃,最大反应速度出现在系统温度771.5℃时,自热分解开始到最大反应速度的时间为23.5min.文中研究可为该化学物质生产、使用和储运安全提供参考. 相似文献
5.
从近几年制药行业频繁爆炸事故出发,分析制药行业爆炸事故的种类,从粉尘爆炸入手,以某制药企业为研究对象,对其爆炸粉体克拉维酸钾进行了爆炸参数测试,运用20L球形粉尘爆炸测试装置测定其爆炸下限为40g/m3。同时运用差热扫描热分析法对其进行放热反应进行研究,再利用毛细管气相色谱法对该混合物中是否存在可燃气体进行了评定,发现其存在丙酮可燃气体,但含量较低为9.3×10-5。针对上述特点,从技术和管理角度出发,分析应对措施以及常见的问题,设计了混粉机械人机界面,编制了安全检查表,对该类共性问题进行了归纳,以供防范药物混粉事故发生参考。 相似文献
6.
I. Ben TaloubaL. Balland N. Mouhab M.A. Abdelghani-Idrissi 《Journal of Loss Prevention in the Process Industries》2011,24(4):391-396
The thermal stability of organic peroxides (cumene hydroperoxide 80 wt% and dicumyl peroxide) was studied by means of calorimetric measurement (DSC, TA Q1000) in an isotherm mode and a dynamic mode. Analysis of power profiles released in the isothermal mode was combined with the analysis of the decomposed compounds by a gas chromatograph/mass spectrometer (GC/MS) to determine the reaction mechanisms corresponding to each of the two reactions. In this work, a methodology for estimating kinetic parameters was based on the comparison of the power profile (dynamic mode) given by the model to that obtained experimentally by changing the parameters values. Parameter estimation is achieved using the mixed estimation method where a genetic algorithm is combined with a locally convergent method. 相似文献
7.
汽车用材料——PA66及其玻璃纤维复合材料在不同介质中的老化行为研究 总被引:1,自引:0,他引:1
在三种介质(二次水,汽油,乙二醇,50℃温度)条件下对PA66及PA66/GF进行95天左右的人工模拟材料在汽车使用环境下的加速试验,对不同老化时间的PA66及PA66/GF试样进行了宏观力学测试及吸湿性测试,并进一步利用示差扫描量热法(DSC),红外光谱及扫描电镜等手段分析老化前后试样的微观结构及组织差异。结合老化前后试样的力学性能变化,揭示了PA66及复合材料的老化规律和机理。实验表明,PA66及PA66/GF在三种介质中拉伸强度呈现下降趋势。其主要机理是介质溶液对试样渗入的结果影响,降低了分子间的相互作用力(范德华力)从而使材料机械性能下降;同时未发现化学作用对材料的力学性能有明显的变化。 相似文献
8.
9.
Tara Sankar Pathak Jin San Kim Se-Jong Lee Dae-Jin Baek Ki-Jung Paeng 《Journal of Polymers and the Environment》2008,16(3):198-204
Alginic acid and metal alginates are prepared from fresh algae using extraction method. A FTIR spectrum indicates that alginic
acid is converted into the metal alginate. Comparing calcium and cobalt alginates, asymmetric stretching of free carboxyl
group of calcium alginate at 1630 cm−1 is shifted to 1585 cm−1 in cobalt alginate, due to the change of charge density, radius and atomic weight of the cation, creating a new environment
around the carbonyl group. The strong exothermic peak of alginic acid in DSC thermogram indicates the decomposition of biopolymer,
whereas strong exothermic peak of metal alginate in DSC thermogram attributed to the decomposition of biopolymer and formation
of respective carbonate. Based on DSC study, the decomposition of cobalt alginate occurs at higher temperature comparing to
those of sodium and calcium alginate, which may conclude into the higher stability of cobalt alginate. TGA results reveal
that, cobalt alginate is more stable than calcium and sodium alginate at 300 °C temperature. Surface morphology (at same magnification),
as well as porosity (%) and pore size distribution results change with metals present in different metal alginates. 相似文献
10.
为研究2-氨基-23,-二甲基丁酰胺氧化合成的热危险性,采用差示扫描量热仪(DSC)测试2-氨基-2,3-二甲基丁腈和2-氨基-2,3-二甲基丁酰胺的热分解情况,采用反应量热仪(RC1)研究反应温度、双氧水滴加速度和氢氧化钠用量对反应的影响。研究结果显示,2-氨基-2,3-二甲基丁腈吸热热分解温度为149.5℃2,-氨基-2,3-二甲基丁酰胺表现为吸热和放热2段分解过程,吸热和放热分解温度分别为234.4℃和456℃。反应放热速率主要为加料控制,但是,存在一定的热累积。热失控体系最高温度(MTSR)低于2-氨基-23,-二甲基丁腈和2-氨基-23,-二甲基丁酰胺的分解温度,高于体系沸腾温度,在热失控的条件下,反应体系容易导致冲料危险;在优惠的工艺条件范围内,提高反应温度,延长滴加时间,可降低反应的MTSR,提高热转化率和反应安全性。 相似文献