20L近球形容器中甲醇喷雾液滴爆炸特性实验研究*

为了评估易燃液体喷雾的爆炸风险,借助喷雾粒度仪、高速相机以及喷雾爆炸实验系统,围绕2种粒径(表面积平均粒径:2.0 μm±0.5 μm;18.0 μm±0.5 μm)的甲醇喷雾,研究点火位置和延迟时间等因素对甲醇喷雾爆炸特性的影响。结果表明:甲醇喷雾粒径均随环境温度的增加而减小,当甲醇喷雾浓度较大时,环境温度对于甲醇喷雾粒径的影响更为显著;甲醇物料温度的改变对于其粒径的影响很小。随着点火延迟时间的增大,甲醇喷雾爆炸特性参数均呈现先增加后减小的趋势,在τ=120 ms时最大。受限空间内甲醇喷雾采用中心或上部点火方式,当甲醇喷雾浓度为356.4 g/m3(φ=1.8)时,甲醇喷雾爆炸特性参数均取得最大值;与上部位置点火相比,中心位置点火的甲醇喷雾爆炸特性参数值较大。     

Nex-Hys: minimum ignition temperature of hybrid mixtures

Although the minimum ignition temperature is an important safety characteristic and of practical relevance in industrial processes, actually only standard operation procedures are available for pure substances and single-phase values. Nevertheless, combinations of substances or mixtures are used in industrial processes and up to now it is not possible to provide a standardised minimum ignition temperature and in consequence to design a process safely with regard to the substances used.In order to get minimum ignition temperatures for frequently used hybrid mixtures, first, the minimum ignition temperatures and ignition frequencies were determined in the modified Godbert-Greenwald furnace for two single phase solids and a liquid substance. Second, minimum ignition temperatures and ignition frequencies were determined for several combinations as hybrid mixture of dust and liquid.In parallel to the determination of ignition temperatures a new camera and computer system to differentiate ignition from non-ignition is developed. First results are promising that such a system could be much less operator depended.By a high number of repetitions to classify regions of ignition the base is laid to decide about a new procedure for a hybrid standard and updating existing ones, too. This is one of the necessary aims to be reached in the Nex-Hys project.A noticeable decrease of minimum ignition temperatures below the MIT of the pure solids was observed for the one hybrid mixture tested, yet. Furthermore more widely dispersed area of ignition is shown. In accordance to previously findings, the results demonstrate a strong relationship between likelihood of explosion and amount of added solvent. In consequence the hybrid mixture is characterized by a lower minimum ignition temperature than the single dust.     

The effects of phosphorus-free inhibitors on the ignition of lycopodium dust

The minimum ignition temperature of dust suspension (MIT) and the hot surface ignition temperature of the dust layer (LIT) are essential safety parameters for the process industry. However, the knowledge of the ignition behavior when solid mixtures of flammable fuels and phosphorous-free inhibitors are considered is still scarce and further experimental and theoretical analyses are requested. In this work, the ignition temperature of phosphorous-free inhibitors (coal fly ash and calcium carbonate) mixed with lycopodium dust have been studied in terms of LIT analysis (hot plate thickness: 5 mm, 12.5 mm and 15 mm), and by the Godbert-Greenwald test for the MIT. Both coal fly ash and calcium carbonate have been tested at different concentrations and particle sizes.Results show that the effects of the inhibitor can be counter-productive when layer ignition temperature is considered even if the minimum ignition temperature of the dust suspension shows a positive effect from the safety point of view. This behavior has been analyzed in the terms of thermal conductivity and diffusivity of the mixture, by using Maxwell's equation for two-phase solid mixtures. Standard empirical correlations for the ignition temperature of solid mixtures have been also tested, showing their weakness in reproducing mixture behavior.     

油墨含能NiCr桥电爆换能规律及间隙点火性能研究

目的 针对低功耗换能元点火能力不足的问题,采用油墨直写技术制备一种油墨含能NiCr桥换能元。方法 以Al/CuO为主体含能材料,完成含能油墨的制备,并将其集成到NiCr桥上,形成油墨含能NiCr桥。对油墨含能NiCr桥换能元进行电爆实验和间隙点火实验,验证油墨含能NiCr桥的非接触式点火能力。结果 在24 V/100μF条件下,油墨装药量为2.9 mg时,油墨含能NiCr桥可以在5 mm间隙下点燃B/KNO₃装药,在间隙为1 mm条件下,油墨含能NiCr桥能够成功引发装药为硝酸肼镍的雷管。结论 含能油墨的引入能够增强Ni Cr桥的点火起爆能力,有望在工程实践中进行应用。     

Investigation of spark ignition processes of laminar strained premixed stoichiometric NH3-H2-air flames

A knowledge of the ignition properties of ammonia (NH${}_3$)/hydrogen (H${}_2$) mixtures is important because of their abundance in chemical engineering processes, and also because of their prospective role as fuels in future energy systems. In particular, the question arises if and how important characteristics like ignition limits and minimum ignition energies in NH${}_3$/H${}_2$ mixtures are related to the physical conditions. To address this question, this work studies ignition process in ammonia/hydrogen mixtures by numerical simulations. These track the evolution of ammonia/hydrogen mixtures during and after the deposition of a certain ignition energy, using a detailed treatment of chemical reactions and molecular transport. Studies on the influence of different system parameters on the minimally required ignition energy are performed. These are the strain rate, hydrogen content, pressure and initial (pre-ignition) temperature. Significant findings include a quasi-linear correlation between the transition strain rate, defined as the strain rate below which no external energy is required to initiate successful ignition (auto-ignition) and a characteristic reaction rate, defined as the inverse of ignition delay time in homogeneous, quiescent mixtures. Also, the relative decay of minimum ignition energy with increasing hydrogen content is less pronounced for higher pressures. Analysis of the results supports a knowledge-based approach towards fail-proof ignition devices and reliable prevention of hazards. The simulations are used for assessing the ignitability of ammonia and its mixtures with hydrogen.     

A numerical model for the prediction of the minimum ignition temperature of dust clouds

This paper presents a numerical model for the prediction of the minimum ignition temperature (MIT) of dust clouds. First, a physical model is developed for the dust cloud ignition in the Godbert-Greenwald furnace. A numerical approach is then applied for the MIT prediction based on the physical model. The model considers heat transfer between the air and dust particles, the dust particle reaction kinetics, and the residence times of dust clouds in the furnace. In general, for the 13 dusts studied, the calculated MIT data are in agreement with the experimental values. There is also great accordance between the experimental and numerical MIT variation trends against particle size. Two different ignition modes are discovered. The first one consists in ignition near the furnace wall for bigger particles characterized by rather short residence times. In the second mode, the ignition starts from the center of the furnace by self-heating of the dust cloud for smaller particles with longer residence times. For magnesium, as dust concentration increases, the lowest ignition temperature of the dust cloud IT(conc) decreases first, then transits to increase at a certain point. The transition happens at different dust concentrations for different particle sizes. Moreover, the MIT of the magnesium dust cloud generally increases as particle size increases, but the increasing trend stagnates within a certain medium particle size range.     

古商业街木结构建筑防火间距的数值模拟研究

古商业街木结构建筑较多,防火间距先天不足,发生火灾后蔓延迅速,有必要开展木结构建筑引燃特性研究以获得合理的防火间距设置参数.以古商业街为研究对象,以临界温度和热辐射强度作为着火建筑对面木结构建筑被引燃的判定指标,综合考虑环境风速、建筑间距、火源功率、喷淋系统等因素,运用火灾动力学模拟软件FDS分析系列火灾场景下的温度和...