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31.
为研究车用聚合物材料的燃烧特性,并对材料的火灾危险性进行全方位的评估,采用锥形量热仪,对汽车上常用的ABS,PP-PVC,PVC革-无纺毡以及无纺布-PVC聚合物材料进行分析表征,测得点燃时间、热释放速率、总热释放量、质量损失速率、烟气生成速率等参数。结果表明:ABS材料的点燃危险性相对最低,PVC革-无纺毡材料相对最高;随热辐射强度的增加,各样品的热释放速率和烟气生成速率明显加快;结合热释放速率峰值、均值和总热释放量可知,无纺布-PVC材料的热危险性相对最低;结合烟气生成速率和总烟释放量可知,ABS材料的发烟危害性相对最高,无纺布-PVC的相对最低;综合比较各样品的FGI和FPI值,安全等级由高到低依次为ABS,PP-PVC,PVC革-无纺毡,无纺布-PVC。 相似文献
32.
为对变压器油池火灾进行准确有效的灭火,研究不同尺寸和不同厚度下变压器油的火灾动力学特征和基本燃烧特性,具体分析变压器油的燃烧过程和变压器油燃烧速率、火焰温度以及辐射热流随油池直径以及厚度的变化规律。结果表明:整个油品的燃烧过程分为预热燃烧阶段、稳定燃烧阶段和火焰熄灭阶段。对于厚度大于10 mm的油池燃烧,稳定阶段的燃烧速率与油层厚度无关,稳定阶段的燃烧速率随着油池直径的增加而增加。同时,变压器油火灾连续火焰区温度接近750 ℃。对于稳定燃烧阶段下的变压器油燃烧,基于辐射通量可得出在燃烧过程中,辐射热量占总燃烧热的占比约为1/3。研究结果可丰富变压器油燃烧的基础数据,为变压器火灾的灭火提供参考。 相似文献
33.
为了解电池热失控引起的电动汽车自燃事故起因,降低事故发生率,统计梳理2020年新能源汽车起火事故概况,并基于动力电池失效机制和车辆运行数据,提出一种融合事故阶段安全参数关联分析、事故现场调查和全生命周期数据一致性分析的事故多维分析方法,采用该方法深入剖析一起电动汽车起火事故.研究结果表明:事故多维分析方法可通过探究事故... 相似文献
34.
为研究苯、甲苯、二甲苯混合废气在三床蓄热式废气焚烧炉内部的燃烧过程,基于FLUENT软件建立典型的三床蓄热式废气焚烧炉的物理模型和数值模型,重点分析进气风量和混合可燃气体-空气摩尔占比对其内部压力变化规律的影响,以期可为其安全设计提供借鉴。研究结果表明:燃烧室内的温度变化与燃烧速度变化保持一致,可通过监测RTO燃烧室内的温度来定性评估气体燃烧速度,随着进气风量的增加,混合废气燃烧速度先升高后下降后再升高;从能源损耗和安全生产2个方面综合考虑,得出RTO运行的最佳进气风量为15 000 m3/h到30 000 m3/h,最佳的混合可燃气体-空气摩尔占比为0.15~0.2,这与RTO实际工况相符合,解释RTO装置内废气积聚导致爆炸事故的原因,燃烧过程中压力出现2次峰值超压,实际生产中需在2个时间节点多加防范。 相似文献
35.
为研究软质聚氨酯泡沫(FPUF)的燃烧行为对火灾的影响,采用锥形量热仪(CONE)分析FPUF在强制点火和非强制点火模式下的燃烧行为、热释放速率HRR、质量损失速率MLR和燃烧效率η。研究结果表明:当外部辐射≥40 kW/m2时,FPUF在2种点火模式下燃烧的HRR和MLR均出现2个明显的峰值且η约为88%;当外部辐射<40 kW/m2时,FPUF在非强制点火模式下燃烧的HRR和MLR曲线趋于单峰形式;FPUF在强制点火模式下燃烧前期为异氰酸酯(TDI)和多元醇的混合燃烧,在非强制点火模式下为TDI的挥发。根据研究结果修正现有燃料组分的热值计算方法,获得FPUF和多元醇的热值分别为(20±2),(28±3) kJ/g。 相似文献
36.
目前国内能源结构仍以煤炭为主,大气污染非常的严重,尤其是酸雨和粉尘危害相对较大。在生态文明建设的时代背景下,我们应当加强锅炉脱硫以及除尘技术创新与改造,对燃煤烟尘以及二氧化硫等污染物的排放进行严格控制。本文先对锅炉烟气脱硫除尘现状进行了分析,并在此基础上就电厂锅炉如何进行烟气脱硫与除尘提出了一些观点与认识,以供参考。 相似文献
37.
《International Journal of Sustainable Engineering》2013,6(1):55-65
The diminishing resources and continuously increasing cost of petroleum in association with their alarming pollution levels from diesel engines have caused an interest in finding alternative fuels to diesel which are renewable and sustainable. Emission control and engine efficiency are two most important parameters in current engine design. The impending introduction of emission standards such as Euro IV and Euro V is forcing the research towards developing new technologies for combating engine emissions. The classification of Euro IV and V norms is applicable to heavy-duty engines in Europe, where as Euro 5 is applicable to light-duty engines. This paper presents the effects of exhaust gas recirculation (EGR), swirl augmentation techniques and ethanol addition on the combustion of Honge oil methyl ester (HOME) and its blends with ethanol in a diesel engine. From the experimental work conducted, it is found that the combustion of HOME plus up to 15% ethanol blend in a diesel engine operated with optimised parameters of injection timing 23° Before Top Dead Centre and compression ratio 17.5 results in acceptable combustion emissions and improved brake thermal efficiency (BTE). The addition of ethanol increased BTE with reduced hydrocarbons (HCs), CO and smoke emissions. However, NO x emissions increased dramatically. Use of appropriate EGR reduces NO x to acceptable levels. The implementation of swirl augmentation techniques further resulted in increased BTE and considerable reduction in tail pipe emissions such as smoke, HCs, CO and NO x . The effect of swirl by providing grooves on the piston was taken into consideration to find the overall biodiesel engine performance, which gives scope for further studies. 相似文献
38.
In India coal combustion is the single largest source of emission of mercury which is a wide-spread persistent global toxicant, travelling across international borders through air and water. As a party to the Minamata convention, India aims to monitor and reduce Hg emissions and stricter norms are introduced for mercury emissions from power plants (30 μg/Nm3for flue gas in stack).This paper presents the results obtained during the experimental studies performed on mercury emissions at four coal-fired and one lignite-fired power plants in India. The mercury concentration in the feed coal varied between 0.12–0.27 mg/Kg. In the mercury mass balance, significant proportion of feed coal mercury has been found to be associated with fly ash, whereas bottom ash contained very low mercury. 80%–90% of mercury was released to air through stack gas. However, for circulating fluidised bed boiler burning lignite, about 64.8% of feed mercury was found to get captured in the fly ash and only 32.4% was released to air. The mercury emission factor was found to lie in the range of 4.7–15.7 mg/GJ. 相似文献
39.
Peng Liu Xiaoliang Liang Yanliu Dang Junkai He Alireza Shirazi-Amin Laura A. Achol Shanka Dissanayake Hanlin Chen Mingli Fu Daiqi Ye Steven L. Suib 《环境科学学报(英文版)》2021,33(3):293-303
Ceria is widely used as a catalyst for soot combustion, but effects of Zr substitution on the reaction mechanism is ambiguous. The present work elucidates effects of Zr substitution on soot combustion over cubic fluorite-structured nanoceria. The nanostructured CeO2, Ce0.92Zr0.08O2, and Ce0.84Zr0.16O2 composed of 5–6 nm crystallites display Tm-CO2 (the temperature at maximum CO2 yield) at 383, 355, and 375°C under 10 vol.% O2/N2, respectively. The size of agglomerate decreases from 165.5 to 51.9–57.3 nm, which is beneficial for the soot-ceria contact. Moreover, Zr increases the amount of surface oxygen vacancies, generating more active oxygen (O2? and O?) for soot oxidation. Thus, the activities of Ce0.92Zr0.08O2 and Ce0.84Zr0.16O2 in soot combustion are better than that of CeO2. Although oxygen vacancies promote the migration of lattice O2?, the enriched surface Zr also inhibits the mobility of lattice O2?. Therefore, the Tm-CO2 of Ce0.84Zr0.16O2 is higher than that of Ce0.92Zr0.08O2. Based on reaction kinetic study, soot in direct contact with ceria preferentially decomposes with low activation energy, while the oxidation of isolated soot occurs through diffusion with high activation energy. The obtained findings provide new understanding on the soot combustion over nanoceria. 相似文献
40.
Kankan Liu Chenglong Zhang Ye Cheng Chengtang Liu Hongxing Zhang Gen Zhang Xu Sun Yujing Mu 《环境科学学报(英文版)》2015,27(4):186-190
Atmospheric BTEX compounds(benzene, toluene, ethylbenzene and xylenes) in a rural site of the North China Plain(NCP) were preliminarily investigated in winter, and the outdoor concentrations(25.8–236.0 μg/m3) were found to be much higher than those reported in urban regions. The pollution of BTEX inside a farmer's house was even more serious, with combined concentrations of 254.5–1552.9 μg/m3. Based on the ratio of benzene to toluene(1.17 ± 0.34) measured, the serious BTEX pollution in the rural site was mainly ascribed to domestic coal combustion for heating during the winter season. With the enhancement of farmers' incomes in recent years, coal consumption by farmers in the NCP is rapidly increasing to keep their houses warm, and hence the serious air pollution in rural areas of the NCP during winter, including BTEX, should be paid great attention. 相似文献