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硼基复合金属燃料单颗粒点火与燃烧特性
Study on Single Particle Ignition and Combustion Characteristics of Boron-based Composite Metal Fuel

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于润田 1   马曼曼 1   张睿 1   秦钊 2 *   刘冬 1 *  
文摘 为解决硼点火困难和燃烧性能较差的问题,采用立式管式流化床反应炉研究了硼及硼基复合金属颗粒的点火和燃烧特性;应用能谱分析(EDS)和扫描电镜分析(SEM)对硼及硼基复合金属燃料单颗粒燃烧前后的微观形貌及元素进行分析,并采用双色法测量硼及硼基复合材料的燃烧温度分布。结果表明,硼及硼基复合金属颗粒的燃烧过程主要分为点火和燃烧两个阶段;铝、碳纳米管和石墨烯的加入减少了硼基复合材料点火延迟时间和燃烧时间;掺混燃料的比例越高,对点火延迟时间的影响也越大;此外,纳米铝的加入对点火延迟时间的影响最大;碳纳米管和石墨烯的加入对燃烧时间的影响最大。单颗粒纳米硼颗粒的燃烧温度为1 772K,纳米铝的加入使得复合材料的燃烧温度提高到1 830K;相反纳米铁的加入使混合材料的燃烧温度降低到1 680K;石墨烯和碳纳米管的加入对复合材料的温度几乎没有影响。
其他语种文摘 To solve the problem of difficult ignition and poor combustion performance of boron particles,the effects of different particles and blending ratios on ignition and combustion characteristics of boron-based composite metal fuel were explored using a single particle experiment.The main combustion products were detected and analyzed by the energy dispersive spectrometer(EDS)and scanning electron microscopy(SEM).The combustion temperature distributions were measured by the two-color pyrometry method.The results show that the combustion process of boron and boron-based composite metal particles is mainly divided into two stages including ignition and combustion stage.The addition of aluminum,carbon nanotubes,and graphene reduces the ignition delay time and combustion time.The influence of ignition delay time is increased with the increase of blending ratios.Moreover,the addition of nano-aluminum has the greatest effect on the ignition delay time of the composite fuel.The addition of carbon nanotubes and graphene has the greatest effect on the combustion time.The temperatures of the boron nanoparticles are measured and mostly distributed at 1 772K.The addition of nano-aluminum increases the combustion temperature of single particle to 1 830K,while the addition of nano-iron decreases the combustion temperature of single particle to 1 680K.The addition of graphene and carbon nanotubes has little effect on the combustion temperature.
来源 火炸药学报 ,2022,45(6):862-869 【核心库】
DOI 10.14077/j.issn.1007-7812.202204015
关键词 物理化学 ; ; 复合金属燃料 ; 单颗粒 ; 点火延迟 ; 燃烧特性
地址

1. 南京理工大学能源与动力工程学院&先进燃烧实验室, 江苏, 南京, 210094  

2. 西安近代化学研究所燃烧与爆炸技术重点实验室, 陕西, 西安, 710065

语种 中文
文献类型 研究性论文
ISSN 1007-7812
学科 化学;武器工业
基金 装备预研重点实验室基金
文献收藏号 CSCD:7379491

参考文献 共 23 共2页

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引证文献 2

1 王为民 纳米硼对AI/CuFe_2O_4@NC复合物点火和燃烧反应特性的影响 火炸药学报,2023,46(8):696-706
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2 伍双艳 LiF/GAP协同作用改善硼粉的燃烧性能 火炸药学报,2024,47(3):279-286
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