氯化钠/纳米疏水二氧化硅超细干粉制备及灭火性能研究

选用氯化钠为基体制备金属火灾超细干粉灭火剂。应用反溶剂法对其改性,使纳米疏水二氧化硅吸附在氯化钠晶体表面,其中分散剂为PEG-1000。结果表明,纳米疏水二氧化硅的添加有利于细化氯化钠颗粒,但过量的添加会起反作用,最佳用量为3 wt%左右,平均粒径为2.18μm。镁片灭火实验证明超细复合干粉的灭火性能明显好于传统氯化钠灭火剂(商用D类灭火剂),纳米疏水二氧化硅最佳添加量为3 wt%,此时灭火时间仅需传统灭火剂的一半。最后利用FDS5.0模拟干粉颗粒与燃烧火焰作用过程,模拟结果表明干粉覆盖对火焰具有一定的抑制效果,并分析了复合干粉灭火机理。     

磷酸铵盐亚纳米粉体灭火性能实验研究

使用溶剂-非溶剂法制备了粒径达到亚纳米量级（300nm-500mm）的磷酸铵盐灭火剂,建立了1．2m×1．2m×1．2m的小尺度灭火实验平台,开展了灭油池火和木垛火的全淹没灭火实验,对磷酸铵盐亚纳米粉体的灭火性能进行了研究,并与普通磷酸铵盐粉体的灭火性能进行了比较。实验结果显示磷酸铵盐亚纳米粉体的灭火性能要明显高于普通粉体,并且在低压下就可以获得很好的灭火果。工作压力的增加会缩短粉体的灭火时间,但是对于磷酸铵盐亚纳米粉体灭木垛火的情况,由于灭火时间相差示大,反而会导致灭火剂用量增加。     

Experimental investigation on extinguishing performance of a novel nanocomposite for gaseous fires

A novel nanocomposite was synthesized by incorporating three different types of flame-retardants and its extinguishing performance was tested for gaseous fires. The nanocomposite consists of the inorganic magnesium hydroxide (MH) nanoparticles as the dominant component, the nitrogen-based melamine cyanurate (MCA), and the phosphorus-based ODOPB. The wet mixing, dry mixing, and ultrasonic agitation were employed in the preparation process to enhance the homogeneity of the nanocomposite. The prepared powders were characterized using a series of analytical instruments including X-ray diffraction (XRD), scanning electron microscopy (SEM), thermal gravity analyzer (TGA), and differential scanning calorimeter (DSC). The efficiency of various samples in extinguishing gaseous fires was investigated in a lab-scale extinguishing system. The fire extinguishing tests indicated that the nanocomposite is considerably more effective in fire extinguishing than other powders in terms of extinction time and agent mass consumed. The fire extinction time of nanocomposite was 45.2% shorter than that of commercial ABC-MAP powder. Furthermore, the consumed amount of nanocomposite was 63.2% less than that of commercial powder. In addition, the order of extinguishing mass concentrations was as follows: the novel nanocomposite (103.7 g/m³) < MH/MCA (148.1 g/m³) < MH/ODOPB (155.6 g/m³) < MH (170.4 g/m³) < commercial ABC powder (281.5 g/m³) < MCA/ODOPB (384.1 g/m³). The fire suppression mechanisms of the nanocomposite were also discussed. It was inferred that the extinguishing mechanism of nanocomposite comprised of simultaneous chemical and physical inhibition actions involving chemical inhibition action, cooling action, and asphyxiation action. This study provides a promising attempt to gain benefits from the striking features of nanotechnology and flame-retardants in extinguishing gaseous fires.     

超细微粒灭火剂抑制单室火灾的试验研究

通过试验测量燃烧区温度的变化过程,研究了超细微粒灭火剂在单室火灾模型下与4种不同类型火焰的相互作用、灭火时间和效果。结果表明,超细微粒灭火剂具有较好的全淹没灭火能力。当1 000g超细微粒灭火剂施放后,位于微粒灭火剂流动路径上的无遮挡火焰(中央火和角落火)能够被迅速扑灭,灭火时间分别为3.9 s和7.2 s;对于火源功率较小的顶棚火,由于火羽流及热泳力的作用,微粒灭火剂能迅速扩散到顶棚,从而能在短时间内将其扑灭,灭火时间约6.3 s;对于遮挡火,其灭火时间较长,约14.3 s。微粒灭火剂浓度对灭火时间有较大影响。当微粒灭火剂的喷射质量为500 g时,虽然中央火、角落火和遮挡火均能被扑灭,但灭火时间都较喷射1 000 g灭火剂时有较长的延长,灭火时间分别为8.1 s,13.9 s和22.2 s。对于需要灭火剂微粒扩散较远距离后灭火的顶棚火,虽然灭火剂在热羽流和热泳力作用下能扩散到顶棚,但因浓度太低,同时由于其他3处火焰熄灭后,灭火室内的氧气消耗速率降低,从而使顶棚火得到足够的氧气,燃烧反应进一步加强,温度反而逐渐升高,不足以将其熄灭。     

超细水雾抑制酒精火有效性实验研究

为了研究超细水雾对酒精火的抑制效果,通过搭建超细水雾抑制受限空间酒清火燃烧的小尺寸实验平台,利用基于质量损失速率的热释放速率计算方法,研究超细水雾与酒精火焰相互作用时,酒精火火焰的变化规律及酒精火的热释放速率,与此同时,采用高速摄像仪对火焰进行拍摄,利用Matlab图像处理程序对采集的火焰图片剖面进行处理.研究发现:施...     

蒸汽抑制熄灭酒精池火有效性的模拟实验研究

蒸汽灭火系统在酒类作业场所有着广阔的应用前景.通过全淹没和局部保护实验对蒸汽抑制熄灭酒精池火的有效性进行了研究.实验结果表明,全淹方式难以有效控火,但是布局合理的局部保护方式能够有效熄灭酒精池火.蒸汽灭火过程中稀释O2浓度的灭火机理起到的作用较小,蒸汽的火焰拉伸效果是其主导灭火机理.     

Experimental study on fire suppression performance of the high pressure water mist in the engine room of an offshore platform

The total flooding application water mist system is a new type of environmentally-friendly fixed extinguishing system. The optimizing design can improve its fire extinguishing performance. At present, the water mist fire extinguishing system in the engine room of the offshore deepwater semi-submersible support platform has not attracted sufficient attention. In this paper, the water mist in the engine room of a deepwater semi-submersible support platform was studied. It contains the effect of water mist on the heat absorption and oxygen insulation of diesel pool fires. The applicable parameters of the water mist fire extinguishing system were also determined. Moreover, based on the shielding of the fire source in the engine room and the different requirements for water mist extinguishing parameters, a hierarchical multi-parameter combined high-pressure water mist fire extinguishing system was proposed. In the full-scale experimental engine room model, according to the fire extinguishing experiments for diesel pool fires with different areas, this kind of hierarchical multi-parameter water mist system is very effective on shielded and non-shielded fires. In addition, it is still effective even in a non-closed environment coupled with smoke exhausting.     

障碍物遮挡条件下细水雾与油池火相互作用的实验研究

障碍物影响下细水雾灭火有效性的研究具有重要的意义。研究了障碍物与火焰的相对位置、细水雾工作压力、喷头距离火焰垂直距离及水平距离等因素对灭火有效性的影响,以及细水雾作用下火灾烟气中一氧化碳、二氧化碳及氧气浓度的变化规律等。结果表明:高压细水雾可以有效扑救部分有障碍物遮挡的油池火,同时喷头距离火焰的水平距离和垂直距离也显著影响着细水雾的灭火速度;高压细水雾在灭火过程中火场的氧气浓度明显升高,二氧化碳和一氧化碳浓度明显降低;细水雾工作压力较低时,一氧化碳浓度反而有所增加。     

细化粉基介质抑制熄灭油池火的模拟实验研究

利用行星式球磨机细化加工普通BC干粉灭火材料,并通过扫描电子显微镜对细化前后粉体颗粒的粒径分布和表面形态进行了比较分析;随后在小型粉体灭火装置内,比较了普通BC干粉和细化后粉体的灭火效率。实验发现:细化粉体的灭火效果好于同等实验条件下的普通BC干粉,侧面施加粉体的灭火方式好于底部施加;粉体熄灭煤油火较熄灭酒精火容易。最后,简要讨论了粉体的灭火机制以及细化后粉体灭火性能得到提高的原因。     

局部蒸汽系统抑制熄灭油池火的实验研究

选取乙醇为燃料试样,进行不同条件下蒸汽灭火的全尺寸实验,研究了局部蒸汽系统抑制熄灭油池火的有效性及其影响因素,并探讨其灭火机理.实验结果表明:喷口直径是影响蒸汽灭火的关键因素,中等直径的喷口具有较好的灭火效率;喷口方位和燃料浓度也会影响灭火有效性;局部蒸汽系统的有效保护面积大于直接覆盖面积,对可燃气和氧气的稀释置换作用...     

飞机货舱低气压环境对火灾探测参量影响研究

旨在为飞机货舱火灾探测系统设计和研制提供理论支撑,在飞机货舱环境模拟实验舱内开展了70kPa、80kPa、90kPa和100kPa下正庚烷火灾实验,分析了低气压环境对顶棚温度、烟气密度和气体浓度火灾探测参量的影响规律。低压下空气密度较小,卷吸系数减小,导致顶棚最高温升增加,顶棚温度衰减变快。同时,低压下烟气密度降低,并与压力呈指数关系,指数系数约为0.946,扩展了前人研究结果的应用范围。CO浓度最大值随压力降低而增加,且CO增长速率与压力呈负指数关系。CO2增长速率随着压力降低而略有减小。     

复合干粉灭火剂抑制食用油火的试验研究

为改善普通碳酸氢钠干粉灭火剂(BC干粉)抑制食用油火时抗复燃性较差的不足,选择聚磷酸铵、溴化钾和一水合草酸钾作为添加剂,与普通BC干粉灭火剂混合配制成复合干粉灭火剂。通过全尺度模拟试验研究各种复合粉体对食用油火的灭火效果及其抗复燃性能。结果证明,普通BC干粉与一水合草酸钾复配而成的复合粉体针对食用油火的灭火效果和抗复燃性能在几种粉体中最佳。根据试验数据和各粉体的理化特性,对4种粉体的灭火效果差异作了详细的分析和讨论。