阻燃聚合物燃烧废液中一氧化碳与氰化氢的关系

S. Molyneux, A. Stec, T. Hull
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引用次数: 7

摘要

本研究考虑了在阻燃材料的特殊情况下一氧化碳和氰化氢之间已证实的相关性。结果表明,与溴化聚苯乙烯和氧化锑的组合相比,磷酸铝和三聚氰胺的组合对一氧化碳(CO)和氰化氢(HCN)产率的增加要小得多,尽管这两种阻燃剂都抑制气相的燃烧反应。讨论了CO和HCN的形成和破坏机理。结果表明,这两种毒物在火焰早期形成,OH自由基对CO和HCN的破坏都是至关重要的。至关重要的是,在阻燃机理的背景下,这表明磷体系降低了H和O自由基浓度,而没有相应降低OH自由基浓度,因此它是一种有效的气相阻燃剂,只会导致有毒产物产量的小幅增加。相反,溴体系通过抑制CO和HCN的分解,降低了H、O和OH的浓度,从而增加了火毒性。此外,虽然磷阻燃剂在低温下是有效的点火抑制剂,但这种效果在较高的火焰温度下-关闭-最大限度地减少火灾毒性的潜在增加,一旦火灾发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The correlation between carbon monoxide and hydrogen cyanide in fire effluents of flame retarded polymers
This study considers the demonstrated correlation between carbon monoxide and hydrogen cyanide in the special case of fire retarded materials. It shows that the combination of aluminium phosphinate and melamine polyphosphate causes a much smaller increase in the carbon monoxide (CO) and hydrogen cyanide (HCN) yields than the combination of brominated polystyrene and antimony oxide, although both fire retardants inhibit combustion reactions in the gas phase. The formation and destruction mechanisms of CO and HCN are considered. It is shown that both toxicants form early in the flame, and that the OH radical is critical for the destruction of both CO and HCN. Crucially, in the context of the flame inhibition mechanism, this suggests that the phosphorus system reduces the H and O radical concentrations without a corresponding decrease in the OH radical concentration, thus it is an effective gas phase flame retardant which only causes a small increase in the toxic product yields. Conversely, the bromine system reduces the H, O and OH concentrations, and thus increases the fire toxicity, by inhibiting decomposition of CO and HCN. Moreover, while the phosphorus flame retardant is effective as an ignition suppressant at low temperatures, this effect ―switches off‖ at higher flame temperatures, minimising the potential increase in fire toxicity, once the fire develops.
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