Effects of cable fire smoke on electronic boards

R. Gracia, S. Mongruel, E. Wizenne
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引用次数: 2

Abstract

The consequences of a fire are twofold: an increase in temperature and heat fluxes, and smoke propagation at the source of the fire and in adjacent rooms. These may lead to malfunctions of fire safety electrical equipment in nuclear power plants. A survey of relevant literature has shown that the equipment most affected by smoke particles and gases are electronic boards. Smoke causes electronic boards to malfunction in four ways: loss of metallic contact due to chemical corrosion, increased short circuiting between the conductors, loss of mechanical contact conductivity, and reduced capacity for movement in electromechanical systems as a result of particle deposits. These effects can occur over different timescales: – In the short term, malfunctions that have critical impact in terms of plant safety occur – such as electrical short circuiting and increased contact resistance, – Mid to longer term, corrosion effects can appear. A test procedure based on the repeatability of a 20-minute duration cable fire was set up. Temperature and smoke composition in terms of both gaseous products and soot were controlled. Tests were performed on boards designed to sum test and regulation signals, or to control an analog chain fitted with relays. Although the behaviour of the equipment may be dependent upon its construction material and equipment layout, no electronic board malfunctions occurred during the 24-hour tests. Furthermore, no malfunctions were detected in the boards when they were retested six months later under normal conditions and without any clean-up following the smoke exposure.
电缆火灾烟气对电路板的影响
火灾的后果是双重的:温度和热流的增加,以及烟雾在火源和邻近房间的传播。这些都可能导致核电站消防安全电气设备的故障。对相关文献的调查表明,受烟雾颗粒和气体影响最大的设备是电子电路板。烟雾以四种方式导致电子电路板故障:由于化学腐蚀而失去金属接触,导体之间短路增加,机械接触导电性丧失,以及由于颗粒沉积而降低机电系统的运动能力。这些影响可能在不同的时间尺度上发生:-短期内,对工厂安全产生重大影响的故障发生-例如电气短路和接触电阻增加;-中长期内,可能出现腐蚀影响。建立了基于20分钟持续电缆火灾可重复性的测试程序。控制了气体产物和烟尘的温度和烟雾成分。测试是在设计用于汇总测试和调节信号的电路板上进行的,或者用于控制装有继电器的模拟链。虽然设备的性能可能取决于其结构材料和设备布局,但在24小时测试期间没有发生电子板故障。此外,六个月后在正常条件下重新测试时,没有发现电路板出现故障,并且在烟雾暴露后没有进行任何清理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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