The aim of this study was to investigate the concentrations of airborne asbestos that can be released into classrooms of schools that have amosite-containing asbestos insulation board (AIB) in the ceiling plenum or other spaces, particularly where there is forced recirculation of air as part of a warm air heating system. Air samples were collected in three or more classrooms at each of three schools, two of which were of CLASP (Consortium of Local Authorities Special Programme) system-built design, during periods when the schools were unoccupied. Two conditions were sampled: (i) the start-up and running of the heating systems with no disturbance (the background) and (ii) running of the heating systems during simulated disturbance. The simulated disturbance was designed to exceed the level of disturbance to the AIB that would routinely take place in an occupied classroom. A total of 60 or more direct impacts that vibrated and/or flexed the encapsulated or enclosed AIB materials were applied over the sampling period. The impacts were carried out at the start of the sampling and repeated at hourly intervals but did not break or damage the AIB. The target air volume for background samples was similar to 3000 l of air using a static sampler sited either below or similar to 1 m from the heater outlet. This would allow an analytical sensitivity (AS) of 0.0001 fibres per millilitre (f ml(-1)) to be achieved, which is 1000 times lower than the EU and UK workplace control limit of 0.1 f ml(-1). Samples with lower volumes of air were also collected in case of overloading and for the shorter disturbance sampling times used at one site. The sampler filters were analysed by phase contrast microscopy (PCM) to give a rapid determination of the overall concentration of visible fibres (all types) released and/or by analytical transmission electron microscopy (TEM) to determine the concentration of asbestos fibres. Due to the low number of fibres, results were reported in terms of both the calculated concentration and the statistically relevant limits of quantification (LOQ), which are routinely applied. The PCM fibre concentrations were all below the LOQ but analytical TEM showed that few of the fibres counted in the background samples were asbestos. The background TEM asbestos concentrations for the individual samples analysed from all three schools were at or below the AS, with a pooled average below the LOQ (<0.00005 f ml(-1)). At the two CLASP schools, there was no significant increase in the airborne amosite concentration in the classrooms during simulated disturbance conditions. At the third school, four of the five classrooms sampled gave measurable concentrations of amosite by TEM during simulated disturbance conditions. The highest concentration of amosite fibres countable by PCM was 0.0043 f ml(-1) with a pooled average of 0.0019 f ml(-1). The air sampling strategy was effective and worked well and the results provide further important evidence to inform the sampling and management of asbestos in schools.
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机译:这项研究的目的是调查可释放到天花板教室或其他空间中装有含铁石棉隔热板(AIB)的学校的教室中的空气中石棉的浓度,特别是在部分空气被强制再循环的情况下暖风供暖系统。在三所学校的无人居住期间,在三所学校中的每所的三个或更多教室中收集了空气样本,其中两个是CLASP(地方政府特别计划联盟)系统构建的设计。采样了两个条件:(i)无干扰(背景)的加热系统的启动和运行,以及(ii)模拟干扰期间加热系统的运行。模拟干扰的设计超出了对AIB的干扰水平,而该干扰水平通常是在教室里发生的。在采样期间,总共施加了60个或更多个振动和/或弯曲封装或封闭的AIB材料的直接冲击。这些影响是在采样开始时进行的,每隔一小时重复一次,但没有破坏或损坏AIB。使用位于加热器出口下方或接近加热器出口1 m的静态采样器,本底样品的目标空气量类似于3000 l空气。这将使分析灵敏度(AS)为每毫升0.0001纤维(f ml(-1)),这比欧盟和英国工作场所控制限值0.1 f ml(-1)低1000倍。在过载的情况下,为了减少在一个站点的采样时间,还收集了空气量较少的样品。通过相差显微镜(PCM)分析采样过滤器,以快速确定释放的可见纤维(所有类型)的总浓度,和/或通过分析透射电子显微镜(TEM)确定石棉纤维的浓度。由于纤维数量少,因此按常规计算的浓度和统计相关的定量限(LOQ)报告结果。 PCM纤维浓度均低于LOQ,但分析TEM显示,背景样品中计数的纤维中几乎没有石棉。从所有三所学校分析的单个样本的背景TEM石棉浓度均在AS或AS之下,并且汇总平均值低于LOQ(<0.00005 f ml(-1))。在两所CLASP学校中,在模拟骚扰情况下,教室中的空气传播铁质浓度没有显着增加。在第三所学校,在模拟的干扰条件下,通过取样的五间教室中的四间通过TEM测得的铁质浓度可测量。 PCM可测得的最高浓度的铁纤维为0.0043 f ml(-1),合并平均值为0.0019 f ml(-1)。空气采样策略是有效且有效的,结果为进一步指导学校石棉采样和管理提供了重要的证据。
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