The Pittsburgh Research Laboratory (PRL) of the National Institute for Occupational Safety and Health (NIOSH) has conducted full-scale explosion experiments, to evaluate the strength characteristics of various seal designs, used for safely isolating worked-out areas in underground coal mines. Large-scale explosion tests conducted within the multiple entry section of PRL's Lake Lynn Experimental Mine (LLEM) is currently the only accepted test method used by the Mine Safety and Health Administration (MSHA), for deeming a seal design suitable for use in American mines. These explosion tests are labour intensive, expensive to conduct, and can interfere with other critical underground safety and health research programs conducted by NIOSH. The PRL has developed an alternative seal evaluation method, based on a hydrostatic pressure loading concept, that can facilitate the in situ testing of seals in an operating mine. Two chambers within LLEM and one within PRL's Safety Research Coal Mine (SRCM) were used for hydrostatic pressure loading various seal designs. The results fromthese chamber tests compare favourably with those from the large-scale explosion tests in the multiple entries. In addition to testing seal designs at the required 20 psi static pressure level, the chamber test approach also allows for the determination of the seal's ultimate design strength. Size-scaling relationships for predicting the strength of seal designs as a function of entry size are also presented.
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机译:匹兹堡研究实验室(PRL)的国家职业安全和健康研究所(NIOSH)进行了全面的爆炸实验,以评估各种密封设计的强度特性,用于安全地隔离地下煤矿的工作地区。在PRL Lake Lynn实验矿山(LLEM)的多个入口区内进行的大型爆炸测试是目前矿井安全和健康管理(MSHA)使用的唯一可接受的测试方法,用于认为适用于美国矿山的密封设计。这些爆炸测试是劳动密集型,昂贵的,并且可能干扰Niosh进行的其他关键地下安全和健康研究计划。该PRL开发了一种基于静液压压力负荷概念的替代密封评估方法,这可以促进操作矿井中的密封件的原位测试。 LLEM内的两个腔室和PRL安全研究煤矿(SRCM)中的一个腔室用于静压压力加载各种密封设计。这些结果与多个条目中的大规模爆炸测试中的那些结果有利地比较。除了在所需的20psi静压水平的测试密封设计外,腔室测试方法还允许确定密封的最终设计强度。还提出了用于预测作为进入尺寸的函数的密封设计的强度的大小缩放关系。
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