概率论和排队论目前不论是在国内还是在国外,不论是在科技活动方面还是在工农业生产方面,都已发挥了十分巨大的作用。包括概率论和排队论在内的运筹学,目前正以方兴未艾的势头迅速发展。在煤矿的规划与设计中,也在起着越来越重要的作用。本文分别按常规方法和排队论探讨了井下提升系统的设计,结论认为按排队论设计的更为合理;又按概率论探讨了井下运输系统中“一条龙溜子”的瘫痪概率;按概率论和可靠性数学探讨了井下排水系统的合理设计;以及按概率论探讨了在GBJ3-64贯通测量规定中在特殊情况下有可能相互矛盾的两条规定。 Probability theory and queuing theory have played a very significant role both at home and abroad, both in science and technology activities and in industrial and agricultural production. Operations research, including probability theory and queuing theory, is rapidly evolving in the ascendant. In the planning and design of coal mines, it is also playing an increasingly important role. In this paper, we discuss the design of downhole hoisting system according to the conventional method and queuing theory respectively, and conclude that it is more reasonable to design the system based on queuing theory. Moreover, probabilistic theory is also used to explore the probability of “one-stop” in the downhole transportation system. Reliability mathematics to explore the rational design of underground drainage system; and Probability theory to explore the GBJ3-64 through measurement provisions in the special circumstances may be two conflicting provisions.