Determining the probability of failure of marine diesel engine parts

G. Ivanov, Pavlo Polyansky
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Abstract

Maritime transportation is the essence of the international economy. Today, about ninety percent of world trade is carried out by sea through 50,000 merchant ships. Most of these vessels are powered by mainline diesel engines due to their reliability and fuel efficiency. Reliability of system elements in general depends on random failures, significant wear during operation, additional wear during start-up. Accidental damage to diesel engine components is a major hazard during operation, as some parts (such as cylinder liners and pistons) are usually replaced during repairs. On the other hand, preventive service does not eliminate random malfunctions. Therefore, in the general problem of assessing the reliability of a diesel engine, there is a mathematical problem of assessing the reliability and durability, taking into account only the random failures of its elements, which are of the greatest practical importance. The purpose of the work is a mathematical study of the reliability of parts of the cylinder-piston group of the main engines of dry cargo ships. Using a systematic approach and a probabilistic statistical method, it was established that the most common and difficult case is the simultaneous action on a system element (for example, a cylinder sleeve) of factors that cause wear during the period of operation (including during the start-up period) and accidental failures. It was determined that the quality of the cylinder-piston system in ships of the "Ostriv Rosiyskiy" type is higher than in the ships of the "Simferopol" and "Murom" types. Empirical formulas for estimating the probability of emergency failure of main engine system elements during the period of operation between factory repairs were obtained, where the main danger during the period of operation was carried by accidental failures. Based on the results of the study, it is possible to establish a schedule for the periodicity of maintenance of the ship's main engine and the cost of losses due to ship downtime due to failures, and can also be used in the reliability study of other types of ship's main engines. The results make it possible to determine the reliability of the parts of the cylinder-piston group of the main engines of dry cargo ships. and, in particular, to establish the maintenance schedule of the ship's main engine and the cost of damages due to ship downtime due to failures, and can also be used in the study of the reliability of other types of main engines of other series of ships
确定船用柴油机零件的失效概率
海上运输是国际经济的核心。今天,大约90%的世界贸易是通过5万艘商船通过海上进行的。由于其可靠性和燃油效率,这些船只大多由干线柴油发动机提供动力。系统元件的可靠性通常取决于随机故障、运行期间的显著磨损和启动期间的额外磨损。柴油发动机部件的意外损坏是运行过程中的主要危害,因为一些部件(如气缸套和活塞)通常在维修期间更换。另一方面,预防性服务并不能消除随机故障。因此,在评估柴油机可靠性的一般问题中,存在一个评估可靠性和耐久性的数学问题,只考虑其元件的随机失效,这是最重要的实际问题。本文的目的是对干货船主机缸-活塞组部件的可靠性进行数学研究。使用系统方法和概率统计方法,确定了最常见和最困难的情况是在运行期间(包括启动期间)导致系统元件(例如气缸套)磨损和意外故障的因素同时作用。确定了“Ostriv Rosiyskiy”型船舶的气缸-活塞系统的质量高于“Simferopol”和“Murom”型船舶。得到了在机厂维修间隔运行期间主机系统元件紧急故障概率估计的经验公式,其中运行期间的主要危险由意外故障承担。根据研究结果,可以建立船舶主机维修周期和船舶因故障停机损失成本的时间表,也可用于其他类型船舶主机的可靠性研究。研究结果为干货船主机缸-活塞组部件可靠性的确定提供了可能。特别是建立船舶主机的维修计划和船舶因故障而停机的损失成本,也可用于其他系列船舶其他型号主机可靠性的研究
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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