Concept of Vibroacoustic Diagnostics of the Fuel Injection and Electronic Cylinder Lubrication Systems of Marine Diesel Engines

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
R. Varbanets, Oleksandr Shumylo, A. Marchenko, D. Minchev, V. Kyrnats, V. Zalozh, N. Aleksandrovska, Roman Brusnyk, Kateryna Volovyk
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引用次数: 4

Abstract

Abstract Although direct measurements of the fuel injection pressure and the travel of the injector needle in conjunction with measurements of the valve train mechanism timing can provide complete diagnostic information about the technical conditions of the fuel injection and valve train systems, this requires the installation of sensors and other equipment directly into the systems, which is possible within research laboratories but is generally forbidden during operation of the ship. Malfunctions in the fuel injection and valve train systems can also be identified from the indicator diagrams of an engine operating cycle, expressed as P(V) and P(deg) diagrams. The basic parameters of the engine operating cycle, such as the maximum combustion pressure Pmax, compression pressure Pcompr, and indicated mean effective pressure IMEP, can also be used to indicate deviations from proper engine operation. Using a combination of a vibration sensor with an in-cylinder gas pressure sensor widens the capabilities of diagnostics for marine diesel engines under operational conditions. A vibration sensor with a magnetic base can help in determining the timings of the lifting and landing of the injector needle, fuel delivery by the fuel injection pump, opening and closing of the circulation of heated heavy fuel oil, and opening and closing of the gas distribution valves. This also offers a promising solution for diagnostics of the cylinder lubrication oil injectors. The proposed approach allows valuable information to be received during engine operation in accordance with the principle of non-destructive control, and can help in early detection of possible engine malfunctions.
船用柴油机燃油喷射和电子缸润滑系统的振动声诊断概念
虽然直接测量燃油喷射压力和喷油器针的行程以及配气机构正时的测量可以提供有关燃油喷射和配气机构技术状况的完整诊断信息,但这需要在系统中直接安装传感器和其他设备,这在研究实验室中是可能的,但在船舶操作中通常是禁止的。燃油喷射和气门传动系统的故障也可以从发动机工作循环的指示图中识别出来,表示为P(V)图和P(度)图。发动机工作循环的基本参数,如最大燃烧压力Pmax,压缩压力Pcompr,指示平均有效压力IMEP,也可以用来指示偏离发动机正常工作。将振动传感器与缸内气体压力传感器结合使用,可扩大船用柴油机在运行条件下的诊断能力。带有磁性底座的振动传感器可以帮助确定喷油器针的升降和降落时间、喷油泵的燃油输送时间、加热重质燃料油循环的开启和关闭时间,以及气体分配阀的开启和关闭时间。这也为气缸润滑油喷射器的诊断提供了一个有前途的解决方案。根据非破坏性控制的原则,该方法可以在发动机运行过程中接收有价值的信息,并有助于早期发现可能的发动机故障。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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