Identification of the piston machine combustion chamber tightness

IF 1.8 Q3 ENGINEERING, INDUSTRIAL Journal of Quality in Maintenance Engineering Pub Date : 2020-12-18 DOI:10.1108/jqme-10-2019-0096
P. Bielawski
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引用次数: 1

Abstract

PurposeThe lack of integrity of the piston machine combustion chamber manifests itself in leakages of the working fluid between the piston and the cylinder liner, at valves mounted in the cylinder head and between the head and the liner. An untight combustion chamber leads to decreased power output or efficiency of the engine, while leaks of a fluid may cause damage to many components of the chamber. The actual value of working chamber leak is a desired and essential piece of information for planning operations of a given machine.Design/methodology/approachThis research paper describes causes and mechanisms of leakage from the working chamber of internal combustion engines. Besides, the paper outlines presently used methods and means of leak identification and states that their further development and improvements are needed. New methods and their applicability are presented.FindingsThe methods of leak identification have been divided into diagnostic and non-working machine leak identification methods. The need has been justified for the identification of leakage from the combustion chamber of a non-working machine and for using the leakage measure as the value of the cross-sectional area of the equivalent leak, defined as the sum of cross-section areas of all leaking paths. The analysis of possible developments of tightness assessment methods referring to the combustion chamber of a non-working machine consisted in modelling subsequent combustion chamber leaks as gas-filled tank leak, leak from another element of gas-filled tank and as a regulator of gas flow through a nozzle.Originality/valueA measurement system was built allowing the measurement of pressure drop in a tank with the connected engine combustion chamber, which indicated the usefulness of the system for leakage measurement in units as defined in applicable standards. A pneumatic sensor was built for measuring the cross-sectional area of the equivalent leak of the combustion chamber connected to the sensor where the chamber functioned as a regulator of gas flow through the sensor nozzle. It has been shown that the sensor can be calibrated by means of reference leaks implemented as nozzles of specific diameters and lengths. The schematic diagram of a system for measuring the combustion chamber leakage and a diagram of a sensor for measuring the cross-sectional area of the equivalent leak of the combustion chamber leakage are presented. The results are given of tightness tests of a small one-cylinder combustion engine conducted by means of the set up measurement system and a pre-prototype pneumatic sensor. The two solutions proved to be practically useful.
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活塞机燃烧室密封性的识别
目的活塞机燃烧室的不完整性表现为活塞和缸套之间、安装在气缸盖上的阀门处以及气缸盖和缸套之间的工作流体泄漏。燃烧室不亮会导致发动机的功率输出或效率降低,而流体泄漏可能会损坏燃烧室的许多部件。工作室泄漏的实际值是规划给定机器操作所需的重要信息。设计/方法/途径本文介绍了内燃机工作腔泄漏的原因和机理。此外,本文还概述了目前使用的泄漏识别方法和手段,并指出需要进一步发展和改进。介绍了新方法及其适用性。发现泄漏识别方法分为诊断和非工作机器泄漏识别方法。已经证明需要识别非工作机器燃烧室的泄漏,并将泄漏测量值用作等效泄漏的横截面积值,定义为所有泄漏路径的横截面面积之和。针对非工作机器的燃烧室,对密封性评估方法可能发展的分析包括将随后的燃烧室泄漏建模为充气罐泄漏、充气罐另一元件的泄漏以及通过喷嘴的气流调节器。独创性/价值建立了一个测量系统,可以测量连接发动机燃烧室的油箱中的压降,这表明该系统在适用标准中定义的单位泄漏测量中的有用性。建立了一个气动传感器,用于测量与传感器相连的燃烧室等效泄漏的横截面积,其中燃烧室充当通过传感器喷嘴的气流调节器。已经表明,传感器可以通过作为特定直径和长度喷嘴的参考泄漏进行校准。给出了用于测量燃烧室泄漏的系统的示意图和用于测量燃烧室内泄漏的等效泄漏的横截面积的传感器的示意图。给出了利用所建立的测量系统和预原型气动传感器对小型单缸内燃机进行气密性测试的结果。事实证明,这两种解决方案在实际中是有用的。
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来源期刊
Journal of Quality in Maintenance Engineering
Journal of Quality in Maintenance Engineering Engineering-Safety, Risk, Reliability and Quality
CiteScore
4.00
自引率
13.30%
发文量
24
期刊介绍: This exciting journal looks at maintenance engineering from a positive standpoint, and clarifies its recently elevatedstatus as a highly technical, scientific, and complex field. Typical areas examined include: ■Budget and control ■Equipment management ■Maintenance information systems ■Process capability and maintenance ■Process monitoring techniques ■Reliability-based maintenance ■Replacement and life cycle costs ■TQM and maintenance
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