Experimental recording of unsteady temperatures in the piston of a high-speed diesel engine under transient conditions

Q4 Engineering

International Journal of Vehicle Systems Modelling and Testing Pub Date : 2019-01-01 DOI:10.1504/ijvsmt.2019.10026625

F. Abramchuk, A. Avramenko, A. Kuzmenko

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引用次数: 0

Abstract

Unsteady thermal loads on combustion chamber parts in a supercharged diesel engine dictate their service life. In practice, it is crucial to know the dynamic behaviour of temperatures and their gradients for automobile and tractor diesels that often change their operating conditions during running. Most reliable information can be obtained by experimental recording of temperatures on a test bench during engine tests. This information is used for mathematical modelling of temperature fields and temperature stresses. The objective of this research effort is the experimental recording of unsteady piston temperatures when the diesel load is increased and reduced rapidly. Thermocouples were chosen, and their thermal response was evaluated to increase the accuracy of recording piston temperatures. In addition, locations for installing thermocouples were chosen. A continuous-type current sensor was developed and refined to connect the hot junctions of the thermocouples with the recording instrumentation. The unsteady temperatures of the piston (aluminium alloy AL 25) in a high-speed diesel engine were recorded experimentally. Piston temperatures were recorded for cases when the load was increased and reduced rapidly. Treatment of experimental data has yielded the basic dynamic characteristics of the temperature fields in the diesel piston).

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瞬态条件下高速柴油机活塞非定常温度的实验记录

增压柴油机燃烧室部件的非定常热负荷决定了其使用寿命。在实际应用中，了解汽车和拖拉机柴油机在运行过程中经常改变其运行状态的温度及其梯度的动态行为是至关重要的。在发动机试验期间，通过在试验台上对温度进行实验记录，可以获得最可靠的信息。这些信息用于温度场和温度应力的数学建模。本研究的目的是对柴油机负荷快速增减时的非定常活塞温度进行实验记录。选择热电偶，并对其热响应进行评估，以提高记录活塞温度的准确性。此外，还选择了安装热电偶的位置。开发和改进了一种连续型电流传感器，用于将热电偶的热结与记录仪表连接起来。实验记录了高速柴油机活塞(al25铝合金)的非定常温度。当负载快速增加和减少时，记录活塞温度。对实验数据进行处理，得到了柴油机活塞温度场的基本动态特性。

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

International Journal of Vehicle Systems Modelling and Testing Engineering-Automotive Engineering

CiteScore

0.50

自引率

0.00%

发文量

期刊介绍： IJVSMT provides a resource of information for the scientific and engineering community working with ground vehicles. Emphases are placed on novel computational and testing techniques that are used by automotive engineers and scientists.