APPLICATION OF EXERGETIC METHOD FOR EVALUATION OF PROCESS PERFECTION IN DIESEL ENGINE SUPERCHARGING SYSTEM

Q4 Engineering 内燃机学报 Pub Date : 2021-07-26 DOI:10.20998/0419-8719.2021.2.03
A. Marchenko, S. Kravchenko, O. M. Bekaryuk, M. Shelestov
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Abstract

One of the most important trends of the modern combat vehicles is increasing their mobility for the security of the crew and for fast movement in different types of terrain. Compliance with these criteria is ensured by the engine of the armored vehicle. The competitiveness of domestic engines for armored vehicles should be ensured by the creation of new structures, their constant modernization and further improvement of performance. One of such engines is a forced diesel engine 6DN12/2x12 with a capacity of 1100 kW. In order to improve its performance and increase the level of forcing, it is proposed to improve the air supply system of the engine. Evaluating the effectiveness of the system can identify nodes that need changing design parameters. Therefore, such a qualitative analysis also indicates the feasibility and the possibility of further modernization of the system design. The qualitative analysis of the turbocharger is carried out on the basis of exergy method, which allows identifying sources of energy losses in the system design and determines the degree of perfection of processes. The application of the exergy method is due to the purpose of determining the reserves to improve the efficiency of the turbocharger elements, the magnitude of the supplied exergy and exergy efficiency in the nodes of the air supply system. According to the method, an exergy scheme of the supercharging system was constructed, on the basis of which the energy-exergy balance of each compressor unit was derived. The results of the analysis allowed to determine the parameters of the flow of the working fluid in the characteristic sections of the compressor and turbine and exergetic efficiency of the supercharging system. The calculated data obtained by exergetic analysis provide an estimate of the distribution of energy losses and allow determining the areas for further improvement of the air supply system and providing an opportunity to choose such design parameters that achieve the most effective improvement of the system.
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火用法在柴油机增压系统过程完善评价中的应用
现代作战车辆的一个重要趋势是提高其机动性,以保证乘员的安全,并在不同类型的地形中快速移动。符合这些标准是由装甲车的发动机保证的。国产装甲车发动机的竞争力应通过创造新结构、不断现代化和进一步改进性能来确保。这种发动机之一是一台强制柴油发动机6DN12/2x12,容量为1100千瓦。为了改善其性能,提高增压水平,提出了对发动机供气系统进行改进的建议。评估系统的有效性可以识别需要改变设计参数的节点。因此,这样的定性分析也表明了进一步现代化制度设计的可行性和可能性。基于火用法对涡轮增压器进行定性分析,可以识别系统设计中能量损失的来源,并确定过程的完善程度。火用法的应用是由于确定增压器元件的储备以提高效率、供气系统各节点的供应火用大小和火用效率的目的。根据该方法,构建了增压系统的火用方案,并在此基础上推导了各压缩机组的能量-火用平衡。分析结果可以确定压气机和涡轮特征段的工作流体流量参数以及增压系统的有效效率。通过火用分析获得的计算数据提供了能量损失分布的估计,并允许确定进一步改进送风系统的区域,并为选择实现系统最有效改进的设计参数提供了机会。
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来源期刊
内燃机学报
内燃机学报 Engineering-Mechanical Engineering
CiteScore
1.00
自引率
0.00%
发文量
3050
期刊介绍:
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