多工况下涡轮增压发动机润滑油燃油经济性台架试验的研制

IF 2.2 4区工程技术 Q2 ENGINEERING, MECHANICAL

International Journal of Engine Research Pub Date : 2023-11-14 DOI:10.1177/14680874231210076

Hong Ye, Mo Yimin, Kong Xiangkui

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引用次数: 0

摘要

旨在更真实、更稳定地测量车辆在不同行驶工况下的燃油经济性，同时降低初始成本，缩短试验周期。开发了一种适应多工况的发动机燃油经济性试验方法和试验台架。对某型SUV在NEDC/WLTC工况下进行了燃油经济性试验，采集了发动机瞬态工况参数。建立了发动机燃油经济性试验台，并根据瞬态参数进行了精确控制。对5种不同配方的发动机油进行了FEI测试。结果表明，实际台架参数与目标瞬态参数吻合较好。基准油的多次FC测试和高基准油的多次FEI测试表明，该发动机台架具有良好的重复性。台架试验的数据波动程度明显小于车辆试验。台架试验与整车试验的综合FEI相关系数分别为95.25% (NEDC)和96.39% (WLTC)。这意味着台架试验完全可以代替整车试验进行燃油经济性分析。燃油经济性最好的3号油的FEI分别为1.888% (NEDC)和1.248% (WLTC)。与整车试验相比，发动机台架试验可节省75%的时间。该燃油经济性试验台和试验方法也适用于验证其他发动机优化措施在不同工况下的燃油经济性改善情况。可以缩短发动机技术的开发周期，降低试验成本。

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Development of turbocharged engine bench test adapted to multiple driving cycles for lubricants fuel economy

Aimed to more truly and stably measure the fuel economy of a vehicle under different driving cycles, simultaneously reduce prime cost and short experimental period. An engine fuel economy test method and bench which could adapt to multiple cycle conditions was developed. The fuel economy test of a certain SUV under NEDC/WLTC was carried out, and the transient operating parameters of the engine were collected. The engine fuel economy test bench was established and accurately controlled according to transient parameters. The FEI of five different formulations of engine oils was tested. The results indicate that the actual bench parameters are in good agreement with the target transient parameters. Multiple FC measurements of baseline oil and multiple FEI measurements of high reference oil show that the engine bench has good repeatability. The data fluctuation degree of bench test is obviously smaller than that of vehicle test. The correlation coefficients of comprehensive FEI between bench test and vehicle test are 95.25% (NEDC) and 96.39% (WLTC). It means that the bench test can completely replace the vehicle test for fuel economy analysis. The FEI of No.3 oil which has the best fuel improvement are 1.888% (NEDC) and 1.248% (WLTC) respectively. Compared with the vehicle test, the engine bench testing can save 75% of the time. The fuel economy bench and test methods are also suitable for the verification of fuel economy improvement of other engine optimization measures under different driving cycles. The development period of engine technologies can be shortened, and the test cost can be reduced.

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