Theoretical Modeling and Energy Conversion Process of Free Piston Internal Combustion Power System

Q4 Engineering

Journal of Beijing Institute of Technology (English Edition) Pub Date : 2021-06-30 DOI:10.15918/J.JBIT1004-0579.20112

Liminy Wu, H. Feng, Ziwei Zhang, Yao Wang, Boru Jia, X. Yan

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Abstract

A numerical model for energy flow calculation of the free piston internal combustion power system (FPICPS) was established, which was compared with the traditional internal combustion engine (IC engine) with the same structure and input conditions. The piston motion characteristics and energy transfer process of FPICPS are studied by numerical simulation method. The results show that the changes of cylinder pressure, temperature and piston motion characteristics of free piston engine (FP engine) lag behind those of IC engine, and the piston peak acceleration of the FP engine is approximately 2.8 times that of IC engine. The proportion of compression stroke and expansion stroke of IC engine is basically the same, while the expansion stroke of FP engine only accounts for 41.6% of the whole operating cycle. FP engine have obvious advantages in heat transfer and air leakage loss, their percentages are 11.82% and 0.83%, respectively. The percentage of indicated power in FP engine and IC engine are 27.44% and 25.98%, respectively. And 79.64% of FP engine indicated power is converted into the motor electromagnetic energy.

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自由活塞内燃动力系统的理论建模与能量转换过程

建立了自由活塞内燃动力系统（FPICPS）能量流计算的数值模型，并与具有相同结构和输入条件的传统内燃机（IC发动机）进行了比较。采用数值模拟方法研究了FPICPS活塞的运动特性和能量传递过程。结果表明，自由活塞发动机气缸压力、温度和活塞运动特性的变化滞后于内燃机，其活塞峰值加速度约为内燃机的2.8倍。内燃机的压缩冲程和膨胀冲程的比例基本相同，而FP发动机的膨胀冲程仅占整个工作循环的41.6%。FP发动机在传热和漏气损失方面具有明显的优势，两者的比例分别为11.82%和0.83%。FP发动机和IC发动机的指示功率百分比分别为27.44%和25.98%。FP发动机指示功率的79.64%转化为电机电磁能。

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来源期刊

Journal of Beijing Institute of Technology (English Edition) Engineering-Engineering (all)

CiteScore

1.10

自引率

0.00%

发文量

2437