A CFD simulation on effects of methane/biogas ratio on 2-stroke free-piston linear engine’s scavenging
Corressponding author's email:
1870363@hcmut.edu.vnKeywords:
free-piston linear engine, biogas, computational fluid dynamics, scavenging, simulationAbstract
On the work of investigating the effect of methane percentage in biogas on the two-stroke free-piston linear engine (FPLE) power output, a scavenging simulation implementation is required. Although the computational fluid dynamics (CFD) method was recognized as an effective solution, the result may, however, be not precise if the boundary conditions and the gas properties are determined inaccurately. This paper represents a CFD scavenging simulation, in which, a zero-dimensional model for the unsteady flow into the bounce-chamber based on Reynolds transport theorem was built to observe the scavenging’s boundary conditions. Simultaneously, the mixture characteristics following methane percentage and temperature are also estimated, in which, 5 circumstances of biogas component: 40% CH_4, 50% CH_4, 60% CH_4, 70% CH_4, and 100% CH_4 that will be inputted in CFD modeling afterward. The result shows that although delivered gas mass enhanced when using low %CH_4 biogas, the volumetric efficiency is decreased, particularly from 0.679 to 0.612 when %CH_4 vary from 100% to 40% at engine frequency f=50Hz.
Downloads: 0
References
Boru Jia, Z. Zuo, A. Smallbone, H. Feng, A. P. Roskilly. (2017). A Decouple Design Parameter Analysis for Free Piston Engine Generators. energies.
H. Kosaka, T. Akita, K. Moriya, S. Goto, Y. Hotta, T. Umeno, K. Nakakita. (2014). Development of Free Piston Engine Linear Generator System Part 1 - Investigation of Fundamental Characteristics. SAE Technical Paper.
H. Kosaka, T. Akita, K. Moriya, S. Goto, Y. Hotta, T. Umeno, K. Nakakita. (2014). Development of Free Piston Engine Generator Part 2 - Investigation of Control System for Generator. SAE Technical Paper.
R. Mikalsen, A. P. Roskilly. (2008). The design and simulation of a two-stroke free-piston compression ignition engine for electrical generation. Applied Thermal Engineering, 589-600.
P. V. Blarigan, N. Paradiso, S. Goldsborough. (n.d.). Homogeneous Charge Compression Ignition with a Free Piston: A New Approach to Ideal Otto Cycle Performance. SAE Technical Paper.
Nguyen Ba Hung, Sung Jaewon, Ocktaeck Lim. (2017). A study of a scavenging process in a two-stroke free piston linear engine using CFD. 9th International Conference on Applied Energy (pp. 1354-1360). Cardiff, UK: Elsevier Ltd.
S. G. Karunanidhi, Nithin V. S, G. Subba Rao. (2014). CFD studies of two-stroke petrol engine scavenging. Journal of Engineering Research and Application, 74-79.
Xuetian Lu, Fujun Zhang, Yuhang Liu, Sufei Wang. (2018). Analysis on Influences of Scavenging Ports Width to Scavenging Process Based on Opposed Piston Two Stroke Diesel Engine. 10th International Conference on Applied Energy (pp. 5838-5843). Hong Kong: Elsevier Ltd.
Yining Wu, Yang Wang, Xudong Chen, Shuai Guan, Jiancai Wan. (2014). Three dimensional CFD (Computational fluid dynamics) analysis of scavenging process in a two-stroke free-piston engine. Energy 68, 168-173.
Retrieved from Engineering Toolbox: www.engineeringtoolbox.com
White, F. M. (2009). Integral Relations for a Control Volume. In Fluid Mechanics (p. 165). McGraw-Hill.
Downloads
Published
How to Cite
Issue
Section
Categories
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Copyright © JTE.
