Motion Characteristics and Influence Factors of Piston Assembly in a Compression-Ignition Hydraulic Free-Piston Engine

Ying Xiao Yu; Zhao Cheng Yuan; Jia Yi Ma; Shi Yu Li

doi:10.4028/www.scientific.net/AMR.860-863.1761

Paper Titles

Investigation on the Match between the Nozzle Tip Penetration and the Double-Layers Diffluent Combustion Chamber Geometry
p.1738

Research on Transmission Principle of Gearless Reducer
p.1744

Diamond-Nickel Composite Plated Grinding Needle Used for Finish of Airflow Channel on the Gas Turbine Blade
p.1748

Researches on Electronic Control System of Diesel-CNG Dual Fuel Engine
p.1754

Motion Characteristics and Influence Factors of Piston Assembly in a Compression-Ignition Hydraulic Free-Piston Engine
p.1761

Effects of Ethanol-n butanol-diesel Oxygenated Fuel on Performance of Diesel Engine
p.1766

Effect of Steam Turbine Rotor Notch Fillet Radius on Stress and Deformation
p.1770

The Impact Analysis of Regenerative System in Turbine Modeling
p.1782

The Determination of Stagnant Rate of Servo System Based on Adaptive Chatter Algorithm
p.1787

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 860-863Motion Characteristics and Influence Factors of...

Motion Characteristics and Influence Factors of Piston Assembly in a Compression-Ignition Hydraulic Free-Piston Engine

Abstract:

The advantages and basic structure of hydraulic free-piston engine (HFPE) were presented. And the operation principle of a single piston compression-ignition HFPE was analyzed. Based on the basic theory of thermodynamics, hydraulic fluid mechanics and dynamics, the system simulation model for a single-piston compression-ignition HFPE was established in the environment of MATLAB/SIMULINK. The simulation results, which accord with the related literature data, indicate that the asymmetric characteristics of piston motion in the entire cycle are very obvious, the compression stroke duration is longer than the expansion stroke, the time at around the top dead center (TDC) is short. The piston assembly motion is a process when the energy balance is fulfilled, and some factors must be taken into account for design optimization, such as the piston assembly mass, compression accumulator pressure, fuel injection timing and fuel injection quantity.