ring and the oil consumption after removing the cylinder liner wall evaporation is established by using the nonlinear mapping function of neural networks。 The parameters of the piston ring are optimized based on this model。 Various
combinations of optimal parameters are obtained, and the efficiency of the piston ring is improved, which will provide some theoretical guidance to the design of piston rings。
2 Mechanism of Lubricating Oil Consumption in Cylinder
2。1 Evaporation from liner wall
The loss of lubricating oil remaining on the liner wall as a wafer thin film is defined by mass transfer over the phase boundary in the medium of hot combustion gas with certain
gas turbulence, as shown in Fig。 1。
Oil is either carried away by the gas or is burned at sufficiently high temperatures。 The steady-state convective mass transfer applied to simulate the evaporation rate is shown in Eq。 (1)
where β —Material transmission coefficient,
Tf—Oil film temperature,
pf—Oil film pressure,
Dd—Diffusion coefficient,
em--Mass flow through liner surface。
2。2 Throw-off above the top ring
The flow balance of lubricating oil over the first piston ring and the consideration of the piston acceleration enables the calculation of the throw-off oil quantity。
The possible throw-off oil quantity is determined by the current oil volume above the top ring (between the piston top and and the liner wall) and the acceleration of the piston。
It is assumed that any cumulated oil will adhere to the top land of the piston。 The following transport mechanisms lead to a rate of change of the oil mass above the first compression, where the inpidual oil flows are defined as
follows。 Oil scraping of the top ring。 The amount of oil
scraped is determined by the difference of the left oil film thickness during the upward and downward motions of the top ring (Fig。 2)。 The rate of scraping is given in Eq。 (2)
where sm —Mass flow of oil scraping of the top ring,
hs—Left oil film of the top ring on the cylinder surface,
ρ—Density of the oil,
D—Cylinder bore diameter,
Δs —Stroke increment, 柴油机缸内润滑油消耗分析英文文献和中文翻译(3):http://www.youerw.com/fanyi/lunwen_98513.html