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311.
D. K. Park C. D. Jang S. B. Lee S. J. Heo H. J. Yim M. S. Kim 《International Journal of Automotive Technology》2010,11(4):489-494
This paper presents a design technique to optimize the shape of a vehicle bumper beam that satisfies both the safety requirements
for a front rigid-wall impact and the regulations protecting pedestrians from lower leg injuries caused by bumper impacts.
An intermediate response surface modeling (IRSM) technique was introduced to approximate the non-linear force-displacement
curves obtained from the front impact analysis of a vehicle bumper. The accuracy of the IRSM model was tested by comparing
its results with those of the non-linear finite element analysis. The maximum displacement error between the two models did
not exceed 3%. Using pedestrian impact analyses based on the experimental arrangement of the Plackett-Burman design, the approximate
functions describing the response values acting on the lower legs were calculated. The shape of the bumper beam was optimized
by integrating the IRSM with the force-displacement model and the approximate functions on lower leg impact. The optimization
results satisfied safety regulations on the maximum allowable displacement of the vehicle bumper, and also the regulations
protecting pedestrians from lower leg injuries caused by bumper impacts. 相似文献
312.
Effect of various LPG supply systems on exhaust particle emission in spark-ignited combustion engine
J. W. Lee H. S. Do S. I. Kweon K. K. Park J. H. Hong 《International Journal of Automotive Technology》2010,11(6):793-800
The particle size distribution and particle number (PN) concentration emitted by internal combustion engine are a subject
of significant environmental concern because of their adverse health effects and environmental impact. This subject has recently
attracted the attention of the Particle Measurement Programme (PMP). In 2007, the UN-ECE GRPE PMP proposed a new method to
measure particle emissions in the diluted exhaust of automotive engines and a regulation limit (<6.0×1011 #/km, number of particles). The specific PN regulation of spark-ignited combustion engine will be regulated starting on September
1, 2014 (EURO 6). In this study, three types of LPG supply systems (a mixer system and a multi-point injection system with
gas-phase or liquid-phase LPG fuel) were used for a comparison of the particulate emission characteristics, including the
nano-sized particle number density. Each of the three LPG vehicles with various LPG injection systems contained a multi-cylinder
engine with same displacement volumes of 2,000 cm3 and a three-way catalytic converter. The test fuel that was used in this study for the spark-ignited combustion engine was
n-butane basis LPG fuel, which is primarily used for taxi vehicles in Korea. The characteristics of nano-particle size distribution
and number concentration of particle sizes ranging from 20 to 1,000 nm (aerodynamic diameter) that were emitted from the three
LPG vehicles with various LPG supply systems were investigated by using a condensation particle counter (CPC), which is recommended
by the PMP under both the NEDC and FTP-75 test modes on a chassis dynamometer. The experimental results indicate that the
PN emission characteristics that were obtained by the CPC system using the PMP procedure are sufficiently reliable compared
to other regulated emissions. Additionally, the sources of PN emissions in ascending order of magnitude are as follows: mixer
type, gas-phase LPG injection (LPGi) and liquid-phase LPG injection (LPLi) passenger vehicles. The liquid-phase LPG injection
system produced relatively large particle sizes and number concentrations compared to the gaseous system, regardless of the
vehicle driving cycle. This phenomenon can be explained by unburned micro-fuel droplets that were generated due to a relatively
short homogeneous fuel-air mixture duration in the engine intake manifold. Also the particle number emissions from the LPG
vehicle were influenced by the vehicle driving cycle. 相似文献
313.
S. M. Park T. W. Park S. H. Lee S. W. Han S. K. Kwon 《International Journal of Automotive Technology》2010,11(1):49-56
In this study, a new concept for a power delivery system is developed. Power Shift Drive (PSD) Axle vehicle modeling and dynamic
movement analysis are performed via simulation. The dynamic vehicle model is constructed from data obtained from the derived
equation, considering the specific characteristics of each part. The model is composed of a torque converter, a gear box,
a differential, hub reduction and an engine, which is the power source of the 1st forward and reverse PSD-Axle. By unifying
the mathematical equations for each component, a mathematical model of the 1st forward gear is derived. The system dynamic
model is created using MATLAB/Simulink based on the mathematical model. Simulation is carried out using Simulink to estimate
the dynamic behavior of the PSD-Axle. In addition, the dynamo test result is used to verify the model. Finally, a successful
model is created. This study will be used to establish the basic conceptual design for the PSD-Axle multi-gear system. 相似文献
314.
This paper describes an optimum distribution method for yaw moment for use with unified chassis control (UCC) with limitations
on the active front steering (AFS) angle. Although the UCC has been assumed to have no AFS angle limitation in the literature,
a physical limitation exists in real applications. To improve upon the previous method, a new optimum distribution method
for yaw moment is proposed that takes this limitation into account. This method derives an optimum longitudinal/lateral force
using the Karush-Kuhn-Tucker (KKT) optimality condition, and a simulation is performed to validate the proposed method. The
simulation results indicate that the limitation on the AFS angle increases longitudinal braking force and, therefore, reduces
the vehicle speed and the side-slip angle. 相似文献
315.
Active coolant control strategies in automotive engines 总被引:1,自引:0,他引:1
K. B. Kim K. W. Choi K. H. Lee K. S. Lee 《International Journal of Automotive Technology》2010,11(6):767-772
The coolant flow rate in conventional cooling systems in automotive engines is subject to the mechanical water pump speed,
and high efficiency in terms of fuel economy and exhaust emission is not possible given this limitation. A new technology
must be developed for engine cooling systems. The electronic water pump is used as a substitute for the mechanical water pump
in new engine cooling systems. The new cooling system provides more flexible control of the coolant flow rate and engine temperature,
which previously relied strongly on engine driving conditions such as load and speed. In this study, the feasibility of two
new cooling strategies was investigated using a simulation model that was validated with temperatures measured in a diesel
engine. Results revealed that active coolant control using an electronic water pump and valves substantially contributed to
a reduction of coolant warm-up time during cold engine starts. Harmful emissions and fuel consumption are expected to decrease
as a result of a reduction in warm-up time. 相似文献
316.
S. Lee D. H. Lee M. H. Kim K. C. Lee 《International Journal of Automotive Technology》2010,11(4):525-531
The controller area network (CAN) is the dominant protocol for in-vehicle network (IVN) systems because it provides bounded transmission delay among electronic control units (ECUs) at data rates between 100 Kbps and 1 Mbps. Many automotive companies have chosen the CAN protocol for their chassis network system of intelligent vehicles. However, the increasing number of ECUs in intelligent vehicles and the need for more intelligent functions require a network system with more network capacity and real-time capability. As one approach to enhance the network capacity of a CAN system, this paper introduces a CAN system with dual communication channels. This paper also presents a traffic-balancing algorithm that predicts the traffic of each channel and allocates frames to the most appropriate channel. An experimental testbed using commercial off-the-shelf microcontrollers with two CAN controllers was used to demonstrate the feasibility of the traffic-balancing algorithm. 相似文献
317.
芮筱亭 《上海交通大学学报(英文版)》2009,14(5):620-625
The design of the re-entry space vehicles and high-speed aircraft structures requires special attention to the non-linear
thermoelastic and aerodynamic instabilities. The thermal effects are important since temperature environment influences significantly
the static and dynamic behaviors of flight structures in supersonic/hypersonic regimes. The dynamic behavior of a double-wedge
lifting surface with combined freeplay and cubic stiffening structural nonlinearities in both plunging and pitching degrees-of-freedom
(DOF) operating in supersonic/hypersonic flight speed regimes has been analyzed. In addition a third order piston theory aerodynamics
(PTA) is used to evaluate the non-linear unsteady aerodynamic loads applied to the wing section. Loss of torsional stiffness
that may be incurred by lifting surfaces subjected to axial stresses induced by aerodynamic heating is also considered. The
aerodynamic heating effect is estimated based on the adiabatic wall temperature due to high speed airstreams. It is demonstrated
that serious losses of torsional stiffness may occur in such lifting surfaces; the influence of various parameters such as
flight condition, thickness ratio, freeplays and pitching stiffness nonlinearity are discussed. 相似文献
318.
H. S. Kook S. R. Shin K. D. Ih D. B. Kim D. H. Yu 《International Journal of Automotive Technology》2009,10(1):55-63
The large-scale shear flows over the sunroof opening of a mid-sized SUV measured using a PIV system were investigated. The
shear flows were measured for five different cases of deflector protrusion (one case was the baseline test without deflector)
at two different free stream flow velocities below the critical velocity where the buffeting noise level reached a maximum.
The structures of the shear flows were observed to differ, apparently depending on whether the radiated buffeting noise is
relatively strong or not. For strongly buffeting experimental cases, the momentum thicknesses of the shear layers were observed
to grow rapidly and saturated at a station near the downstream edge of the sunroof opening, where the saturation of the transverse
velocity fluctuations was also observed, and where the vortex coalescence process was presumably completed. On the other hand,
no discrete large-scale vortex structures were observed for none-buffeting or weakly buffeting cases. Streamwise growth of
the velocity fluctuations was found to be well predicted by a linear hydrodynamic instability analysis for the strongly buffeting
cases. Numerical results obtained from a linear inviscid instability analysis using a hyperbolic tangent mean velocity profile
were used to calculate the amplification factors with the initial momentum thickness and the streamwise fluctuation wavenumber.
The shear flows were found to form large-scale discrete vortices when the linear inviscid amplification factors exceeded a
threshold amplification factor. 相似文献
319.
H. S. Wi Y. K. Lee J. I. Park J. H. Lee K. S. Park 《International Journal of Automotive Technology》2009,10(6):771-776
This paper focuses on fuel economy improvement according to the type of power steering system. Usually, a conventional power
steering system is directly driven by the crankshaft of the engine with a belt, known as HPS (hydraulic power steering). However,
there is some inefficiency with this system at high engine speeds. To improve this inefficiency, automobile makers have developed
two power steering systems: EHPS (electro-hydraulic power steering) and MDPS (motor-driven power steering) or EPS (electric
powered steering). However, there has been insufficient study of effects of the type of power steering system on fuel economy.
In this paper, the effect of the type of power steering system on fuel economy is studied experimentally, and calculations
of the effect on vehicle fuel economy are presenting using computer simulation with AVL cruise software. The results demonstrate
that a 1% vehicle fuel economy improvement can be achieved in a vehicle with an electro-hydraulic power steering system compared
to a vehicle with a hydraulic power steering system. In addition, a 1.7% vehicle fuel economy improvement can be achieved
using a full electric power steering system in a FTP-75 driving cycle. These results could be used to choose a power steering
system. 相似文献
320.
C. L. Myung K. H. Choi I. G. Hwang K. H. Lee S. Park 《International Journal of Automotive Technology》2009,10(2):161-166
In SI engines, valve events have a major influence on volumetric efficiency, fuel economy and exhaust emissions. Moreover,
swirl and tumble motions in the intake charge also improve combustion speed and quality by stratifying the mixture as well
as intensifying the mixing rate of air and fuel. This paper investigates the behaviors of an engine and the combustion phenomenon
for various intake valve timings and intake charge motions using CVVT system and port masking schemes. Test condition includes
a part load and a cold idle condition inclusive of a cold start of the engine. Time-resolved HC and NOx emissions were also
measured at an exhaust port to examine their formation mechanisms and behaviors with fast response HC/NOx analyzers. In conclusion,
the fast burning of fuel and improved combustion quality by enhanced charge motions reduced unburned HC emissions, and advancing
the intake valve opening reduced HC as well as NOx. Furthermore, HCs during the cold transient phase and idle conditions decreased
with recalibrated start parameters such as lean air-fuel ratio and spark retardation via the enhancement of intake charge
motions. 相似文献