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61.
This paper explores issues related to the electrical safety of Hybrid Electrical Vehicles (HEVs) during and after various
crash events. Japanese and American federal regulations regarding occupant protection against high voltages in Electric Vehicles
(EVs) and HEVs were surveyed and analyzed in this study. Front, side and rear impact tests for two types of HEVs were conducted
to investigate electrolyte spillage, the retention of the propulsion battery system and the electrical isolation of the occupant.
The test results met the related criteria. The test procedures and the criteria for occupant protection established through
this study were amended to Korean Motor Vehicle Safety Standard (KMVSS) No. 91 to add the crash protection of the EVs and
the HEVs. 相似文献
62.
H. J. Kim B. Han W. S. Hong W. H. Shin G. B. Cho Y. K. Lee Y. J. Kim 《International Journal of Automotive Technology》2010,11(4):447-453
A 3000 cc diesel engine attached to an engine dynamo was used to test three newly developed electrostatic Diesel Particulate
matter filtration Systems (DPS 1, 2, and 3) under four steady-state engine operating conditions: idle, 2000 rpm with no load,
and 2000 rpm under 25% and 50% loads. Of the two developed alternatives, DPS 1 and DPS 2, DPS 2 comprises an ionization section,
electrostatic field additional section and Flow-Through Filter (FTF), which achieved almost 90% removal of particulate matter
(PM) under the engine’s operating conditions, and the efficiency of the FTF was maintained between 20% and 50%. Comparing
the long-term performance of DPS 2 and DPS 3 (effectively a serial combination of two DPS 2s) with a commercially-available
Diesel Particulate Filter (DPF), the DPS 2 and DPS 3 achieved almost the same efficiency for removing PM as the DPF but had
significantly improved (75%∼90% lower) differential pressure drops. 相似文献
63.
J. Kim J. Kang Y. Kim T. Kim B. Min H. Kim 《International Journal of Automotive Technology》2010,11(4):565-571
The power split type hybrid system transmits engine power by dividing it into the electrical unit and the mechanical unit.
Its power transmission efficiency is highest at the mechanical point (MP), where the full power is transmitted to the mechanical
unit. In this study, the equation for the MP was derived for the gear ratios of a general 4-node lever model. The MP characteristics
for the transmission ratio (TR) of the input split and compound split structures were examined using the equation derived.
Using the examined input split and compound split structures, a systematic design method for the dual mode power split transmission
was proposed. In the dual mode power split transmission, the MP could be positioned at the desired TR, and the input split
and compound split modes could be selectively used according to the clutch combination, which leads to the operation of the
vehicle within a high system efficiency range. 相似文献
64.
D. Danardono K. S. Kim E. Roziboyev C. U. Kim 《International Journal of Automotive Technology》2010,11(3):323-330
A roller vane type liquefied petroleum gas (LPG) pump was developed for a liquid phase LPG injection (LPLi) engine. Most of
the LPG pumps used in the current LPLi engines are installed inside of the LPG tank, but this pump is intended to be installed
outside of the LPG tank to overcome the difficulty of fixing an in-tank pump. Because LPG has a low boiling point and high
vapor pressure, it usually causes cavitation in the pump and consequently deteriorates the flow rate of the pump. The purpose
of this work is to optimize the design of the roller vane pump in order to suppress cavitation and increase the fuel flow
rate by using a computational fluid dynamics (CFD) analysis. In order to achieve these goals, the intake port configuration
and the rotor of the roller vane pump were redesigned and simulated using STAR-CD code. Computation was performed for six
different models to obtain the optimized design of the roller vane pump at a constant speed of 2600 rpm and a constant pressure
difference between the inlet and outlet of 5 bar. The computation results show that an increased intake port cross-section
area can suppress cavitation, and the pump can achieve a higher flow rate when the rotor configuration is changed to increase
its chamber volume. When the inlet pressure difference is 0.1 bar higher than the fluid saturation pressure, the pump reaches
its maximum flow rate. 相似文献
65.
The acoustic design of exhaust mufflers has mainly focused on reducing the discharge noise from the tailpipe. However, the
noise that is transmitted through the muffler jacket and the endplate becomes important since the muffler reduces the amount
of discharge noise when it has an optimized design. It is known that the contribution to the overall exhaust noise of the
muffler shell is significant in the mid- and high-frequency ranges. The current problem is that there are no appropriate computational
tools at high frequencies. A simple method to analyze the 1/3-octave band of sound radiating from an arbitrary shape (like
a muffler) was employed to predict the band spectrum of the radiated noise. The calculation method included formulating the
boundary integral, which was modified into a quadratic form in order to enable the prediction of the intensity levels in a
band analysis. Monopole and dipole source terms in the conventional BEM were transformed into the auto- and cross-spectra
of the two vibrating sources, in which the cross-spectra could be eventually omitted by assuming that the correlation coefficients
were negligible. The method was adopted in an abrupt calculation of the shell noise in 1/3-octave band levels without nonuniqueness
problem. In comparison with the measured data, the simulation result showed roughly 3-dB errors at most of the field points,
excluding several special points that were normal to the shell and exhibited a maximum 5-dB error. 相似文献
66.
H. S. Seo B. C. Kim P. S. Park C. D. Lee S. S. Lee 《International Journal of Automotive Technology》2013,14(1):91-99
In this paper, we propose a universal plug and play (UPnP) — controller area network (CAN) gateway system using UPnP middleware for interoperability between external smart devices and an in-vehicle network. The proposed gateway consists of a UPnP communication device, a CAN communication device, and a device translator layer. In-vehicle devices are not usually IP-based, so we implemented an in-vehicle device manager in the UPnP communication device which is in the gateway. We developed a vehicle simulator to produce real vehicular data for performance analysis. The CAN communication device transmits and receives real-time vehicle data between the real vehicular simulator and external devices through the UPnP. The device translator layer configures a message frame for enabling seamless data input and output between the CAN and UPnP protocols. After implementation, we generated an internal-external service request and tested the result. Finally, we confirmed the service request and operation between external devices and the internal vehicular device. Additionally, for a variety of external device numbers and communication environments, we demonstrated the gateway performance by measuring the round trip time (RTT) for overall service implementation. 相似文献
67.
Most hybrid vehicles employ the continuously variable transmission (CVT or eCVT) currently as their choice of the transmissions. Recently, an automated geared transmission (AGT) or dual clutch transmission (DCT) is being tried for some hybrid vehicles for the better fuel economy than the CVT hybrid. However, this AGT or DCT is using automated clutches which require the hydraulic power in addition to the slippage in the clutch plate invoking some energy loss as well as wear. Also, they require a motor with significant power to match to the engine power. The clutchless geared smart transmission (CGST) has no clutch and the clutch function is performed by a planetary gear system controlled by a motor-generator. The hybrid vehicles proposed here using CGST may have some merits in durability, fuel efficiency, and cost since they do not have clutches. The motor used for the clutch function can be also working for power merge with the engine in propelling the vehicle. The proposed hybrid system can be either mild hybrid or full hybrid by adopting a different capacity of battery with much smaller motor-generator due to the planetary gear system compared to the other type hybrid vehicles. In this study, the prospects of newly proposed CGST hybrid system are examined in practical aspects compared with AGT hybrid or DCT hybrid systems. 相似文献
68.
Y. -G. Kim C. -S. Jeon S. -W. Kim T. -W. Park 《International Journal of Automotive Technology》2013,14(6):903-911
The railway transportation system has much advantage in eco-friendliness, punctuality and safety compared to any other transportation system. Most of the railway system administrators have to control and operate under limited resources such as trains and facilities. It is necessary to control traveling time and energy consumption for efficient operation in the railway systems, because the board rate of passenger is inconstant with time variance. It is common that the shorter traveling time causes the greater energy consumption. In this study, a new optimization method considering operation time or energy consumption is proposed by using differential evolution algorithm and some cases are reviewed. The total energy change due to operation time variation are investigated by using the proposed optimization method for tangent and gradient track conditions. Both cases, the total energy decreases exponentially. However, because of gradient the total energy are saturated after a certain time for gradient track. 相似文献
69.
70.