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121.
K. M. Saqr M. K. Mansour M. N. Musa 《International Journal of Automotive Technology》2008,9(2):155-160
The potential for thermoelectric power generation (via waste heat recovery onboard automobiles) to displace alternators and/or
provide additional charging to a vehicle battery pack has increased with recent advances in thermoelectric material processing.
In gasoline fueled vehicles (GFVs), about 40% of fuel energy is wasted in exhaust heat, while a smaller amount of energy (30%)
is ejected through the engine coolant. Therefore, exhaust-based thermoelectric generators (ETEG) have been a focus for GFV
applications since the late 1980s. The conversion efficiency of modern thermoelectric materials has increased more than three-fold
in the last two decades; however, disputes as to the thermal design of ETEG systems has kept their overall efficiency at limited
and insufficient values. There are many challenges in the thermal design of ETEG systems, such as increasing the efficiency
of the heat exchangers (hot box and cold plate), maintaining a sufficient temperature difference across the thermoelectric
modules during different operating conditions, and reducing thermal losses through the system as a whole. This paper focuses
on a review of the main aspects of thermal design of ETEG systems through various investigations performed over the past twenty
years. This paper is organized as follows: first, the construction of a typical ETEG is described. The heat balance and efficiency
of ETEG are then discussed. Then, the third section of this paper emphasizes the main objectives and challenges for designing
efficient ETEG systems. Finally, a review of ETEG research activities over the last twenty years is presented to focus on
methods used by the research community to address such challenges. 相似文献
122.
Performance estimation model of a torque converter part I: Correlation between the internal flow field and energy loss coefficient 总被引:3,自引:0,他引:3
B. S. Kim S. B. Ha W. S. Lim S. W. Cha 《International Journal of Automotive Technology》2008,9(2):141-148
The objective of this paper is to improve the performance estimation model of the internal flow field of a torque converter.
Compared with performance experiment results, the converter based on the one-dimensional model does not satisfy the performance
requirements demanded in practice. Therefore, we need to develop more predictable and reliable performance estimation models.
In order to obtain shape information on three-dimensional blade geometry, a process of reverse engineering conducts a torque
converter assembly, impeller, turbine and stator. In addition, a CFD simulation including mesh generation and post-processing
was carried out to extract equivalent parameters from the internal flow field. The internal flow field can be explained by
analyze the correlation between a performance estimation model and CFD analysis. The equivalent performance model adopts the
variation of energy loss coefficients for a given operating condition according to the application of a changing energy loss
coefficient by the least mean squares method. The estimated equivalent model improves the agreement in performance between
experiments and the theoretical model. This model can reduce the error to within about 3 percent. Furthermore, this procedure
for predicted performance achieves eminence in the estimation of the capacity factor. 相似文献
123.
This paper establishes the simulation model of a city bus on the basis of the EQ6110 bus prototype and its experimental data.
According to the actual urban driving cycle, the fuel economy and the traction performance of the EQ6110 city bus have been
simulated, and factors such as the driving cycle, the loss of power to engine accessories, the gear-shifting strategy, the
fuel shut-off strategy of the engine, etc., which influence on the bus’s fuel economy, are also quantitatively analyzed. Some
conclusions are drawn as follows: (1) driving cycles have a great influence on the fuel economy of a city bus; (2) under the
typical urban driving cycle of the public bus in China, the engine fuel shut-off strategy can save about 1 to 1.5 percent
of the fuel consumption; and (3) the optimized gear-shifting rules can save 6.7 percent of the fuel consumption. Experimental
results verify that the fuel economy for the EQ6110 public bus is improved by 7.2 pecent over the actual Wuhan urban driving
cycle of the current public bus in China. 相似文献
124.
In this paper, we investigate the transient characteristics of combustion and emissions during engine start/stop operations
in hybrid electric vehicle (HEV) applications. Hydrocarbon (HC) emissions during the initial 2nd∼9th cycles are found to be significantly greater when the engine is quickly started under the original engine calibration mode.
Lower intake manifold absolute pressure (MAP) was also found to cause larger residual gas dilution and poor combustion, resulting
in a higher HC concentration when the cranking speed was increased. The post-catalyst HC concentration was found in the way
of initially decrease and then to increase again as the cranking speed was increased. A lowest concentration value was achieved
at a cranking speed of 1000 r/min. Engine shut-down by fuel cut-off was shown to produce lower emissions than shut-down by
ignition cut-off as one can avoid misfire of the last fuel injection cycle. The fuel deposited during the stop process seems
to impact engine restart enrichment mostly during the initial 0.7 s for this engine, whose performance is dominated by the
MAP transition characteristic and the time coefficient for fuel vaporization in this time period 相似文献
125.
Undesired lateral force inevitably exists in a MacPherson suspension system, which is liable to damper rod’s side wear and
promotes the damper’s inner friction decreasing the ride performance from the suspension system. Substituting a new side load
spring with curved centerline for the conventional coil spring has been proven able to solve these problems and Multi-body
Dynamics combining with Finite Elements Analysis may be an efficient method in optimizing its design. Therefore, taking a
passenger car as example, a detailed multi-body dynamics model for the suspension system is built to simulate forces exerted
on the damper and the minimization of its lateral component is selected as the design target for the spring. When the structure
optimization of the side load spring is performed using FEA software ANSYS, its vertical and lateral elastic characteristics,
supported by test data, are analyzed. After importing FEA results back to the suspension system, the dynamics simulation can
be performed to validate the optimization result. 相似文献
126.
This paper describes the development of an optimal design process for a steering column system and supporting system. A design
guide is proposed at the initial concept stage of the development process to obtain sufficient stiffness of the steering system
while reducing the idle vibration sensitivity of the system. Case studies on resonance isolation are summarized, where vibration
modes among the systems are separated by applying a vibration mode map at the initial stage of the design process. This study
also provides design guidelines for an optimal dynamic damper system using a CAE (computer aided engineering) analysis. The
damper FE (finite element) model is added to the vehicle model to analyze the relation between the frequency and the sensitivity
of the steering column system. This analysis methodology makes it possible to achieve target performance in the early design
stage and reduction of damper tuning activity after the proto car test stage. Through the proposed steering column system
development process, a lightweight vehicle with high stiffness is possible prior to the proto build stage. Furthermore, the
improved process is expected to contribute to reducing the overall development period and the number of proto car tests necessary
to achieve the desired steering system performance. 相似文献
127.
Desired yaw rate and steering control method during cornering for a six-wheeled vehicle 总被引:1,自引:0,他引:1
S. -J. An K. Yi G. Jung K. I. Lee Y. -W. Kim 《International Journal of Automotive Technology》2008,9(2):173-181
This paper proposes a steering control method based on optimal control theory to improve the maneuverability of a six-wheeled
vehicle during cornering. The six-wheeled vehicle is believed to have better performance than a four-wheeled vehicle in terms
of its capability for crossing obstacles, off-road maneuvering and fail-safe handling when one or two of the tires are punctured.
Although many methods to improve the four-wheeled vehicle’s lateral stability have been studied and developed, there have
only been a few studies on the six-wheeled vehicle’s lateral stability. Some studies of the six-wheeled vehicle have been
reported recently, but they are related to the desired yaw rate of a four-wheeled vehicle to control the six-wheeled vehicle’s
maneuvering during corning. In this paper, the sideslip angle and yaw rate are controlled to improve the maneuverability during
cornering by independent control of the steering angles of the six wheels. The desired yaw rate that is suitable for a six-wheeled
vehicle is proposed as a control target. In addition, a scaled-down vehicle with six drive motors and six steering motors
that can be controlled independently is designed. The performance of the proposed control methods is verified using a full
model vehicle simulation and scaled-down vehicle experiment. 相似文献
128.
This paper is the second invstigation on the effect of fuel stratification on flame propagation. In the previous work, the
characteristics under the no port-generated swirl condition, i.e., the conventional case was studied. In this work, the flame
development under the low swirl condition was considered. For this purpose, the initial flame development and propagation
were visualized under different axially stratified states in a modified optical single cylinder SI engine. The images were
captured by an intensified CCD camera through the quartz window mounted in the piston. Stratification was controlled by the
combination of the port swirl ratio and injection timing. These were averaged and processed to characterize the flame propagation.
The flame stability was estimated by the weighted average of flame area and luminosity. The stability was also evaluated through
the standard deviation of flame area and propagation distance and through the mean absolute deviation of the propagating direction.
The results show that the flame-flow interaction determines the direction of flame propagation and that the governing roles
of the two factors vary according to the stratified state and the location in the cylinder. In addition, the flame development
and the initial flame stability are strongly dependent on the stratified conditions, and the initial flame stability is closely
related to the engine stability and lean misfire limit. Lastly, there is no essential difference in gasoline and CNG flame
propagation characteristics. 相似文献
129.
This paper presents a steering control method for lane-following in a vehicle using an image sensor. With each image frame
acquired from the sensor, the steering control method determines target position and direction, and constructs a travel path
from the current position to the target position either as an Arc-path or S-path. The steering angle is calculated from the
travel path thus generated, and the vehicle follows the travel path via motor-control. The method was tested using a vehicle
dubbed as KAV (Korea Autonomous Vehicle) along an expressway (Seoul Inner Beltway) trajectory with a variety of radii (50
m ∼ 300 m) while traveling at a speed of 60 km/h to 80 km/h. Compared with an experienced human driver, the method showed
little much difference in performance in terms of lane-center deviation. The proposed method is currently employed for high
speed autonomous driving as well as for stop and go traffic. 相似文献
130.
This paper proposes a new neuron control strategy for an active vehicle suspension system, with the emphasis on the study
of multivariable and uncertain suspension characteristics. The novelty of this strategy is in the use of integrated error,
which consists of multiple output errors in the regulated plant. By combining the integrated error approach with the traditional
neuron control (TNC), integrated error neuron control (IENC) is presented. It provides a direct control to the multiple outputs
of the control plant simultaneously. Taking a quarter-car model as an example, the proposed control strategy is applied and
comparative simulations are carried out with various vehicle parameters and road input conditions. Simulation results prove
the effectiveness and robustness of the proposed IENC method. In addition, the newly proposed neuron scheme provides a simple
yet efficient new possibility for the control of a class of uncertain multivariable systems similar to an active vehicle suspension. 相似文献