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821.
822.
823.
K. M. Munisamy N. H. Shuaib M. Z. Yusoff S. K. Thangaraju 《International Journal of Automotive Technology》2013,14(4):569-577
Ventilated brake disk is the state of the art technology in automobile braking system. It is well known that the braking capability of brake disk is affected by the rate at which heat is dissipated through forced convection. The rapid increase and decrease of the brake disk temperature could lead to catastrophic failure of the brake disk due to high thermal stress. The objective of the current study is to investigate the potential heat transfer enhancements in ventilated brake disk by varying the geometrical parameters of the blades inside the flow passage. This is done through comparisons of non-dimensional properties for flow and heat transfer in different blade configurations of the ventilated brake disk. The straight blade configuration is used as a baseline reference against the angled blades. The investigations are performed by using both experimental and computational means and the results are compared and discussed. Analysis shows that significant increase in braking performance can be achieved with relatively simple alteration of the ventilated blade angle. The results show a tremendous increase in the heat transfer rate with blade inclination angle configurations as compared to conventional straight blade. The Nusselt number is found to be in a power-law relationship with the Reynolds number. Distinct relationship between laminar and turbulent condition is predicted. An improvement in total convective heat transfer coefficient of 51% was achieved with blade inclination angle of 45° tilting towards clockwise direction. 相似文献
824.
825.
The present study attempts to address the challenges of the multiobjective optimization problem of the BSFC-NOx-PM trade-off paradox of an existing diesel engine by harnessing the synergetic benefit of PM and BSFC reduction through CRDI operation and simultaneous NOx reduction by EGR application. Load, FIP and EGR were chosen as the input parameters while NOx, PM and BSFC were the response variables. In order to reduce the experimental effort, the Taguchi L16 orthogonal array technique was employed to obtain the corresponding values of the response variables. The grey relational analysis coupled with fuzzy logic has been employed as the optimization routine. The optimal combination of the input parameters corresponding to the calibrated values of the response variables were obtained by employing the Grey-Fuzzy Grade and S-N ratio strategy as a performance index. The computed optimal combination so obtained were further validated through actual experimentation. EGR was found to be the most influencing factor in the present optimization endeavour. The study also established that the Grey-Fuzzy-Taguchi method was not only comparable but superior to the Grey-Taguchi method usually employed for such optimization studies. 相似文献
826.
A cycle-resolved analysis system was designed with the specified measurement instruments to investigate the characteristics
of combustion stability in a mild gasoline hybrid powertrain. A Fast Response Flame Ionization Detector (FFID), cylinder pressure
transducer and engine torque transducer were used to observe both the engine-out THC emissions and engine performance during
a brief moment of engine restart. This research aimed to improve combustion stability and was performed by varying the battery
State Of Charge (SOC), injection duration and ignition timing. The results indicate that engine combustion tends to be more
stable with longer fuel injection durations and advanced ignition timing, while the effect of the battery SOC is negligible.
Also, peculiar differences in the catalyst conversion efficiency at the front and rear of the catalyst during engine restart
and deceleration were revealed, with the degree of HC oxidation being the suspected cause. This study not only analyzed the
engine control and engine-out total hydrocarbon (THC) emission characteristics, but also implemented control strategies that
allowed for combustion stability during engine stop and restart operation. 相似文献
827.
K. -H. Moon S. -H. Lee S. Chang J. -K. Mok T. -W. Park 《International Journal of Automotive Technology》2009,10(4):441-449
Many methods we have been developed to control the rear wheels of a vehicle, but most of them are designed for automobiles
with four wheels. The AWS (all wheel steering) control method for articulated vehicles is currently applied only to Phileas
vehicles developed by APTS, but the control algorithm for this system has yet to be reported. In the present paper, a new
algorithm is proposed after the AWS ECU (electronic control unit) of the Phileas vehicle was tested and analyzed in order
to understand the existing steering algorithm. The new algorithm considers the vehicle geometry, stability of handling, and
safety, and can be easily applied to multi-axle vehicles. In order to verify the AWS algorithm, the trajectory and steering
angles of each algorithm were compared using the commercial software ADAMS. Turning radius, swing-out, and swept path width
were also investigated to determine the turning performance of the proposed algorithm. 相似文献
828.
U. B. Azimov K. S. Kim D. S. Jeong Y. G. Lee 《International Journal of Automotive Technology》2009,10(3):265-276
The concept of Low Temperature Combustion (LTC) has been advancing rapidly because it may reduce emissions of NOx and soot
simultaneously. Various LTC regimes that yield specific emissions have been investigated by a great number of experiments.
To accelerate the evaluation of the spray combustion characteristics of LTC, to identify the soot formation threshold in LTC,
and to implement the LTC concept in real diesel engines, LTC is modeled and simulated. However, since the physics of LTC is
rather complex, it has been a challenge to precisely compute LTC regimes by applying the available diesel combustion models
and considering all spatial and temporal characteristics as well as local properties of LTC. In this paper, LTC regimes in
a constant-volume chamber with n-Heptane fuel were simulated using the ECFM3Z model implemented in a commercial STAR-CD code.
The simulations were performed for different ambient gas O2 concentrations, ambient gas temperatures and injection pressures. The simulation results showed very good agreement with
available experimental data, including similar trends in autoignition and flame evolution. In the selected range of ambient
temperatures and O2 concentrations, soot and NOx emissions were simultaneously reduced. 相似文献
829.
C. L. Myung H. Lee K. Choi Y. J. Lee S. Park 《International Journal of Automotive Technology》2009,10(5):537-544
This study was focused on experimental comparisons of the effects of various vehicle certification modes on particle emission
characteristics of light-duty vehicles with gasoline, diesel, LPG, and low-carbon fuels such as bio-diesel, bioethanol, and
compressed natural gas, respectively. The particulate matter from various fueled vehicles was analyzed with the golden particle
measurement system recommended by the particle measurement programme, which consists of CVS, a particle number counter, and
particle number diluters. To verify particle number and size distribution characteristics, various vehicle emission certification
modes such as NEDC, FTP-75, and HWFET were compared to evaluate particle formation with both CPC and DMS500. The formation
of particles was highly dependent on vehicle speed and load conditions for each mode. In particular, the particle numbers
of conventional fuels and low-carbon fuels sharply increased during cold start, fast transient acceleration, and high-load
operation phases of the vehicle emission tests. A diesel vehicle fitted with a particulate filter showed substantial reduction
of particulate matter with a number concentration equivalent to gasoline and LPG fuel. Moreover, bio-fuels and natural gas
have the potential to reduce the particulate emissions with the help of clean combustion and low-carbon fuel quality compared
to non-DPF diesel-fueled vehicles. 相似文献
830.
Water management is an important factor in the optimal performance of a polymer electrolyte fuel cell (PEFC). In this paper,
a PEFC model that facilitates the control of PEFC membrane humidity is presented. An efficient modeling procedure using a
combination of mathematical and experimental techniques is proposed. A simple mathematical structure for the model is adopted,
and experiments to measure PEFC irreversibilities and net water transport across the membrane electrode assembly (MEA) are
performed. The developed PEFC model effectively quantifies the irreversibilities in the PEFC output voltage and clarifies
the relationship between PEFC performance and steady state water transport through the MEA. The proposed modeling procedure
can effectively save time and cost during the controller / control algorithm design phase in PEFC system development. 相似文献