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21.
C. H. Lee 《International Journal of Automotive Technology》2017,18(2):317-325
CFD simulations of spray tip penetration with the standard KIVA3V, ‘original gas jet’ and ‘Normal gas jet profile with breakup length formula’ (NGJBL) spray models were performed to investigate the effects of nozzle orifice size and ambient gas density combinations on the spray penetration. The accuracy of the CFD simulation results was estimated by comparing them with available experimental data. The ambient gas density was varied in 12 kg/m3 intervals from 12 to 69 kg/m3 for each nozzle orifice diameter. The nozzle orifice diameters used were 119, 140, 183 and 206 mm. A total of 20 cases in the CFD simulations were considered with combinations of the 4 nozzle orifice diameters and 5 ambient gas densities. CFD simulations with the NGJBL spray model were more accurate than those with either the standard KIVA3V or gas jet spray models as the nozzle orifice diameter and ambient gas density was increased. The NGJBL and original gas jet model is more effective in predicting the spray tip penetration near the nozzle tip region. 相似文献
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Won-yong Ki Seung-Jin Heo Dae-Oh Kang Hong Jae Yim Kyung won Lee Jung ho Kim Chang kun Lee 《International Journal of Automotive Technology》2017,18(3):429-437
The purpose of this study is to propose a concept design process for an automotive body structure using technical information on the major joints and members of vehicles. First, in order to collect the technical information on major joints and members, 17 vehicles were selected using benchmark data. The collected technical information for the selected vehicles was the cross sectional shapes of each joint and member which were used for the analysis of joint stiffness, crashworthiness and static stiffness of the member to make a database along with cross section properties. This study applied a ‘What If Study’ technique to perform a concept design of an automotive body using the analyzed information and selected cross section meeting the design objectives. The criteria for the selection of the cross section were defined by subdividing the defined design objectives of an automotive body structure and constraints into members and joints. In order to configure an analysis model of an automotive body structure using the selected cross section, a shape parametric model was used and static stiffness, dynamic stiffness and crashworthiness were assessed to evaluate the configured automotive body structure. The evaluation result showed that the crashworthiness and static/dynamic stiffness were improved compared to an existing body structure. In addition, the weight of the body structure was reduced. Through this study, the process that can rapidly and effectively derive and evaluate the concept design of an automotive body structure was defined. It is expected that, henceforth, this process will be helpful for the study of automotive body structures. 相似文献
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Taeksu Jung Yongsik Park Young Jin Kim Chongdu Cho 《International Journal of Automotive Technology》2017,18(6):1037-1045
Ensuring engine efficiency is a crucial issue for automotive manufacturers. Several manufacturers focus on reducing the time taken to develop and introduce brand new vehicles to the market. Thus, a synergic approach including various simulations is generally adopted to achieve a development schedule and to reduce the cost of physical tests. This study involved proposing a design process that is very useful in the preliminary development stage through effective support from simulations. This type of simulation-based design process is effective in developing timing chain drives; the use of this process, based on results from multiple trials, showed improvements in performance including low friction and vibration, improved durability, and cost-effective part design when compared to conventional processes. This study proposes an integrated approach to the preliminary design of an automotive timing chain system. The approach involves structural and dynamic analyses. The details of the design process are described by using the case of a virtual engine. This study conducted and summarized a dynamic and structural analysis as well as topological optimization to describe a process to obtain optimal results. The results of this study indicated the following improvements in overall performance factors: 12.1 % improvement in transmission error, 10.1 % reduction in chain tension, 46 % reduction in tensioner arm weight, and 11 % reduction in transversal displacement. 相似文献
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K. H. Lee J. H. Bak J. -L. Park C. -H. Lee 《International Journal of Automotive Technology》2017,18(2):255-261
The objective of this study is to develop a damper that can reduce the amplitude of vibration in various frequency ranges. Previous H/Shaft vibration reduction methods work in a passive way. A dynamic damper reduces the amplitude of vibration at its first mode, but vibration still appears at the second mode. A mass damper or hollow shaft can shift the natural frequency to a lower or higher region. The fixed operating frequency prevents vibration from being reduced outside the operating frequency range. The proposed damper uses electromagnets as either masses or actuators to change the damper mode between dynamic damper mode and mass damper mode. The electromagnetic damper (EMD) can change its mode to respond to the vibration excitation at both low and high frequencies. The vibration reduction performance was evaluated by FRF tests in laboratory and vehicle conditions. The results were compared with those of a dynamic damper and indicate that the amplitude of vibration is reduced by 95.6 % when the EMD is implemented on an H/Shaft, whereas only 61.9 % vibration reduction is achieved by the dynamic damper. 相似文献
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Özkan Uğurlu Ercan Köse Umut Yıldırım Ercan Yüksekyıldız 《Maritime Policy and Management》2015,42(2):163-185
In this study, collision and grounding data registered in GISIS (Global Integrated Shipping Information System) were investigated for oil tankers. The database includes the information of the collision and grounding accidents during the period between 1998 and 2010 in oil tankers. The risk assessments were carried out using fault tree analysis (FTA) programme for the incidents as collision and grounding occurred in oil tankers. In this study, we were able to investigate first the potential problems which cause the collision and grounding accidents have been determined, second, the occurrence of accidents has been shown with causal factors by the FTA method, and, finally, the significance degree of the initial events causing occurrence of accidents have been put forth. Collision in oil tanker resulted in economical loss (81%), pollution (6%) and death or injury (13%). Grounding in oil tanker resulted in economical loss (91%) and pollution (9%). According to the FTA results, the main reason for the accidents originating from human error is as follows: for collision accidents, Convention on the International Regulations for Preventing Collisions at Sea (COLREG) violation and the lack of communication between vessels; and for grounding accidents, the interpretation failure of the officer on watch and lack of communication in the bridge resource management. 相似文献
27.
通过物理模型试验,研究不规则波作用下30万吨级油轮撞击能量,分析了主要影响因素HT、LB、TT0、D对撞击速度的影响规律。结果表明:撞击速度与HT成正比;与LB成幂次关系;与TT0也成正比,但TT0=1时船舶撞击码头与波浪产生共振,撞击速度出现极大值;压载时的撞击速度大于满载时的撞击速度,撞击速度与吃水成负相关。提出了30万吨级油轮撞击能量的计算公式,与青岛港原油码头三期工程和青岛益佳集团燃油码头工程的物理模型试验结果对比,具有较好的计算精度,可供工程设计参考。 相似文献
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超空泡航行体加速过程是航行体进入高速巡航状态的重要阶段。为了深入了解超空泡航行体加速过程中的流动特性,文中采用基于欧拉两流体模型的CFD方法以及基于相对运动的源项法对超空泡航行体全沾湿加速过程、通气加速过程进行了数值模拟,其中全沾湿过程主要研究了加速过程附加质量变化规律,通气加速过程研究了通气量、重力效应以及航行体攻角对空泡发展速度的影响。研究结果表明全沾湿加速过程中由于加速度较大,附加惯性力影响不能忽略;通气量、航行体攻角对超空泡生成速度均有较大影响,当速度达到50 m/s以上时,重力效应对空泡生成速度影响可以忽略。 相似文献