The Simulation on Dynamic of Rotary Inertia and Engine’s Inflamer in Light Vehicle

Q3 Engineering
Run Xu
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引用次数: 1

Abstract

 According to formula we can simulate their driven force and acceleration. The mechanical formula is used to obtain dynamics is used to simulate. The driven force increases when torque increases and tire diameter decreases. We need torque to increase so this is our plan. Acceleration raises when torque raises and it reduces when its weight raises. With the decreasing of radius of road the centripetal acceleration is increasing in the condition of light vehicle. It is that it decreases sluggishly before 0.35m/s2 then it maintains a steep decline to 0.62m/s2 and at last becomes sluggish again. It is valued that the economical efficiency about consumed fuel under different power. In the time of 0.2hr the fuel inflamer inclines sharply first then turns stable. It is the smallest value. Beyond it the fuel maintains a high value all the time. The discharged pollution gas decreases with the decreasing initial temperature. The low initial temperature is good to fuel gas. Meantime the smallest incline range is 300~350K which explains that it is the most save one.
轻型汽车旋转惯量与发动机消炎器动力学仿真
根据公式可以模拟出它们的驱动力和加速度。采用力学公式求得,采用动力学方法进行仿真。随着转矩的增大和轮胎直径的减小,驱动力增大。我们需要增加扭矩所以这是我们的计划。当扭矩增大时加速度增大,当重量增大时加速度减小。在轻型车辆工况下,随着道路半径的减小,向心加速度逐渐增大。即在0.35m/s2之前缓慢下降,然后保持急剧下降至0.62m/s2,最后再次缓慢下降。重视在不同功率下所消耗燃料的经济性。在0.2hr的时间内,燃料箱先急剧倾斜后趋于稳定。它是最小的值。超过它,燃料一直保持一个高值。随着初始温度的降低,排放的污染气体逐渐减少。较低的初始温度对燃气有利。最小倾斜度为300~350K,是最省力的。
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来源期刊
自引率
0.00%
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0
审稿时长
9 weeks
期刊介绍: The scopes of the journal include, but are not limited to, the following topics: • Thermal Engineering and Fluids Engineering • Mechanics • Kinematics, Dynamics, & Control of Mechanical Systems • Mechatronics, Robotics and Automation • Design, Manufacturing, & Product Development • Human and Machine Haptics Specific topics of interest include: Advanced Manufacturing Technology, Analysis and Decision of Industry & Manufacturing System, Applied Mechanics, Biomechanics, CAD/CAM Integration Technology, Complex Curve Design, Manufacturing & Application, Computational Mechanics, Computer-aided Geometric Design & Simulation, Fluid Dynamics, Fluid Mechanics, General mechanics, Geomechanics, Industrial Application of CAD, Machinery and Machine Design, Machine Vision and Learning, Material Science and Processing, Mechanical Power Engineering, Mechatronics and Robotics, Artificial Intelligence, PC Guided Design and Manufacture, Precision Manufacturing & Measurement, Precision Mechanics, Production Technology, Quality & Reliability Engineering, Renewable Energy Technologies, Science and Engineering Computing, Solid Mechanics, Structural Dynamics, System Dynamics and Simulation, Systems Science and Systems Engineering, Vehicle Dynamic Performance Simulation, Virtual-tech Based System & Process-simulation, etc.
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