flywheels
英 [ˈflaɪwiːlz]
美 [ˈflaɪˌwilz]
n. 飞轮; 惯性轮
flywheel的复数
柯林斯词典
- 飞轮;惯性轮
A flywheel is a heavy wheel that is part of some engines. It regulates the engine's rotation, making it operate at a steady speed.
双语例句
- Flywheel ( excl. clock, watch and magnetic flywheels and motor)
飞轮(不包括钟、表和磁性飞轮及非发动机内部零件的机动车辆和航空的零件) - What you see here are these flywheels at the Magnet Lab.
这些就是电磁实验室,里的飞轮。 - Flywheels are used more often than you may think.
用上飞轮的机会,远比你们想的要多。 - Based on the current demand of the high-speed flywheels for storage-energy, this thesis focuses on the systematic study of the damage and fracture of the high-speed flywheels for storage-energy.
本文针对复合材料高速储能飞轮的现状和发展要求,在查阅和分析了大量国内外相关文献的基础上,针对复合材料储能飞轮的损伤与断裂问题进行了系统的研究。 - The flywheels of some engines also carry marks indicating the serial numbers of the cylinders where the compression occurs.
一些发动机的飞轮上面也会做上标记,以此来显示气缸的系列号并得知哪里会发生压缩冲程。 - MIT, at the Magnet Lab, has two flywheels which are amazing.
在磁铁实验室中,有俩让人惊讶的飞轮。 - I want to show you the Crab Nebula, and I think I will also show you the beautiful flywheels in the Magnet Lab.
给你们看蟹状星云,我也要给你们看电磁,实验室里的漂亮飞轮。 - There are applications where energy is temporarily stored in a rotating disk, and we call those disks flywheels.
举例子,假设能量暂时储存在,旋转的盘中,将这些盘子称为飞轮。 - One company has parented an idea in which metal strips inserted in pavements and roads operate flywheels by means of a piston action using hydraulic fluid.
一个公司提出这样想法:嵌在人行道和路面上的金属条用液压活塞的作用使飞轮转动。 - Driving gears, flywheels and couplings are shipped before all other parts to shorten assembly time at site.
传动齿轮、飞轮和联轴器均已先于所有其他部件装船以缩短现场装配时间。 - For this reason, heavy-duty or truck engines have large and heavy flywheels, while racing engines or high performance engines have light flywheels.
由于这个因素,重型机车或卡车发动车都装配有大且重的飞轮,而赛车发动机或高性能发动机则装配有轻型飞轮。 - The damage signal of high speed composite flywheels was collected by acoustic emission method.
采用声发射法对复合材料飞轮试件高速旋转时的损伤信号进行采集。 - For an engine of a given horsepower, single cylinder engines require large flywheels to keep the momentary speed variations.
对于一定马力的发动机来说,单气缸发动机需要较大的飞轮来保持其瞬时速度的变化。 - Analysis on errors of single axis energy storage/ attitude control system with double flywheels
单轴飞轮储能与姿态控制系统误差分析 - High precision speed measurement method of flywheels in integrated energy-storage and attitude-control system
集成化储能与姿态控制系统中飞轮高精度测速方法 - Simulation and Experiment of Single Axis Attitude Control and Energy Storage System with Two Flywheels
单轴飞轮储能/姿态控制系统的仿真及其实验研究 - The study of high-velocity composite flywheels for automobiles
车用高速复合材料飞轮的研究 - In order to demonstrate that it is possible to use two reverse rotating flywheels to simultaneously provide energy storage and attitude control in a single axis, a kind of integrated energy storage and attitude control system composed of bias momentum wheels was researched by theory analysis and simulation.
为了验证在同一轴上安装两个反向旋转飞轮能够同时完成能量存储与姿态控制问题,对一种由偏置动量轮构成的集成化单轴储能及姿态控制系统进行了理论分析及仿真研究。 - In conclusion, the primary method that can improve the attitude control precision is presented; the speed measurement error and control error of flywheels can be reduced by improving the resolutions of position sensor and speed sensor, as well as adopting advanced control algorithm.
最后提出了提高飞轮储能与姿态控制系统精度的主要方法,可以通过提高位置测量传感器和速度测量传感器的分辨率,采用先进的控制算法来降低飞轮的转速测量与控制误差。 - Finite Element Analysis of Composite Material Flywheels with High Speed in Electric Vehicle Flywheel Batteries
汽车飞轮电池中高速复合材料飞轮的有限元分析 - This paper analyzed the ability of energy storage and its influence factors for composite flywheel. The stress distribution and structural design of flywheels were quantificational analyzed and compared for two types of composite flywheel, single-ring and multi-ring constant-thickness rim flywheel.
文中对复合材料飞轮的储能能力及其影响因素进行分析,并对两种结构复合材料飞轮&单层与多层等厚度圆环飞轮的应力分布与结构设计进行定量分析与比较。 - In order to study attitude control of spacecraft under disadvantageous condition, the attitude problem of spacecraft controlled by two momentum flywheels is discussed.
为了研究航天器在不利环境下的姿态控制问题,利用最优控制方法讨论带有2个动量飞轮的航天器姿态控制问题。 - Permanent Magnetic Brushless DC Motor ( BLDCM) is selected as drive motor of the Magnetic Suspending Flywheels system. The drive system is required to work in momentum wheel and counteractive wheel mode and realize high precision speed regulating.
磁悬浮飞轮采用永磁无刷直流电机(BLDCM)作为驱动电机,要求驱动系统能够实现动量轮和反作用轮两种工作模式,并具有高精度的转速控制。 - Now, flywheels systems are elected as the actuators of attitude control system with high precision for most spacecrafts.
目前空间飞行器的高精度姿态控制系统大多采用飞轮系统。 - It is an extensively used technique to make use of flywheels for energy storage purposes.
利用飞轮贮能是工业中一项广泛采用的技术。 - In Chapter 2, the energy storage ability of the flywheel battery and its affecting factors are analyzed. The energy storage ability of different material flywheels are compared and analyzed.
第二章对飞轮电池储能能力及其影响因素进行了分析,对不同材料飞轮的储能能力进行了比较和分析。 - The application of some energy storage technology are presented emphatically, such as flywheels storage, superconductive magnetic energy storage ( SMES), battery storage and supercapacitor storage, their technical outlook, advantages and disadvantages is also discussed in the paper.
重点介绍了飞轮储能、超导储能、蓄电池储能和超级电容器储能在其中的应用,分析了各自的优缺点和发展前景。 - The stability analysis of motion and the critical rotational speed are investigated based on the motion equation of rigid magnetic bearing momentum flywheels.
基于刚性磁轴承动量轮的运动方程,研究了其运动稳定性与临界转速等转子动力学基本问题,并进行了动量轮平动运动的耦合分析。 - On the basis of technical data of Line 2 provided by Shanghai Metro, the traction system, load system and the inertia system ( 3 flywheels) and other hardware were selected and designed.
依据上海地铁公司提供的2号线技术资料,对牵引系统、负载系统和惯量系统(三级飞轮)等硬件进行了选型和设计,初步建立了模拟城市轨道车辆牵引和电制动的实验系统平台。 - Second the nonlinear control methods are applied to the system. The traditional variable structure control ( VSC) of hybrid magnetic bearing momentum flywheels are designed. And the simulation shows good dynamic response and stability.
其次,进行了非线性控制方法的应用研究,采用传统的变结构控制方法设计了磁轴承飞轮的变结构控制器,仿真表明了系统良好的控制特性。