飞轮电池

BP神经网络在飞轮电池控制系统中的研究

Study of BP Neural Network on Flywheel Battery 's Control

最后建立起该飞轮电池系统的充放电过程的数学模型，并应用MATLAB语言编程来对充放电过程进行了仿真。

In the end , based on the mathematics model of the charge and discharge of flywheel battery , Simulating the course of charge and discharge by MATLAB language .

最后应用Riccati传递矩阵法对车载飞轮电池弹性支承的简化后的单圆盘柔性转子进行了模态振动仿真。

At last using Riccati Transfer Matrix method , transferred the actual rotor by elasticity bearing into reasonable single disc rotor model , simulated the mode vibration system .

结合分布式发电，提出了用飞轮电池调节小型太阳能发电站输出特性的系统控制方案；分析了用正弦波脉宽调制（SPWM）原理调节电动机/发动机输入/输出电压的幅值、频率和波形的原理和方法。

The system control scheme of the output on the solar energy power plant involving the flywheel battery is proposed , and the principle and method of SPWM used to adjust the breadth , frequency and waveform of the output / input voltage on the motor / generator are analysed .

飞轮电池磁轴承系统结构及控制

Structure and control design of magnetic bearing system for flywheel battery

车载飞轮电池转子的动力学建模与分析

Modeling and Analysis of Rotor Dynamics of Flywheel Battery for Vehicles

飞轮电池在分布式发电系统中的应用研究

Research on and application of flywheel battery in distributed power generation

车载磁悬浮飞轮电池系统研究

Overview of Study on System of Vehicle Magnetic Levitation Flywheel Battery

飞轮电池储能关键技术研究

Research on Key Techniques of Energy Storage of Flywheel Battery

飞轮电池及其混合磁悬浮控制系统的研究

Study on the Flywheel Battery and It 's Hybrid Maglev Control System

飞轮电池能量特性的仿真研究

Simulative Research on Battery Characteristics of Electric Vehicle Flywheels

车载飞轮电池磁力轴承设计理论及方法的研究

Research on Design Theory and Method of Magnetic Bearing of Flywheel Battery for Vehicle

汽车飞轮电池中高速复合材料飞轮的有限元分析

Finite Element Analysis of Composite Material Flywheels with High Speed in Electric Vehicle Flywheel Batteries

车用飞轮电池结构设计中的几个关键问题

Critical Problems in Flywheel Design for Automobiles

磁悬浮轴承飞轮电池在燃料电池电力推进中的应用探究

Research on Application of Magnetic Levitation Bearing Flywheel Cell to Fuel Cell Electric Propulsion System

基于飞轮电池的应急电源在电厂中的应用研究

Application of the Emergency Power Source based on Flywheel Battery to the Power Generation Plant

混合动力客车飞轮电池中高速复合材料飞轮的设计与仿真

Design and Simulation of Composite Flywheel with High Speed in Flywheel Battery of Hybrid Electrical Bus

飞轮电池是一种新型的机电能量转换与储存装置。

Flywheel battery is a novel energy storage device which can realize energy conversion between mechanical and electric energy .

本文以车载飞轮电池为研究对象，对其磁力轴承的结构设计方法和理论进行了研究。

This dissertation studies the design method and theory of magnetic bearing 's structure based on the object of the flywheel battery for vehicle .

从车载飞轮电池运用的领域入手，说明了针对本文的具体研究对象，磁力轴承的总体布局。

Firstly , the layout of magnetic bearing and object of study is presented by analyzing the application field of flywheel battery for vehicle .

介绍了飞轮电池的结构、原理和特点，总结了应用飞轮电池的电动汽车的发展历程。

The structure , principle and characteristic of flywheel battery were analyzed , and the development course of electric vehicle which employed the flywheel battery was summarized .

本文从原理和结构上介绍了应用于电动汽车上的燃料电池、飞轮电池、超大容量电容器和核电池等几种新型动力电池。

The article describes the principle and construction of the new power-cell for electric vehicles , such as fuel cell , flywheel cell , super capacity capacitor and nuclear cell , etc.

通过实验结果数据的分析，总结出车载工况下磁悬浮转子的动力学特性。为实现车载磁悬浮飞轮电池的应用奠定基础。

Through the analysis of the data , the dynamics of magnetically levitated rotor is summed up in order to lay the foundation for realizing the application of Maglev vehicle flywheel battery .

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。

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 .

飞轮电池由于具有一系列独特的性能，已经成为电池行列一支新生的力量，并在许多方面有取代化学电池的趋势。

Owing to many unique performances , flywheel battery has been becoming a new member of the battery family , and has been taking the place of the chemical battery in many aspects .

对磁悬浮飞轮电池的支承结构形式、飞轮结构形式、磁力轴承的结构布置形式、磁力轴承的计算方法等进行了研究。

The bearing structure of maglev flywheel battery , the structure of flywheel , the structure layout of the magnetic bearing , and calculation method of magnetic bearing and so on are studied .

本文给出了一种同时采用燃料电池和磁悬浮轴承飞轮电池作为电能的转化和存储装置的电力推进系统设计方案。

In this paper , the design of electric propulsion system adopts the method of simultaneous taking fuel cell and magnetic levitation bearing flywheel cell as the transform and storage installation of electrical power .

飞轮电池是一种新型储能装置，具有比能量高、比功率大、体积小、充电快、寿命长、无任何废气废料污染等特点。

Flywheel battery is a novel energy storage device which has many advantages : high specific energy and specific power , volume small , fast charge , long cycle life , non-pollution and so on .

而作为一种纯机电的储能系统&飞轮电池，由于其具有比能量大、比功率高、无二次污染、寿命长等优点，在短短的时间内得到了很快的发展。

Flywheel battery , as a pure electromechanical storage system , because it has advantage of high specific energy and specific power , non-pollution long , cycle life , has a great development in a short time .

讨论了飞轮电池的工作原理及设计要求，并且着重叙述了飞轮电池的关键部件-飞轮转子的力学设计方法与结构优化技术以及取得的进展。

And the principle and design of flywheel cells is described . Then , the mechanic design method and the structure optimal technology of the rotor , which is a key of flywheel cells , is emphasize .