flywheel rotor 中文意思是什麼
flywheel rotor
解釋
飛輪轉子-
Rotor dynamics of flywheel energy storage system
軸承系統的動力學研究 -
Space systems - flywheel rotor assemblies
空間系統.飛輪轉子組件 -
Clutch rotor and brake are fixed on the output shaft, and the input armature plate can be set onto the input flywheel so that when the clutch is energized the fly wheel will drive the output shaft. when the clutch is disengaged and the brake is energized the output shaft will stop
離合器之轉子與剎車器被固定在出力軸上,入力的電極板可固定在入力的飛輪上,當電流通過離合器時飛輪帶動出力軸,當離合器分離時,剎車有電流通過出力軸就停止。 -
Analysis software. the analysis show : the gyroscope effect to the flywheel rotor ' s and the shaft ' s vibration character under high rotate speed should be considered. at this time, the system ' s normal frequency is the function of rotate speed ; the amplitude passing through the resonance field can be lowered obviously by improving the effective damping of the electro - magnetic bearing
建立了高速旋轉狀態下,採用磁軸承作支撐的飛輪轉子和轉軸的動力學模型,給出了有限元法在此問題中的具體應用,並利用i - deas有限元分析軟體具體分析了飛輪系統的共振頻率、系統振型,以及對偏心激勵的響應,分析表明:對于高速旋轉的飛輪轉子和轉軸,應考慮陀螺效應對其動力學特性的影響,此時系統的固有頻率是轉速的函數;通過提高磁軸承的等效阻尼可顯著降低系統通過共振區域時的振幅。 -
The study of flywheel battery concerns the intercross of many disciplines, such as mechanism, material, electronic engineering, heat engineering, computer, and so on. in this dissertation, two main key techniques, the high speed flywheel rotor and the magnetic bearing, are investigated deeply and systematically. the main contents of this dissertation are as following : in chapter 1, the background, source, purpose and significance of the subject are introduced
其研究涉及到機械、材料、電工、熱工、計算機等多學科的交叉,國內外目前大都在研究原型裝置,對設計理論與方法尚未進行系統深入的研究,本論文則對飛輪電池儲能涉及的兩大關鍵技術? ?飛輪轉子設計與磁浮軸承及其相關技術進行了系統的理論分析與模擬研究。 -
Lately, the limited speed of flywheel rotor has been increased to 200, 000 rpm, and the energy storage density has been increased to 134 wh / kg. moreover, the theoretic energy storage density could reached 306 wh / kg
目前飛輪轉子最高轉速達到20萬轉每分,儲能密度也達到134wh kg ,其理論儲能密度甚至高達306wh kg 。 -
Thermal analysis and research on magnetically suspended flywheel rotor
磁懸浮飛輪轉子組件溫度場分析與研究 -
By the analysis, it was found out that the key control factor determined the speed limit and storage energy was the poor transverse tension strength of the composites. therefore, if only fibers of high longitudinal tension strengths were used in the rim, high rotate speed and high energy storage density of flywheel rotor would not be achieved
經過理論推導及程序優化比較,發現,影響飛輪轉子極限轉速和儲能量的主要控制因素,恰好是其復合材料輪環較為薄弱的橫向拉伸強度,因此單純地通過採用高縱向拉伸強度的高強碳纖材料來製造飛輪轉子,並不能得到期望的高轉速和儲能密度。 -
For the model of flywheel rotor in the thesis, the weight of aluminum hub is 13. 5 kg, and the weight of composite rim is 14. 5 kg. moreover, the multi - ring s flywheel rim was made by filament winding process
本文提出的飛輪轉子模型,鋁合金輪轂重13 . 5kg ,復合材料輪環重14 . 5kg ,採用多環套裝纏繞工藝,分為內外兩層輪環,分別採用t300和m40j碳纖復合材料。 -
On the other hand, for the pre - press stress being threw by the hub was inserted after cooling with liquid nitrogen, the poor transverse tension strength of the multi - ring flywheel rotor could be counteracted. so the rotate speed and energy storage density can be increased efficiently
而採用多環套裝纏繞技術製造的多層飛輪輪環,在利用溫差過盈裝配方法給復合材料輪環施加預壓應力后,能夠有效避免飛輪轉子的復合材料輪環部分因較低的纖維橫向抗拉強度而破壞失效,從而大幅度提高飛輪轉子的極限轉速和儲能密度。 -
Further more, a finite element analysis of flywheel rotor was made to increase the security of the flywheel ' s test, 9 modes frequency were taken out according to the rotating speed of the flywheel, the results can act as the theory base for the structure design and tests of the flywheel
為了增加飛輪實驗的安全性,本文利用有限單元法對飛輪轉子作了模態分析,抽取了飛輪工作轉速范圍內的9階模態頻率,可作為飛輪結構設計和飛輪實驗的理論基礎。 -
Then, according to the basic theory of elastic mechanics and composite mechanics, basic equations and fortran program for the multi - ring composite flywheel rotor were presented
然後,基於彈性力學、復合材料力學的基本理論,推導出了多環套裝復合材料飛輪轉子的基本解析解答。 -
The calculation expressions of electromagnetic support forces of the spherical magnetic bearing and the calculation expressions of turning moment for the spin axis of flywheel rotor are presented. the dynamic model in radial translation and in rotation, as welll as the movement simulation with the widely used control method pd was proposed independently
並按照設計的基本結構,推導了球形磁懸浮軸承的電磁承載力的計算式和偏轉電機提供的偏轉力矩的計算式,並將轉子的運動分為平動和轉動兩部分分別進行了動力學分析,給出其運動方程。
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