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標題: | 手輪馬達電動輪椅之混合質子交換膜燃料電池電力管理系統設計 Design of Hybrid Power Management System with Proton Exchange Membrane Fuel Cell for an Electrical Wheelchair powered by Rim Motors |
作者: | Ruei-Ming Guan 官瑞明 |
指導教授: | 陽毅平(Yee-Pien Yang) |
關鍵字: | 燃料電池,能量管理,電力鏈,磷酸亞鐵鋰電池, fuel cell,energy management,powertrain,LiFePO4, |
出版年 : | 2010 |
學位: | 碩士 |
摘要: | 近年來,燃料電池車輛被視為下一代電動車輛的主要發展重點之一,其應用愈來愈廣泛。在考慮燃料經濟性與性能的條件下,最被廣泛使用的組合為燃料電池與二次電池的結合使用。典型的混合燃料電池電力鏈可根據燃料電池與二次電池組功率分配策略的不同,而分為串聯式與並聯式燃料電池電力鏈。本研究所預設之應用為手輪馬達電動輪椅,其對能源系統的要求與輕型電動車輛相同,在輕型電動車輛之中,對能源系統的重量與體積皆遠比一般電動車輛來得嚴苛,所裝載之能源系統必須能在儘可能地減少重量與體積的條件下,仍可提供足夠的電能以保持一定的駕駛性能,而典型的串聯式與並聯式燃料電池電力鏈所組成之能源系統無法完全滿足此需求,並且其相對應的電力管理策略亦存在對燃料電池的輸出功率波動過大以及二次電池組造成壽命衰減與性能快速下降的問題,故本研究設計一混合燃料電池電力鏈結構,並搭配相對應的電力管理策略,考慮手輪馬達電動輪椅的行駛工況與平均功率,選擇適當的燃料電池與二次電池組,將此電力系統以Matlab SimPowerSystems模組來模擬,並與典型串聯式與並聯式燃料電池電力鏈作比較,討論改善效果。由模擬結果顯示,本論文所設計的燃料電池電力鏈對燃料電池電力鏈的性能要求較小,燃料電池的操作功率亦較為固定,並且在二次電池組的充電次數上減少了96%~98%,延長二次電池組的壽命。 In recent years, fuel cell vehicles are becoming the most focus technology in the electric vehicles. Considering the fuel economy, the combination of fuel cells and secondary batteries is most widely used. The classical hybrid fuel cell powertrains could be classified into two types: series and parallel. The default application of this research is the electric wheelchair powered by rim motors. The limitation for energy storage system in the electric wheelchair is more critical than in general electric vehicles. The size and weight should be reasonable reduced with keeping enough drive ability. But the classical hybrid fuel cell powertrains could not satisfy the request. Also, the power management might cause the large variation of fuel cell output power and the decrease of the cycle life of batteries. In this research, a novel hybrid fuel cell powertrain and power management strategies were designed to improve this drawback and reduced the size and weight of fuel cells and batteries with reasonable size by load power and driving cycle analysis. The proposed and classical fuel cell powertrain were simulated with Matalb SimPowerSystems and compared simulation results to evaluate the improvements. From simulation results, the power requirement of fuel cells in proposed hybrid fuel cell powertrain is smaller than in classical fuel cell powertrain. The output power of fuel cells is nearly constant, so the size of fuel cells could be reasonably reduced and easy to control in future. Furthermore, the charging times of secondary batteries were also reduced 96%~98% compared with classical fuel cell powertrains. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/22704 |
全文授權: | 未授權 |
顯示於系所單位: | 機械工程學系 |
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