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系統識別號 U0026-2807201020565100
論文名稱(中文) 模組化超級電容等效電路參數之特性分析與應用於小型船舶電力儲能之可行性評
論文名稱(英文) Characteistic Analysis of Equivlent Circuit Parameters for a Supercapacitor Module and Feasibility Assessment for Its Application to Store Energy in a Small Vessel
校院名稱 成功大學
系所名稱(中) 系統及船舶機電工程學系碩博士班
系所名稱(英) Department of System and Naval Mechatronic Engineering
學年度 98
學期 2
出版年 99
研究生(中文) 何政龍
研究生(英文) Cheng-Lung Ho
學號 p1697414
學位類別 碩士
語文別 中文
論文頁數 67頁
口試委員 指導教授-李建興
共同指導教授-黃正清
口試委員-王醴
口試委員-王耀諄
中文關鍵字 超級電容  鉛蓄電池  Matlab/Simulink 
英文關鍵字 Supercapacitor  lead-acid battery  Matlab/Simulink 
學科別分類
中文摘要 本論文係透過實驗來量測模組化超級電容模組之充放電波形,進而推導分析其等效電路參數之特性,並利用Matlab/Simulink軟體模擬驗證模組化超級電容模組之充放電曲線,以作為設計超級電容儲能系統之用。此外,吾人並以船用蓄電池的使用方式來測試或模擬超級電容模組的電壓變化特性,再將結果與船舶檢驗規範進行比較以驗證超級電容應用於小型船舶電力儲存的可行性,期能提供未來於設計小型船舶電力系統之參考。
英文摘要 This thesis derives and analyzes the characteristics of the parameters of the equivalent circuit model through measuring the charge and discharge waveforms of a supercapacitor module. Then, the charge and discharge graphs of the supercapacitor module are validated with the model developed in Matlab/Simulink that can be used for the design of Supercapacitors Energy Storage System (SESS). Moreover, the characteristics of voltage changes of the supercapacitor module are studied by using a similar method for testing a lead-acid battery. Finally, the test results are then compared with ship inspection rules to verifiy the feasibility of using the supercapacitor module for energy storage in a small vessel in the future.
論文目次 摘 要 i
Abstract ii
誌 謝 iii
目 錄 iv
圖目錄 vii
表目錄 x
符號說明 xi
第一章 緒 論 1
1.1前言 1
1.2研究動機 3
1.3研究方法與目的 4
1.4文獻回顧 5
1.5本論文之貢獻 8
1.6論文研究架構 8
第二章 超級電容器介紹 10
2.1前言 10
2.2超級電容器的工作原理 12
2.2.1電雙層效應 12
2.2.2擬電容效應 15
2.3 超級電容器的工作原理 16
2.3.1 碳系列超級電容器 16
2.3.2 金屬氧化物系列超級電容器 16
2.3.3 導電高分子系列超級電容器 17
2.4 超級電容器之能量密度與功率密度關係 17
2.5 超級電容器與電池元件的性能比較 19
第三章 超級電容器等效電路模型之建構 21
3.1超級電容器之簡化等效電路 21
3.2瞬時分支電路 24
3.2.1瞬時電阻 24
3.2.2瞬時電容 25
3.3遲滯分支電路 27
3.3.1遲滯電阻 28
3.3.2遲滯電容 29
3.4長效分支電路 30
3.4.1長效電阻 30
3.4.1長效電容 31
3.5漏電阻抗 32
第四章 超級電容器等效電路模型參數之量測 34
4.1實驗儀器架構 34
4.2實驗量測之限制條件 37
4.3量測實驗之流程 37
4.4量測結果與分析 41
4.4.1超級電容串聯模組之量測結果 41
4.4.2超級電容並聯模組之量測結果 46
4.4.3超級電容模組之擴充 51
4.5超級電容模組之模擬 52
第五章 超級電容應用於小型船舶電力儲存之可行性評估 56
5.1蓄電池在小型船舶電力系統中所扮演的角色 56
5.2超級電容模組充放電時間測試與模擬 57
5.3超級電容模組浮充狀態測試與模擬 58
5.4超級電容模組啟動電流模擬 60
第六章 結論與未來展望 61
6. 1結論 61
6. 2未來展望 61
參考文獻 63
簡 歷 67
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