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Student Number 90332001
Author Jiunn-Jyh Guo(郭俊志)
Author's Email Address No Public.
Statistics This thesis had been viewed 2312 times. Download 1747 times.
Department Executive Master of Civil Engineering
Year 2002
Semester 2
Degree Master
Type of Document Master's Thesis
Language zh-TW.Big5 Chinese
Title The study of optimal model for Generator Maintenance Scheduling on power system
Date of Defense 2003-07-01
Page Count 64
Keyword
  • maintenance scheduling
  • mathematical programming
  • optimal
  • power system
  • Abstract In this paper, we investigate and study an efficient optimal maintenance- scheduling model of power plants’ generators. In order to provide power enough and stably, we also have to keep an eye on the outline research except online research, because of it will influence the mobilization of power generation system.
    In this study, the model is to plan the maintenance- scheduling in two years via consideration of the conditions of spare capacity, area balance, fuel cost, mobility of man-power and machine, the minimum maintenance time. We propose the minimum benefits loss of power system operation as an optimal aim to set up the model, the application of mathematical programming soft (LINGO) is used for demanding the optimal solution, and verifying the reliability of model by testing an example.
    In this study, the major contents include present situation of the generators maintenance and maintenance scheduling of TPC power system, composition of programming model, and research of example. In this study, the method of research includes literature search, meeting and discussing with experts, methodology. For literature search, we collect and analyze the problem of maintenance scheduling model of power plants’ generators; for meeting and discussing with experts, we through the meeting and discussing with electric expert and the expert of TPC mobility unit to discuss the problem of present situation of maintenance scheduling of TPC, and define what’s the aim and constrains; In methodology, we analyze the problem structure by mathematical programming, and take the optimal composition concept, to set up the single aim of minimum benefits loss of power system operation, and we write the model formula by Excel and join the LINGO mathematical programming soft to seek for the optimal solution. In this study, we take another kind of concept and hope that the better elastic optimum model could be developed and the plan and correcting of maintenance scheduling could be executed with computer directly. This study could be used for the company which own small quantity of generators, and also could be used for the public company which own big quantity of generators, we hope that this study could be an information for policy makers.
    Table of Content 第一章、緒論..............................………………………...............1
    1.1研究背景與動機....................………………........... 1
    1.2研究目的與範圍.....................……………….......... 2
    1.3研究方法與流程...................………………............ 3
    1.3.1研究方法........................…………….……....... 3
    1.3.2研究流程.............…..........…………………..... 4
    第二章、文獻回顧與現況做法介紹................…………….......... 6
    2.1文獻回顧.................................…………………..... 6
    2.1.1電力負載預測................…….......……………. 6
    2.1.2合理備用容量.......………………..................... 6
    2.1.3電力系統機組排程......................…………….. 7
    2.1.4電力系統機組檢修排程...............…………..… 9
    2.2現況做法介紹............................………………...…12
    2.2.1電力系統運轉的目的...................……………. 12
    2.2.2中及長期調度運用計畫................………….... 13
    2.2.3系統經濟調度.......................……………...…. 13
    2.2.4機組大修排程作業..................……………..... 15
    2.3綜合討論...................................…………………...15
    第三章、模式建立...................................…………………….... 17
    3.1模式構建.................................………………….... 17
    3.1.1問題描述..............................……………….... 17
    3.1.2基本假設............................…………………... 18
    3.1.3符號定義............................…………..………. 22
    3.1.4數學定式……………………………………….. 29
    3.1.5模式應用……………………………………….. 38
    3.2求解方法.................................……………….…... 39
    3.2.1求解演算法及LINGO之應用.........………..... 39
    3.2.2模式需求資料.......................……………….... 41
    3.2.3電腦演算環境………………………………..… 41
    3.3 EXCEL建立輸入及輸出程式檔之應用...…........... 41
    3.4小結...................................…………………..….... 42
    第四章、實例測試與敏感度分析........................…………..…... 44
    4.1 實例簡介及資料分析...................……………....... 44
    4.1.1 實例簡介...........................………………....... 44
    4.1.2 資料分析......................……………….……… 44
    4.2 模式發展...................……………...………………. 47
    4.2.1 模式輸入資料....................…………………… 47
    4.2.2 模式輸出資料................…………………....... 50
    4.3 模式測試結果及敏感度分析..…….................…… 51
    4.3.1 測試結果.............................……………….. 51
    4.3.2 參數敏感度分析..................……………...... 53
    第五章、結論及建議...................................……………..….... 59
    5.1結論..............................……………………......... 59
    5.2建議.....................................…………………….. 59
    5.2.1未來研究方向.................……………………59
    5.2.2未來不確定影響因素…………………………60
    參考文獻......................................... 62
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    2.宋清貴,「應用限制條件邏輯規劃法求解發電機組維修排程問題」,碩士論文,國立成功大學,民國八十五年。
    3.呂理綜,「台電電源開發之回顧與展望」,台電工程月刊,第五七三期,第237~269頁,民國八十五年五月。
    4.高孟甫,「遺傳演算法應用於火力機組檢修排程」,碩士論文,國立台灣工業技術學院,民國八十六年。
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    6.張標盛,「台電電力系統之運轉」,台電工程月刊,第五七三期,第188~209頁,民國八十五年五月。
    7.黃啟貞,「電力系統發電機組檢修排程之研究」,博士論文,國立成功大學, 民國八十一年。
    8.黃江滄,「台電電力系統分析與規劃」,台電工程月刊,第五七三期,第165~187頁,民國八十五年五月。
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    11.楊金城,「台電輸變電工程」,台電工程月刊,第五七三期,第132~146頁,民國八十五年五月。
    12.鄭安弘,「台電歷年之核能營運」,台電工程月刊,第五七三期,第98~112頁,民國八十五年五月。
    13.蕭一龍,「台電電力調度控制自動化」,台電工程月刊,第五七三期,第210~236頁,民國八十五年五月。
    14.謝維錦,「台電水力發電廠之營運」,台電工程月刊,第五七三期,第42~48頁,民國八十五年五月。「台電火力發電廠之營運」,台電工程月刊,第五七三期,第49~64頁,民國八十五年五月。
    15.蘇仲清,「電力系統運轉之經濟性與安全性研究」,碩士論文,國立台灣大學,民國七十九年。
    16.台灣電力公司,「全方位溝通業務簡報」,年報,民國八十九年三月。
    17.台灣電力公司,「全方位溝通業務簡報」,年報,民國九十年三月。
    Advisor
  • Shangyao Yan(顏上堯)
  • Files
  • 90332001.pdf
  • approve immediately
    Date of Submission 2003-07-17

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