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課程名稱 (中文) 電力系統分析
(英文) Power System Analysis
開課單位 電機工程研究所
課程代碼 E5310
授課教師 劉運鴻
學分數 3.0 必/選修 選修 開課年級 研究所
先修科目或先備能力:Introduction of Electric Machinery, Introduction of Power system(1)
課程概述與目標: 1.Introduction
2.Purposes of power flow analysis
3.Numerical methods for power flow analysis
4.Various kinds of power flow
5.Procedure of performming the power flow analysis
6.How to calculate ATC
7.Deregulation of power industry
8.Ancillary services and their cost allocation
This course will help students to be capable of conducting a power system analysis independently and to have the basic knowledge of revolution in modern power industry.
教科書 Handouts and notes
課程大綱 學生學習目標 單元學習活動 學習成效評量 備註
單元主題 內容綱要
1 Introduction 1.Fundamentals
2.Purposes and applications of power flow analysis
1.Fundamentals
2.Purposes and applications of power flow analysis
 
2 Introduction 1.Fundamentals
2.Purposes and applications of power flow analysis
1.Fundamentals
2.Purposes and applications of power flow analysis
 
3 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
4 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
5 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
6 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
7 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
8 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
9 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
10 Power Flow 1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
1.Y-bus matrix
2.Bus type
3.Power flow over transmission line
4.Gauss and Gauss-Seidel Y-bus method
5.Gauss and Gauss-Seidel Z-bus method
6.Newton-Ralphson Method
7.Decoupled & fast decoupled load flow
 
11 Three-phase load flow 1.Three-phase load flow
2.Applications of 3-phase load flow
1.Three-phase load flow
2.Applications of 3-phase load flow
 
12 other topics of load flow analysis 1.Load models
2.Optimal ordering
1.Load models
2.Optimal ordering
 
13 Procedure of case study 1. Data collection
2.Determine base case
3.Simulations
4.Justification
1. Data collection
2.Determine base case
3.Simulations
4.Justification
 
14 Procedure of case study 1. Data collection
2.Determine base case
3.Simulations
4.Justification
1. Data collection
2.Determine base case
3.Simulations
4.Justification
 
15 Procedure of case study 1. Data collection
2.Determine base case
3.Simulations
4.Justification
1. Data collection
2.Determine base case
3.Simulations
4.Justification
 
16 Deregulation of power industry 1.Liberalization of power industry.
2.Power market
3.ATC
4.Ancillary services
1.Liberalization of power industry.
2.Power market
3.ATC
4.Ancillary services
 
17 Deregulation of power industry 1.Liberalization of power industry.
2.Power market
3.ATC
4.Ancillary services
1.Liberalization of power industry.
2.Power market
3.ATC
4.Ancillary services
 
18 Deregulation of power industry 1.Liberalization of power industry.
2.Power market
3.ATC
4.Ancillary services
1.Liberalization of power industry.
2.Power market
3.ATC
4.Ancillary services
 

教學要點概述:
教材編選: ■ 自編教材 □ 教科書作者提供
評量方法: 期末考:20%   期中考:20%   其他評量:40%   平時考:20%  
教學資源: ■ 教材電子檔 □ 課程網站
扣考規定:http://eboard.ttu.edu.tw/ttuwebpost/showcontent-news.php?id=504

研究所
核心能力 期末考 期中考 其他評量 平時考
核心能力一 電機通訊相關領域之專業知識。 3/10 3 3 3 3
核心能力二 策劃及執行專題研究之能力。 2/10 2 2 2 2
核心能力四 創新思考及獨立解決問題之能力。 3/10 3 3 3 3
核心能力六 良好的國際觀。 1/10 1 1 1 1
核心能力八 終身自我學習成長之能力。 1/10 1 1 1 1