剛果能源基礎設施建設及建立FACTS系統(tǒng)和電表預付費的建議
發(fā)布時間:2021-07-08 19:46
目前剛果(布)的年發(fā)電能力僅為30萬千瓦,而市場需求卻超過了60萬kW,電力供應不足已成為制約剛果(布)經濟發(fā)展的主要因素。這促使我思考如何構建剛果(布)的電力生產和供應,為剛果提供最佳電力調節(jié)方案,從而使我們能夠順利實現電力輸送及管理。論文首先對剛果(布)的電力工業(yè)發(fā)展歷史和現狀進行了介紹和分析,指出電能質量問題和電費計量問題是制約剛果(布)電力供應的兩大難題。為了改進剛果(布)電力供應中所面臨的電能質量欠佳問題,提出在剛果電網中應采用柔性交流輸電技術(Flexible AC Transmission Systems,FACTs)。本文詳細介紹了目前常用的FACTs的主要技術和設備,并進一步比較了在剛果(布)電網不同安裝位置和不同安裝方式對電網無功補償的影響,得出了建議方案。對于電費計量問題,提出采用安裝預付費電表的方式予以解決,并探討了其具體實施方案。
【文章來源】:華僑大學福建省
【文章頁數】:61 頁
【學位級別】:碩士
【文章目錄】:
摘要
abstract
Abbreviations list
Chapter1 Introduction
1.1 Overview
1.2 The Problem statement
1.3 Motivation
1.4 Dissertation outline
Chapter2 Literature review
2.1 Reactive power and reactive power compensation
2.1.1 Reactive power and its importance
2.1.2 Power factor and power balance
2.1.3 Transport of active and reactive power
2.2 Traditional compensation method
2.2.1 Traditional shunt compensation
2.2.2 Traditional series compensation
2.3 FACTs and Traditional compensation method
2.3.1 Definition of FACTs
2.3.2 Classification of FACTs device
2.3.3 Role of FACTs device
2.4 Parallel compensators
2.4.1 SVC Static reactive power compensator
2.4.2 STATCOM Synchronous static compensator
2.5 Series compensators
2.5.1 TSSC Series compensator switched by thyristor
2.5.2 Serial compensator controlled by thyristor(TCSC)
2.5.3 SSSC Synchronous serial compensator
2.6 Hybrid compensators
2.6.1 Universal power transit controller(UPFC)
2.6.2 Phase shift transformer controlled by thyristor(TCPST)
2.7 Conclusions
Chapter3 The situation and development of SNE in Congo-Brazzaville
3.1 History of the SNE
3.2 Legal and institutional status
3.3 MISSION OF THE SNE
3.4 INFRASTRUCTURE
Chapter4 Proposal for the Congo-Brazzaville energy Infrastructure
4.1 Presentation of the energy infrastructure of Congo-Brazzaville
4.2 objectives
4.3 Generation planning
4.4 Distribution planning
Chapter5 Research on SVC compensation of Congo-Brazzaville’s powergrid
5.1 Introduction of SVC
5.1.1 Definition of SVC
5.1.2 Control method SVC
5.2 Research on the installation position of SVC
5.2.1 SVC placed in a power grid’s node
5.2.2 SVC placed in the middle of a power transmission line
5.3 Conclusion
Chapter6 Structure analysis and energy measurement of Congo-Brazzavillepower grid
6.1 Current situation of Congo-Brazzaville power grid
6.1.1 Electricity network for production and transport
6.1.2 Electricity distribution network of the city of Brazzaville
6.1.3 Problematic
6.2 Organizational issues and Network reliability
6.2.1 Organizational issues
6.2.2 Problematic Techniques
6.2.3 Network reliability
6.3 Improvement strategy
6.3.1 Methodology and State of play
6.3.2 Data gathering
6.3.3 Data analysis
6.4 Rehabilitation and Modernization of distribution Net work
Chapter7 Conclusion and future work
7.1 Conclusion
7.2 Future work
Acknowledgement
BIBLIOGRAPHY /REFERENCE
本文編號:3272220
【文章來源】:華僑大學福建省
【文章頁數】:61 頁
【學位級別】:碩士
【文章目錄】:
摘要
abstract
Abbreviations list
Chapter1 Introduction
1.1 Overview
1.2 The Problem statement
1.3 Motivation
1.4 Dissertation outline
Chapter2 Literature review
2.1 Reactive power and reactive power compensation
2.1.1 Reactive power and its importance
2.1.2 Power factor and power balance
2.1.3 Transport of active and reactive power
2.2 Traditional compensation method
2.2.1 Traditional shunt compensation
2.2.2 Traditional series compensation
2.3 FACTs and Traditional compensation method
2.3.1 Definition of FACTs
2.3.2 Classification of FACTs device
2.3.3 Role of FACTs device
2.4 Parallel compensators
2.4.1 SVC Static reactive power compensator
2.4.2 STATCOM Synchronous static compensator
2.5 Series compensators
2.5.1 TSSC Series compensator switched by thyristor
2.5.2 Serial compensator controlled by thyristor(TCSC)
2.5.3 SSSC Synchronous serial compensator
2.6 Hybrid compensators
2.6.1 Universal power transit controller(UPFC)
2.6.2 Phase shift transformer controlled by thyristor(TCPST)
2.7 Conclusions
Chapter3 The situation and development of SNE in Congo-Brazzaville
3.1 History of the SNE
3.2 Legal and institutional status
3.3 MISSION OF THE SNE
3.4 INFRASTRUCTURE
Chapter4 Proposal for the Congo-Brazzaville energy Infrastructure
4.1 Presentation of the energy infrastructure of Congo-Brazzaville
4.2 objectives
4.3 Generation planning
4.4 Distribution planning
Chapter5 Research on SVC compensation of Congo-Brazzaville’s powergrid
5.1 Introduction of SVC
5.1.1 Definition of SVC
5.1.2 Control method SVC
5.2 Research on the installation position of SVC
5.2.1 SVC placed in a power grid’s node
5.2.2 SVC placed in the middle of a power transmission line
5.3 Conclusion
Chapter6 Structure analysis and energy measurement of Congo-Brazzavillepower grid
6.1 Current situation of Congo-Brazzaville power grid
6.1.1 Electricity network for production and transport
6.1.2 Electricity distribution network of the city of Brazzaville
6.1.3 Problematic
6.2 Organizational issues and Network reliability
6.2.1 Organizational issues
6.2.2 Problematic Techniques
6.2.3 Network reliability
6.3 Improvement strategy
6.3.1 Methodology and State of play
6.3.2 Data gathering
6.3.3 Data analysis
6.4 Rehabilitation and Modernization of distribution Net work
Chapter7 Conclusion and future work
7.1 Conclusion
7.2 Future work
Acknowledgement
BIBLIOGRAPHY /REFERENCE
本文編號:3272220
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