声明
摘要
Abstract
Table of Contents
List of Figures
List of Tables
CHAPTER 1:INTRODUCTION TO ENERGY STORAGE
1.1 Background and Significance
1.2 Literature Review of Grid-Tied PV Systems
1.2.1 PV Self-Consumption Optimization
1.2.2 Demand-load Shifting Using Battery Storage
1.2.3 Combination of PV Self-Consumption and Load Shifting
1.3 Research Trends and Developments in Renewable Energy
1.4 Thesis Objective
1.5 Research Methods for Grid-tied Battery Systems
1.5.2 Method 1-AC Coupling
1.5.3 Method 2-DC coupling
1.6 Grid-tied Battery System Algorithm Flowchart
CHAPTER 2:CLASSIFICATION OF ENERGY STORAGE
2.1 Battery Management System
2.2 The Battery Composition and Characteristics
2.2.1 Lead-acid Battery
2.2.2 Lithium-ion Battery
2.2.3 Sodium Sulphur Battery(NaS)
2.2.4 Redox Flow Battery(RFB)
CHAPTER 3:SIZING AND DESIGNING GRID TIED BATTERY SYSTEM
3.1 Determining the Monthly Electric Load
3.1.1 Loads Analysis Calculation
3.2 Sizing the Appropriate Battery Bank
3.2.1 Battery Calculation and Selection
3.3 Sizing the Solar Array
3.3.1 PV Array Calculation and Selection
3.4 Sizing the Charge Controller
3.4.1 Charge Controller Calculation and Selection
3.5 Determining the Grid-tied Inverter
3.5.1 Inverter Caleulation and Selection
CHAPTER 4:SIMULATION RESULTS OF THE GIUD TIED BATTERY SYSTEM
4.2 Annual Load Profile Distribution
4.2.1 Peak Shaving Utilization
4.3 Battery Charge and Discharge Dispatch Times
4.4 Battery Performance Upon Charging
4.4.1 Battery Round Trip Efficiency
4.5 PV Islanding and Frequency Control
CHAPTER 5:CONCLUSION
REFERENCES
ACKNOWLEDGEMENT
DEDICATION
PUBLICATION