Dynamic loss of load performance of an autonomous self-excited induction generator (seig)
Table Of Contents
Chapter ONE
1.1 Introduction1.2 Background of Study
1.3 Problem Statement
1.4 Objective of Study
1.5 Limitation of Study
1.6 Scope of Study
1.7 Significance of Study
1.8 Structure of the Research
1.9 Definition of Terms
Chapter TWO
2.1 Overview of Autonomous Self-Excited Induction Generator (SEIG)2.2 Principles of SEIG Operation
2.3 Loss of Load Performance in SEIG
2.4 Factors Affecting Dynamic Performance
2.5 Previous Studies on SEIG Performance
2.6 Control Strategies in SEIG
2.7 Modeling and Simulation of SEIG
2.8 Experimental Validation of SEIG Performance
2.9 Comparison with Other Generator Types
2.10 Future Trends in SEIG Technology
Chapter THREE
3.1 Research Methodology Overview3.2 Research Design and Approach
3.3 Data Collection Methods
3.4 Sampling Techniques
3.5 Data Analysis Procedures
3.6 Instrumentation and Tools
3.7 Ethical Considerations
3.8 Validity and Reliability Measures
Chapter FOUR
4.1 Analysis of Data Collected4.2 Interpretation of Results
4.3 Discussion on Loss of Load Performance
4.4 Comparison with Theoretical Expectations
4.5 Impact of Control Strategies
4.6 Factors Influencing Dynamic Performance
4.7 Recommendations for Improvement
4.8 Implications for Future Research
Chapter FIVE
5.1 Summary of Findings5.2 Conclusion
5.3 Contributions to Knowledge
5.4 Practical Implications
5.5 Recommendations for Practice
5.6 Areas for Future Research
Project Abstract
The importance of Self-Excited Induction Generator (SEIG) cannot be neglected when it comes to low cost of maintenance requirement, low cost of operation, low operational cost, high reliability and availability. This dissertation presents a dynamic analysis of an autonomous Self-Excited Induction Generator (SEIG) showing dynamic loss of load performance. Analysis is carried out based of the d-q axis model, while considering the performance characteristics of the machine at constant machine speed, capacitor value and for various power factor loads. The transient surge, its decay and rise on the various machine parameters of phase voltage, phase current, capacitor current and load current are investigated for a gain and subsequent loss of load. The time it takes to excite the machine is also considered for the various power factors on an unloaded condition. The effect of the loading on the frequency, as well as the drop in the value of the monitored parameter is also investigated.
Project Overview
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