원문정보
초록
영어
Traditional Photovoltaic (PV) mathematical models have advantage of high accuracy, but its characteristics are multi-parameters and non-linear, which makes it difficult to be solved. Obviously, these are not suitable for engineering design since it requires both complexity and accuracy. In this paper, a simplified precision engineering PV mathematical model is proposed based on analysis of double diode PV cells mathematical model, and also gives a parameter calculation method based on Newton-Raphson method. Four different kinds of PV materials and variable resistance parameter characteristics are separately tested under different irradiance and temperature conditions. The results show that the proposed model can quickly and accurately reflect the PV model I-V and P-V characteristics, which has good versatility and sensitivity, and provides strong support for PV system related research.
목차
1. Introduction
2. Analysis of mathematical model and engineering mathematical model
2.1 Double diode PV Cell Mathematical Model
2.2. Engineering Mathematical Model
3. Newton- Raphson Parameter for the Solution of PV Model
2.2 Analysis of PV Array Output Characteristics
4. Sensitivity Test of PV Model Component
4.1 Analysis of Different Materials Effect
4.2 Analysis of Series Resistance Parameters Effect
5. Analysis of PV Engineering Mathematics Model Output Characteristic
5.1 PV Module Output Characteristics under Different Irradiation Intensity
5.2 PV Module Output Characteristics at Different Temperatures
6. Conclusion
Acknowledgements
References