研究目的
To present a new, simple, and efficient method for constructing the I-V characteristics for a PV cell incorporating the environmental conditions.
研究成果
The proposed model is efficient under different environmental conditions, proving its applicability for both current calculation methods without a significant advantage of one over the other. The model mitigates possible I-V measurement errors since it relies on surface fitting.
研究不足
Accurate modelling requires a large number of measured I-V curves at a wide range of irradiance conditions and temperatures. The proposed modelling method best performance is within the ranges of the measurements environmental conditions used for constructing the model.
1:Experimental Design and Method Selection:
The model is based on dividing the voltage axis of the solar cell I-V characteristics using a fixed time interval. For each voltage interval point, a two-dimensional current matrix is calculated, corresponding to different irradiance conditions and temperatures. Polynomial surface fitting is used to build sub-models for each voltage interval.
2:Sample Selection and Data Sources:
I-V curves measurement under irradiance range of 200 W/m2 – 1200 W/m2 and temperature range of 10 °C – 85 °C, for a mono-crystalline cell from previous laboratory measurements.
3:List of Experimental Equipment and Materials:
Not explicitly mentioned.
4:Experimental Procedures and Operational Workflow:
The current two-dimensional matrix, for each point, is calculated by two different methods: linear interpolation of the measured I-V curves and using pre-extracted five parameters for the single diode model.
5:Data Analysis Methods:
Polynomial surface fitting is used to build sub-models for each voltage interval.
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