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Prediction and comparison of solar radiation using improved empirical models and Adaptive Neuro-Fuzzy Inference Systems

2017; Elsevier BV; Volume: 106; Linguagem: Inglês

10.1016/j.renene.2017.01.042

1879-0682

Ling Zou, Lunche Wang, Xia Li, Aiwen Lin, Bo Hu, Hongji Zhu,

Energy Load and Power Forecasting

Solar radiation plays an important role in climate change, energy balance and energy applications. In this work, an Adaptive Neuro-Fuzzy Inference Systems (ANFIS) is proposed and compared with Expanded-Improved Bristow-Campbell Model (E-IBCM) and Improved Yang Hybrid Model (IYHM) to predict daily global solar irradiance (Hg) in China. The BCM is expanded by adding meteorological parameters and coefficients calibrated at each station, the YHM is improved by correcting cloud transmittance coefficients at three stations in Hunan province, China. Daily sunshine duration (S), relative humidity (RH), precipitation (Pre), air pressure (AP), daily mean/maximum/minimum temperature (ΔT/Tmax/Tmin) are used as inputs for model development and application, while daily Hg is the only output. Performances of different models are evaluated by Root Mean Square Errors (RMSE), Mean Absolute Errors (MAE) and Coefficient of Determination (R2). The results indicate that the improved empirical models (E-IBCM and IYHM) provides better accuracy than the original models and the ANFIS model is proved to be superior to the E-IBCM and IYHM model in predicting Hg. The statistical results of ANFIS model range 0.59–1.60 MJ m−2 day−1 and 0.42–1.21 MJ m−2 day−1 for RMSE and MAE, respectively. The nonlinear modeling process of ANFIS may contribute to its excellent modeling performance.