WIND POWER FORECASTING USING MACHINE LEARNING IN BHUTAN
DOI:
https://doi.org/10.54417/jaetm.v3i1.110Keywords:
machine learning, forecasting, random forest regression, variables, train and testAbstract
In this research, an approach for predicting wind energy using machine learning has been explored. An indirect method has been adopted. Predicting wind speed at first using the hourly weather data and combining that predicted wind speed with the power curve of considered wind turbine prepared by the companies. This research aims to develop a generalized machine learning based wind power forecasting model for Bhutan. Thus, hourly weather data for the year 2018 and 2019 of 300kW On-grid Wind Farm at Rubesa was used to train the base model. Meanwhile, the trained base model was tested against the weather data sets for the selected sites namely Gaselo and Dagana. A Random Forest Regression machine learning algorithm was used in this research. The developed base model has five input variables which are time, temperature, global horizontal irradiance, relative humidity, and pressure, while the target is wind speed. The R- squared values, Root Mean Square Error (RMSE), and Mean Absolute Error (MAE) for the developed base model were found to be 0.88, 0.40 and 0.30 respectively. Energy output in the wind turbine was calculated via the predicted wind speed and power curve prepared by the wind turbine companies. The calculated energy output could shape the considered theoretical power curve. The power curve considered in the present research is 300kW On-grid Wind Farm at Rubesa, Wangdiphodrang.References
DRE-MOEA, "Renewable Readiness Assessment," 2016.
Z. O. O. Folly and K. A., "Wind energy analysis based on turbine and developed site power curves: a case-study of Darling City," Renewable Energy, vol. 53, pp. 306-318, 2013.
C. Diyoke, "A new approximate capacity factor method for matching wind turbines to a site: case study of Humber region, UK," International Journal of Energy and Environmental Engineering, vol. 10, pp. 451-462, 2019.
A. Khosravi, L. Machado and R. Nunes, "Time-series prediction of wind speed using machine learning algorithms: A case study Osorio wind farm, Brazil," Applied Energy 224, 2018.
Fattal.J, Ezzine.L, Aman.Z, Moussami.E.H and lachhab.A, "Forecasting of Demand Using ARIMA Model," International Journal of Engineering Business Management, 2018.
C.Monteiro, R.Bessa, V.Miranda, A.Botterud, J.Wang and G.Conzelmann, "Wind Power Forecasting: State-of-the-Art," Argonne National Laboratory ANL/DIS-10-1, 2009.
H. Demolli, A. S. Dokuz, A. Ecemis and M. Gokcek, "Wind power forecasting based on daily wind speed data using machine learning algorithms," Energy Conversion and Management, 2019.
M. Yousuf, I.AI-Bahandly and E.Avci, "Current perspective on the accuracy of deterministics wind speed and power forecasting," IEEE Access, 2019.
A. Khosravi, R. Koury, L. Machado and J. Pabon, "Prediction of wind speed and wind direction using artificial neural network, support vector regression and adaptive neuro-fuzzy inference system," Sustainable Energy Technologies and Assessments 25, 2018.
M. Yousuf, I.AI-Bahandly and E.Avci, "Current perspective on the accuracy of deterministics wind speed and power forecasting," IEEE Access, 2019.
T. Khatib, R. Deria and A. Isead, "Assessment of Three Learning Machines for Long-Term Prediction of Wind Energy in Palestine," Mathematical Problems in Engineering, 2020.
A. Geron, Hands-On Machine Learning with Sci-kit Learn and TensorFlow, United State of America, 2017.
Marsland and Stephen, MACHINE LEARNING An Algorithm Prespective, 2015.
A. Chakure, "Random Forest and its Implementation," 29 6 2019. [Online]. Available: https://medium.com/swlh/random-forest-and-its-implementation-71824ced454f.
M. Gokcek and M. Genc, "Evaluation of electricity genration and energy cost of wind energy conversion system (WECSs) in central turkey," Appl. Energy 86, 2009.
C. Carrillo, A. F. Obando Montano, J. Cidras and E. Diaz-Dorado, "Review of power curve modelling for wind turbines," Renewable and Sustainable Energy Reviews, vol. 21, pp. 572-581, 2013.
L. Jung-Pin, C. Yu-ming, C. Chieh_Huang and P. Ping-Feng, "A Survey of Machine Learning Models in Renewable Energy Predicitions," applied sciences MDPI, 2020.
Ahmed, S. K. Mukhiya and Usman, Hands-On Exploratory Data Analysis with Python, India, 2020.
Geron and Aurelien, Hands-On Machine Learning with Sci-kit Learn and TensorFlow, United State of America, 2017.
Sevensson and Morgan, "Short-Term Wind Power Forecasting Using Artifical Neural Network," Sweden, 2015.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2023 Copyright (c) 2021 Journal of Applied Engineering, Technology and Management (JAETM)
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
