Abstract
Predicting the future peak demand growth becomes increasingly important as more consumer loads and electric vehicles (EVs) start connecting to the grid. Accurate forecasts will enable energy suppliers to meet demand more reliably. However, this is a challenging problem since the peak demand is very nonlinear. This study addresses the research question of how deep learning methods, such as convolutional neural networks (CNNs) and long-short term memory (LSTM) can provide better support to these areas. The goal is to build a suitable forecasting model that can accurately predict the peak demand. Several data from 2004 to 2019 was collected from Panama’s power system to validate this study. Input features such as residential consumption and monthly economic index were considered for predicting peak demand. First, we introduced three different CNN architectures which were multivariate CNN, multivariate CNN-LSTM and multihead CNN. These were then benchmarked against LSTM. We found that the CNNs outperformed LSTM, with the multivariate CNN being the best performing model. To validate our initial findings, we then evaluated the robustness of the models against Gaussian noise. We demonstrated that CNNs were far more superior than LSTM and can support spatial-temporal time series data.
Highlights
Electricity plays an important role in modern society
Deep learning is becoming more popular for predicting peak electricity demand, we found that convolutional neural networks (CNNs) have not been explored for this particular problem
Through the multivariate CNN, we found that the input sequence of three previous timesteps consisting of four input features were significant for predicting the month ahead peak demand
Summary
Energy consumption has been continuously growing worldwide, due to steady increase in population, economic growth, and weather factors. This is becoming more evident in developing countries. As consumer patterns change throughout the day and year, power systems are facing more challenges to balance supply and demand in real time, especially during the peak periods when electricity demand is the highest. Modern power systems typically use a balance of expensive peak power plants, small-scale energy storage systems (ESS), and demand response programs to mitigate the peak demand. ESS, especially, are being aggregated in a virtual power plant setting to support the grid during periods of high demand
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