Power infrastructure management requires a consistent power supply. One approach of doing this is predicting the power usage. This requires a variety of elements to be considered such as the environment and the spatial and temporal aspects. These tend to demonstrate a considerable fluctuation in the electrical load pattern depending on the temporal and environmental variables. The primary goal of this research is to develop forecasting models that properly anticipate in predicting the electrical load based on a real and unique dataset of the district energy company (Tubas District Electricity Company - in Palestine). Three machine learning models were used to forecast the electrical loads; namely: (1) Random Forest (RF), (2) XGBoost, and (3) Linear Regression (LR). The models were evaluated, and the RF model was found to achieve the best performance in terms of accuracy. The RF model obtained an R-squared of 87.749%, a Mean Absolute Error (MAE) of 0.03904, and a Mean Square Error (MSE) of 0.00270