A computationally efficient and accurate forecasting model for highly dynamic electric load patterns of UK electric power grid is proposed and implemented using recurrent neuro-evolutionary algorithms. Cartesian genetic programming is used to find the optimum recurrent structure and network parameters to accurately forecast highly fluctuating load patterns. Fifty different models are trained and tested in diverse set of scenarios to predict single as well as more future instances in advance. The testing results demonstrated that the models are highly accurate as they attained an accuracy of as high as 98.95 %. The models trained to predict single future instances are tested to predict more future instances in advance, obtaining an accuracy of 94 %, thus proving their robustness to predict any time series.