Simulation of a pebble-bed heat regenerator

A mathematical model to simulate the operational behaviour of a pebble-bed heat regenerator has been developed, and an experimental study performed to test the model predictions. The model is based on "nite heat balances for the solid and the #uid applied to a bed which is divided into several sections insulated from each other. Within each section, there is no radial or axial temperature gradient, i.e. the temperature of all the pebbles in a given section are the same. As the #uid stream #ows through the idealized compartmented bed, there is heat exchange in each section between the pebbles and the #uid. The model, which is applicable both to the heating and cooling cycles, has been used to simulate the behaviour of a heat regenerator. To test the predictions of the model, experiments have been performed on a 7 ft by 8 in cylindrical column using a hot air stream of approximately 200 3C at an average #ow rate of 365 l min. A special technique, wherein a pebble is "xed to a thermocouple, was used to measure the temperature at di!erent bed positions. Experimental conditions were such that interesting results have been generated. The model was able to predict with good accuracy all the unusual operational behaviour encountered. The deviations between the model and the experimental results can be explained by the fact that the model does not consider heat loss from the column wall.