Development of a sound-assisted fluidized bed filter/afterburner for particle-laden gas clean-up

The paper reports a preliminary study on the application of sound assisted fluidization for hot gas clean-up, with a focus on the parallel agglomeration/removal of the particulates and afterburning of residual carbon. A 41-mm ID sound-assisted fluidized bed filter/afterburner has been developed and tested in experiments carried out at ambient temperature and at 850 °C. The application of an acoustic field of 140 dB and 120 Hz is able to increase filtration efficiency in terms of bed saturation time and removal of particulate by factors of 2 and 4, respectively. Experiments have been interpreted based on a simplified model which takes into account the role of sound in promoting the interaction between fine particles and coarse bed material.

Graphical abstractThe paper reports a study on the application of sound-assisted fluidization for hot gas clean-up. A 40-mm ID sound-assisted fluidized bed filter/afterburner has been developed and tested up to 850 °C. Application of sound increases bed saturation time and removal of particulate by factors of 2 and 4 respectively. Experiments have been interpreted on the basis of a simplified model.Figure optionsDownload full-size imageDownload as PowerPoint slide