Online monitoring instantaneous 2D temperature distributions in a furnace using acoustic tomography based on frequency division multiplexing

The online and accurate capture of dynamic changes in furnace temperature distribution is crucial for production efficiency improvement and international environmental policy compliance in power plants. To achieve this, a measurement system with a reliable online reconstruction capability and high temporal resolution is necessary. This paper presents a novel technique that can improve the temporal resolution of the currently existing acoustic tomography (AT) system using frequency division multiplexing (FDM). This method allows for concurrent transmissions of acoustic signals in several different frequency bands instead of a sequential manner, which leads to more efficient channel utilization and allows all acoustic signals to be acquired at the same time, so that a better temporal uniformity of multipath acoustic signals can be realized. Theoretical analysis and experiments have been conducted to verify the effectiveness of this technique. The results prove that the proposed method can significantly improve the temporal resolution of the AT system while maintaining the accuracy and robustness of the reconstruction.

Automated summary

This paper presents a novel technique using frequency division multiplexing (FDM) to improve the temporal resolution of the currently existing acoustic tomography (AT) system. The method allows for concurrent transmissions of acoustic signals in different frequency bands, resulting in more efficient channel utilization and better temporal uniformity of multipath acoustic signals. The effectiveness of this technique has been verified through theoretical analysis and experiments, showing significant improvement in the temporal resolution of the AT system while maintaining accuracy and robustness of the reconstruction.