2023 AIChE Annual Meeting
(303m) Heat Transfer and Flow Characteristics in Internally Circulating Fluidized Bed Lab-Scale and Pilot Scale Facilities
Authors
Shungo Hashioka - Presenter, Ebara Environmental Plant CO. Ltd.
Takahiro Oishi, National Institute of Technology, Kochi College
Yutaka Asako, Tokyo Metropolitan University
Tetsuo Takeuchi, Ebara Environmental Plant CO. Ltd.
Hirokazu Kajiwara, Ebara Environmental Plant CO. Ltd.
Mikiya Watanabe, Ebara Environmental Plant CO. Ltd.
Heat transfer on a horizontal heat transfer tube is investigated in internally circulating fluidized beds(ICFB®). Experiments were carried out both in lab-scale and pilot scale facilities. Heat transfer results are compared with results of PIV (Particle Image Velocimetry) analysis of particle movement around heated tube surfaces. In the circulating bed, the heat transfer coefficient was found to be lower than in a bubbling or turbulent fluidized bed. This can be explained from the PIV results which show that the degree of deterioration depends on the movement of particles around the heat transfer tube. Trends and values of heat transfer coefficient were almost the same for the lab-scale and pilot-scale facilities. The results indicate reasonable agreement between the lab-scale and pilot-scale facilities.