Significant progress in modeling and simulation techniques has opened the door to accurate descriptions of highly dynamic gas-solid flows. However, such investigations are limited to short durations by enormous computational costs, making long-term numerical experiments on slow processes like heat transfer unfeasible. We employ the potentially groundbreaking new approach recurrence CFD to decouple fast, recurrent dynamics from slower degrees of freedom. This allows us to study heat transfer in lab-scale fluidized beds consisting of about 57000 and 95000 particles (T-p,T-0 = 90 degrees C; T-gas,T-in = 20 degrees C), respectively, at 1/300 of the runtime of conventional CFD-DEM simulations on the same hardware with hardly distinguishable evolutions of particle mean temperatures even after 60 s process time. A detailed performance analysis reveals possible future improvements on the way to industrial-size systems.

• 出版日期2017-11-23