Abstract
The hot cyclones in circulating fluidized bed (CFB) boilers often face the problems of high heat dissipation and high wall temperature in the operation, which may decrease the strength of the steel layer and present a danger to workers. To solve these problems, the heat dissipation characteristics through the cyclone wall and the key parameters of this process need to be known. In this study, a numerical simulation was conducted to estimate the wall temperature field of a hot cyclone in a 440 t/h CFB boiler. The effects of the Y-shape stud arrangement and the outer insulating layer on the heat flux and the wall temperature were qualitatively and also quantitatively analyzed. It was found that the Y-shape stud does enhance the heat dissipation of the cyclone wall. A denser Y-shape stud arrangement results in higher temperatures of the steel layer and also the outer surface. Moreover, the heat flux of the inner surface, the maximum temperature of the steel layer, and the outer surface are all well linear with the stud number. However, how the studs arrange on the steel layer has very sight effects on the heat flux and wall temperature at a certain stud number. Adding an insulating layer on the outer wall surface can reduce the heat dissipating capacity of the hot cyclone and also decrease the outer surface temperature. The effects of Y-shape studs on the heat dissipation and wall temperature are also weakened. While the outer insulating layer results in a rapid increase of the steel layer temperature, which may bring extra risk to the cyclone wall. Based on the simulation results, reducing the unnecessary studs and covering an insulating layer thinner than 20 mm are suggested.
NSTL
Elsevier