Plastic
|
1410 |
144.5; 99.5 |
0.25; 0.0625 |
Glicksman et al. (1993)Glicksman, L. R., Hyre, M. R., Westphalen, D., Verification of scaling relations for circulating fluidized beds. Proc. of 12th Int. Conf. on Fluidized Bed Combustion, 69-80 (1993).
|
1440 |
136 |
- |
Bricout and Louge (2004)Bricout, V., Louge, M. Y., A verification of Glicksman's reduced scaling under conditions analogous to pressurized circulating fluidization. Chemical Engineering Science, 59, 2633-2638 (2004).
|
FCC
|
1500 |
67 |
- |
Qi et al. (2008)Qi, X., Zhu, J., Huang, W., Hydrodynamic similarity in circulating fluidized bed risers. Chemical Engineering and Science, 63, 5613-5625 (2008).
|
FCC Catalyst
|
1780 |
46.4 |
0.25 |
Horio (1996)Horio, M., Hydrodynamics. Chapter 2, In: Circulating Fluidized Beds, Edited by Grace, J. R., Knowlton, T. M., Avidan, A. A, Blackie Academic and Professional (1996).
|
Sand
|
2368 |
125 |
0.17 |
Kolar and Leckner (2006)Kolar, A. K., Leckner, B., Scaling of CFB boiler hydrodynamics. Proc. of the 1st National Conference on Advances in Energy Research (AER 2006), Mumbai, 34-40 (2006).
|
2710 |
461 |
- |
Qi et al. (2008)Qi, X., Zhu, J., Huang, W., Hydrodynamic similarity in circulating fluidized bed risers. Chemical Engineering and Science, 63, 5613-5625 (2008).
|
Glass beads
|
2500 |
71.4 |
0.05 |
Mirek (2011)Mirek, P., Ziaja, J., The influence of sampling point on solids suspension density applied in scaling of the hydrodynamics of a supercritical CFB boiler. Chemical and Process Engineering, 32(4), 391-399 (2011).
|
2530 |
97 |
- |
Bricout and Louge (2004)Bricout, V., Louge, M. Y., A verification of Glicksman's reduced scaling under conditions analogous to pressurized circulating fluidization. Chemical Engineering Science, 59, 2633-2638 (2004).
|
2558 |
81.6; 88.3; 112.3; 78.7 |
0.25; 0.0625 |
Glicksman et al. (1993)Glicksman, L. R., Hyre, M., Woloshum, K., Simplified scaling relationships for fluidized beds. Powder Technology, 77, 177-199 (1993).
|
Iron
|
7860 |
56 |
0.11 |
Leckner et al. (2011)Leckner, B., Szentannai, P., Winter, F., Scale-up of fluidized-bed combustion-A review. Fuel, 90, 2951-2964 (2011).
|
Steel
|
8027 |
46 |
0.11 |
Leckner et al. (2011)Leckner, B., Szentannai, P., Winter, F., Scale-up of fluidized-bed combustion-A review. Fuel, 90, 2951-2964 (2011).
|
8097 |
200 |
0.25 |
Glicksman et al. (1987)Glicksman, L. R., Yule, T., Dyrness, A., Carson, R., Scaling the hydrodynamics of fluidized bed combustors with cold models: Experimental confirmation. Proc. of 9th Int. Conf. on Fluidized Bed Combustors, 511-514 (1987).
|
7300 |
58; 49.5 |
0.25; 0.0625 |
Glicksman et al. (1993)Glicksman, L. R., Hyre, M., Woloshum, K., Simplified scaling relationships for fluidized beds. Powder Technology, 77, 177-199 (1993).
|
Bronze
|
8563 |
73.4; 69.5 |
0.17 |
Kolar and Leckner (2006)Kolar, A. K., Leckner, B., Scaling of CFB boiler hydrodynamics. Proc. of the 1st National Conference on Advances in Energy Research (AER 2006), Mumbai, 34-40 (2006).
|
8800 |
60 |
0.11 |
Sterneus et al. (2002)Sterneus, J., Johnsson, F., Leckner, B., Characteristics of gas mixing in a circulating fluidised bed. Powder Technology, 126, 28-41 (2002).
|