REFERENCES
- Chen , H. , Ge , H. , Dou , B. , Pan , W. and Zhou , G. 2009 . Thermogravimetric kinetics of MgSO3 · 6H2O byproduct from magnesia wet flue gas desulfurization . Energy Fuels , 23 : 2252 – 2256 .
- Dou , B. , Pan , W. , Jin , Q. , Wang , W. and Li , Y. 2009 . Prediction of SO2 removal efficiency for wet flue gas desulfurization . Energy Convers. Manage. , 50 : 2547 – 2553 .
- Gao , X. , Guo , R. , Ding , H. , Luo , Z. and Cen , K. 2009 . Dissolution rate of limestone for wet flue gas desulfurization in the presence of sulfite . J. Hazard. Mater. , 168 : 1059 – 1064 .
- Guo , R. , Pan , W. , Zhang , X. , Xu , H. and Ren , J. 2011 . Dissolution rate of magnesium hydrate for wet flue gas desulfurization . Fuel , 90 : 7 – 10 .
- Kallinikos , L. E. , Farsari , E. I. , Spartinos , D. N. and Papayannakos , N. G. 2010 . Simulation of the operation of an industrial wet flue gas desulfurization system . Fuel Process. Technol. , 91 : 1794 – 1802 .
- Siagi , Z. O. and Mbarawa , M. 2009 . Dissolution rate of South African calcium-based materials at constant pH . J. Hazard. Mater. , 163 : 678 – 682 .
- Yang , L. , Jin , B. , Yan , J. , Liu , J. , Song , S. and Fan , F. 2010 . Removal of fine particles in wet flue gas desulfurization system by heterogeneous condensation . Chem. Eng. J. , 158 : 25 – 32 .