In
order to enhance wet flue gas desulfurization efficiency and
reduce cost, the effects of different series of additives (typical
organic acids, organic salts, inorganic salts, organic amines, and
their mixture) on the desulfurization properties, including pH buffering
characteristics of slurry, dissolution characteristics of CaCO3, oxidation characteristics of CaSO3, desulfurization
efficiency, and economic cost were investigated in this work. The
results show that the pH buffering capacity is sodium benzoate ≈
Na2SO4 > adipic acid > double oxazine.
The dissolution
promoting effect of CaCO3 is acetic acid > double oxazine
≈ sodium acetate > MgSO4. The additives that
can
significantly promote the oxidation of CaSO3 are adipic
acid, citric acid, acetic acid, MgSO4, and Na2SO4. Without an additive, the desulfurization efficiency
of CaCO3 slurry decreased to 85.87% after 4 h. After the
addition of the composite additive (CA-3), the desulfurization efficiency
of CaCO3 slurry remained 96.53% for 4 h, increasing by
10.66%. The main reasons for the enhancement in the desulfurization
process may be a collection of three factors: the reversible hydrolysis
reactions of acetic acid and sodium acetate, the formation of an acid–base
conjugate system by sodium benzoate, and the formation of a neutral
ion pair MgSO3 by MgSO4 in the slurry. In addition,
the composite additive has been used in the Dabie mountain power plant
of China. The economic benefit analysis shows that the desulfurization
unit of 4 × 640 MW coal-fired power plant can save 1.26 million
dollars per year by composite additive.