Fe
2+
complexation wet denitrification technology
has
become a research hotspot. It is very important to achieve efficient
regeneration of the absorbent and increase NO absorption in the Fe
2+
complexation system. They are the key to the industrial
application of the Fe
2+
complexation absorption process.
In this paper, 2-phosphonate-butane-1,2,4-tricarboxylic acid and ethylenediamine
tetraacetic acid were used as ligands to prepare a composite system
for the first time. The characteristics of NO removal were investigated
under different temperatures, pHs, Fe
2+
concentrations,
O
2
contents, NO concentrations, CO
2
contents,
and SO
2
concentrations. Compared with the single ligand,
the results show that the denitrification performance of the solution
with a complex ligand is significantly improved. In this system, pH
9, 40 °C temperature, and 20 mmol/L Fe
2+
concentration
are the economic ideal conditions for NO removal. The system can realize
simultaneous removal of NO and SO
2
, but SO
2
in
flue gas has a dual effect on the NO removal reaction.
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