ABSTRACT Calcination is the second step in a washing-calcination-conversion system in which treated municipal solid waste incinerator fly ash and bottom ash can be reused as raw material in the cement industry and can decompose or stabilize hazardous compounds, reduce residue amounts, and alter residue characteristics. In this research, only fly ash is discussed. Chloride reduction is important if treated fly ash is to be reused in cement; however, the relationship between washed fly ash properties and chloride reduction by calcination is not well understood. This study used washed residues of three types of fly ash—raw fly ash (RFA) from the boiler or economizer of an incineration system, fly ash collected in a bag filter injected with calcium hydroxide (Ca(OH)2) for acid removal (CaFA), and fly ash collected in a bag filter injected with sodium bicarbonate (NaHCO3) for acid removal (NaFA)—in calcination experiments with varying temperature (400–1100 °C) and atmosphere (100% nitrogen [N2] at 25 mL/min or 10% oxygen [O2] [90% N2] at fluxes of 25, 50, and 75 mL/min). From the perspective of chloride reduction, heating to 1000 °C with 1-hr heating time, 1-hr holding time, and an atmosphere of 10% O2/90% N2 was most suitable for calcination. Under these conditions, chloride levels were reduced by 91, 52, and 96% in washed residues of RFA, CaFA, and NaFA, respectively. Among the washed residues, the weight of the washed residue of NaFA decreased the most. IMPLICATIONS This research presents the reduction of chlorine and washing of three kinds of fly ash (RFA, CaFA and NaFA) during the calcination process. By comparing the results of those fly ashes, it is shown that NaHCO3 is better than Ca(OH)2 as a neutralization reagent to treat exhaust gas from an incineration chamber because chlorine is more easily eliminated from NaFA than from CaFA. The reduction of other elements is also presented, as well as the X-ray diffraction analysis of some samples by which the mechanism of the calcination process is analyzed.