Use of TG-DSC-MS and Gas Analyzer Data to Investigate the Reaction of CO₂ and SO₂ with Ca(OH)₂ at Low Temperature

Abstract

To investigate the reaction of calcium hydroxide with CO₂ and SO₂ simultaneously, a gas containing both gases reacted with the calcium base at 58 °C and a relative humidity of 55 %. Different CO₂ and SO₂ concentrations were performed being the composition of the gas stream 12, 6 or 0 % CO₂; 5000, 2500, 1000 or 0 ppm SO₂, 9.5 % synthetic air and balanced N₂, with a flue gas rate of 1000 mL/minute. A continuous gas analyzer controlled the CO₂ and SO₂ concentrations in the effluent gas and the breakthrough curves of both gases were obtained. The gas analyzer data show that SO₂ and CO₂ compete to react with the base reacting simultaneously. By using thermogravimetry (TG), differential scanning calorimetry (DSC) and mass spectrometry (MS) techniques, calcium sulphite hemihydrate, CaSO₃.1/2H₂O, was identified as the unique desulfurization product detected. CaSO₄ was not identified although O₂ was present in the gas mixture. CaCO₃ was the main product of the reaction of calcium hydroxide and CO₂ being the complex CaO.CO₂ another possible product synthesized in low amounts. From analyzer data it was proved that a part of the CaCO₃ present in the sorbent or synthesized in the process reacts with the SO₂ and release CO₂. Results of this work show that the combination of continuous gas analyzer data and TG-DSC-MS techniques, not used before to study this reaction, is a good and easy way to clarify the process and the products of reaction.