煤制活性焦性质对其脱除烟道气中二氧化硫性能的影响(英文)

SO_2 REMOVAL FROM FLUE GAS USING ACTIVE COKE FROM COAL

讨论了四种煤制活性焦的性质对其脱除烟道气中SO2 性能的影响。活性焦的表面碱性与微孔面积决定了其对烟道气中SO2 的吸附与氧化。生成的硫酸主要贮存在活性焦的微孔内。活性焦内的硫酸在脱附温度为 30

A series of active cokes produced from Datong coal under the same conditions except activating time had been studied to elucidate the influence of the properties (BET surface area, micropore volume, pore size distribution, ratio of micropore area to total area, surface basicity) of the active coke on its adsorption ability for SO 2 removal from flue gas Furthermore, the desorption processes of the H 2SO 4 loaded active cokes was investigated It is found that surface basicity in the form of meq benzoic acid/m 2 micropore area can evaluate the desulfurization ability of active coke more rightly than in the form of meq benzoic acid/g active coke Active coke adsorbing and oxidizing SO 2 into H 2SO 4 is determined by surface basicity and micropore area Moreover, micropore might be the main place for the storage of formed sulfuric acid The results also further prove that micropore is the main place where SO 2 is adsorbed and oxidized into sulfuric acid in the presence of oxygen and water vapor The desorption process of H 2SO 4 loaded active coke is influenced not only by desorption temperature, but also by its physical and chemical properties The H 2SO 4 adsorbed starts to react with carbon on the surface of active coke at about 210?℃ and reaches its maximum desorption rate at about 300?℃