废茶活性炭脱硫脱硝性能的应用研究

为探讨废茶活性炭对于SO2和NO脱除作用的制约因素,分别考察了材料孔径结构、石墨化程度及表面结构对其脱硫脱硝性能的影响,同时研究了其吸附机制及动力学过程.结果表明,较高的石墨化程度是影响材料脱硫性能的主要因素,微孔径较小且含氮碱性基团较高时有利于SO2的脱除;发达的中孔结构是制约NO脱除效率的关键因素,含氮碱性基团对NO的脱除具有一定的促进作用;烟气中SO2和NO共存时,材料的脱硫脱硝性能均有所降低,氧气和水蒸气的加入能够改善其脱硫脱硝效率;废茶活性炭在无水环境下对于SO2和NO的吸附作用均以物理吸附为主,水蒸气的存在促进了材料对SO2的化学吸附;通过动力学模型的拟合发现,Bangham吸附模型能够很好地描述材料脱硫脱硝的动力学过程,其R2均高于0.989,材料对于SO2和NO的吸附速率常数均随氧气和水蒸气的加入而减小.

Application of Activated Carbon from Waste Tea in Desulfurization and Denitrification

The effects of pore structure, graphite and surface structure of waste tea activated carbon on its desulfurization and denitrification performance were investigated. The adsorption kinetics and adsorption process were also studied. The results showed that less graphitization, lower micropore size and more nitrogenous basic group of adsorbent enhanced its desulfurization ability. When well-developed mesopores were present in adsorbent, the NO removal efficiency was decreased, while more nitrogenous basic groups promoted the removal rate of NO. When SO₂ and NO were removed together, competing adsorption occurred. After oxygen and steam were introduced to the flue gas, the removal efficiencies of SO₂ and NO were increased. The adsorption of SO₂ and NO onto waste tea activated carbon was physical adsorption without O₂ and H₂O, while the vapor promoted chemical adsorption of SO₂ in the presence of water and oxygen. The adsorption process of the material can be well described by Bangham's kinetic equation, and the value of R² was no less than 0.989. O₂ and water vapor slowed the adsorption rates of SO₂ and NO.