凹凸棒石负载锰氧化物低温选择性催化还原催化剂的表征及对氨的吸脱附

催化学报 , 2010, 31(4): 454-460. doi: 10.3724/SP.J.1088.2010.91001

凹凸棒石负载锰氧化物低温选择性催化还原催化剂的表征及对氨的吸脱附

李金虎 ^1, , 张先龙 ^2, , 陈天虎 ^3, , 刘海波 ^4, , 施培超 ^5,

1.合肥工业大学资源与环境工程学院,安徽合肥230009

2.合肥工业大学化学工程学院,安徽合肥230009

3.合肥工业大学资源与环境工程学院,安徽合肥230009

4.合肥工业大学资源与环境工程学院,安徽合肥230009

5.合肥工业大学资源与环境工程学院,安徽合肥230009

基金项目: 高等学校博士学科点专项科研新教师基金(20090111120019) 国家自然科学基金(40902020;50774027) 国家高科技发展计划(863计划)(2007AA06Z118)

关键词：凹凸棒石 , 锰氧化物 , 低温选择性催化还原 , 氨吸脱附

Characterization and Ammonia Adsorption-Desorption of Palygorskite-Supported Manganese Oxide as a Low-Temperature Selective Catalytic Reduction Catalyst

LI Jinhu ^1, , ZHANG Xianlong ^2, , CHEN Tianhu ^3, , LIU Haibo ^4, , SHI Peichao ^5,

1.合肥工业大学资源与环境工程学院,安徽合肥230009

2.合肥工业大学化学工程学院,安徽合肥230009

3.合肥工业大学资源与环境工程学院,安徽合肥230009

4.合肥工业大学资源与环境工程学院,安徽合肥230009

5.合肥工业大学资源与环境工程学院,安徽合肥230009

Keywords： palygorskite , manganese oxide , low-temperature selective catalytic reduction , ammonia adsorption-desorption

以非均相沉淀法制备了凹凸棒石(PG)载体上负载锰氧化物催化剂Mn/PG,并用于低温选择性催化还原法(SCR)脱硝反应.采用X射线衍射、透射电子显微镜和H_2-程序升温还原方法对催化剂进行了表征;通过NH_3吸脱附实验考察了催化剂的锰负载量和煅烧温度对NH_3吸附和脱附量及吸附位的影响.结果表明,锰氧化物高度分散于PG晶体表面,其存在状态取决于催化剂煅烧温度.煅烧温度低于550℃,锰氧化物为Mn_2O_3和Mn_3O_4,煅烧温度为550℃时,锰氧化物为Mn_3O_4.NH_3主要吸附在PG载体上,锰氧化物的担载基本不影响催化剂吸附NH_3的能力,但促进了吸附NH_3的活化,这是催化剂SCR活性显著增加的直接原因.

A Mn/palygorskite catalyst for low-temperature selective catalytic reduction (SCR) of NO by NH_3 was prepared by heterogeneous co-precipitation followed by drying and calcination. NH_3 adsorption capacity of the catalyst, which is generally considered to be a key property of SCR catalysts, was investigated by experiments of ammonia adsorption and temperature-programmed desorption (TPD). Physico-chemical properties of the catalyst were characterized by X-ray diffraction, transmission electron microscopy, temperature-programmed reduction in H_2. The results showed that manganese oxides are highly dispersed on the surface of the palygorskite support. The surface manganese species exist as Mn_2O_3 and Mn_3O_4 at calcination temperature lower than 550 ℃ and as Mn_3O_4at 550 ℃. Adsorption of ammonia on the catalyst occurs mainly on the palygorskite support. The manganese oxide loading does not promote the NH_3 adsorption on the catalyst but increases the activation of the adsorbed NH_3. This is the main reason for the remarkable increase in catalytic activity of the palygor-skite-based catalyst.

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