Abstract: The present invention relates to a field of control of nitrogen oxide pollution, and involves a high-efficient catalyst for denitration at low temperature and preparation method thereof, which comprises the steps: (1) preparing aqueous solution of cerium nitrate; (2) soaking mesoporous silica materials SBA-15 with aqueous solution from step (1), after stirring, filtrating, washing and drying; (3) calcining materials from step (2) to obtain evenly dispersed CeO2-SBA-15 materials; (4) preparing ethanol solution of manganese nitrate; (5) soaking CeO2-SBA-15 materials from step (3) with ethanol solution of manganese nitrate from step (4) and volatilizing ethanol, washing and drying; (6) calcining materials from step (5) to obtain evenly distributed MnxOy/CeO2-SBA-15 catalyst for denitration; The preparation method has simple process with lower cost, and the obtained MnxOy/CeO2-SBA-15 catalyst has uniform and ordered pores, large specific area, narrow pore size distribution, well dispersity of catalytic components

Abstract: Mesoporous ternary composite materials and a corresponding preparation method are described herein. The method includes the following steps: (1) adding hydrochloric acid and acetic acid into an ethanol solution to prepare a dissolving system; (2) adding a surfactant into the dissolving system and fully stirring for dissolution; (3) adding copper nitrate, manganese nitrate solution and tetrabutyl titanate into the mixed liquid obtained from step (2) and evenly stirring; (4) transferring the mixture obtained from step (3) into petri dishes and obtaining transparent films after drying; and (5) calcinating the transparent films to obtain mesoporous ternary composite materials. The materials prepared are ordered mesoporous materials with high specific surface areas and high dispersion degree of every component.

Abstract: A honeycomb denitration catalyst used for flue gas at 400° C.-600° C. and preparation method thereof. The honeycomb denitration catalyst includes a catalyst coating and a honeycomb ceramic, where a slurry of the catalyst coating is made from components having the following mass percentages: 15%-25% of a zeolite, 5%-10% of a ?-alumina, 5%-10% of a catalyst auxiliary agent, 5% of a binder, and 50%-70% of deionized water. The honeycomb ceramic is soaked repeatedly into the slurry of the catalyst coating. After the soaking is completed, the obtained product is dried and calcined to obtain the honeycomb denitration catalyst. The honeycomb denitration catalyst contains a catalyst auxiliary agent and has excellent denitration activity at high temperatures, sulphur-resistance and water-tolerance ability, stability and NOx removing ability.

Abstract: Mesoporous ternary composite materials and a corresponding preparation method are described herein. The method includes the following steps: (1) adding hydrochloric acid and acetic acid into an ethanol solution to prepare a dissolving system; (2) adding a surfactant into the dissolving system and fully stirring for dissolution; (3) adding copper nitrate, manganese nitrate solution and tetrabutyl titanate into the mixed liquid obtained from step (2) and evenly stirring ; (4) transferring the mixture obtained from step (3) into petri dishes and obtaining transparent films after drying; and (5) calcinating the transparent films to obtain mesoporous ternary composite materials. The materials prepared are ordered mesoporous materials with high specific surface areas and high dispersion degree of every component.

Abstract: The present invention relates to a field of control of nitrogen oxide pollution, and involves a high-efficient catalyst for denitration at low temperature and preparation method thereof, which comprises the steps: (1) preparing aqueous solution of cerium nitrate; (2) soaking mesoporous silica materials SBA-15 with aqueous solution from step (1), after stirring, filtrating, washing and drying; (3) calcining materials from step (2) to obtain evenly dispersed CeO2-SBA-15 materials; (4) preparing ethanol solution of manganese nitrate; (5) soaking CeO2-SBA-15 materials from step (3) with ethanol solution of manganese nitrate from step (4) and volatilizing ethanol, washing and drying; (6) calcining materials from step (5) to obtain evenly distributed MnxOy/CeO2-SBA-15 catalyst for denitration; The preparation method has simple process with lower cost, and the obtained MnxOy/CeO2-SBA-15 catalyst has uniform and ordered pores, large specific area, narrow pore size distribution, well dispersity of catalytic components