Introduction to Low Temperature Ammonia

What is/are Low Temperature Ammonia?

Low Temperature Ammonia - ABSTRACT To eliminate nitrogen oxides (NOx), composite carrier-supported catalysts (Mn-Ce/MWCNT-W) and traditional catalysts (Mn-Ce/MWCNT and W-Mn-Ce/MWCNT) were prepared using an ultrasonic impregnation method that preformed low-temperature ammonia-selective catalytic reduction (SCR) removal of NOx. ^[1] Manganese (Mn)-based mixed oxides are considered the most efficient catalysts for low-temperature ammonia selective catalytic reduction of nitrogen oxides (NOx) (NH3-SCR of NOx). ^[2] Electrocatalytic conversion of nitrate (NO3-) into ammonia can not only eliminate harmful pollutant but also provide a green method for a low-temperature ammonia synthesis. ^[3] The accelerated acid cycle corresponding to NH3 activation and redox cycle that requires electron transfer between V4+ and V5+ are regarded the two essential factors determining low-temperature ammonia selective catalytic reduction (NH3-SCR). ^[4] In the quest for highly efficient low-temperature ammonia selective catalytic reduction (NH3-SCR) catalysts, the preparation of a series of catalysts (Mnx/SEP) in which manganese oxide is supported in sepiolite (SEP) is described for the first time. ^[5] Ethylenediamine (EDA) was added to modified Pt/SiAl catalyst by co-impregnation method for selective catalytic oxidation of ammonia (NH3-SCO), which for the purpose of optimizing the low-temperature ammonia oxidation activity of Pt/SiAl catalyst. ^[6] In this work, we highlight an additional reason for the lack of a low-temperature ammonia synthesis process: the effect of oxygen poisoning at low temperature. ^[7] In addition, the low-temperature ammonia-assisted reduction treatment is a universal strategy to generate OVs in other TMOs with enhanced performance of photocatalytic hydrogen generation. ^[8]

selective catalytic reduction

ABSTRACT To eliminate nitrogen oxides (NOx), composite carrier-supported catalysts (Mn-Ce/MWCNT-W) and traditional catalysts (Mn-Ce/MWCNT and W-Mn-Ce/MWCNT) were prepared using an ultrasonic impregnation method that preformed low-temperature ammonia-selective catalytic reduction (SCR) removal of NOx. ^[1] Manganese (Mn)-based mixed oxides are considered the most efficient catalysts for low-temperature ammonia selective catalytic reduction of nitrogen oxides (NOx) (NH3-SCR of NOx). ^[2] The accelerated acid cycle corresponding to NH3 activation and redox cycle that requires electron transfer between V4+ and V5+ are regarded the two essential factors determining low-temperature ammonia selective catalytic reduction (NH3-SCR). ^[3] In the quest for highly efficient low-temperature ammonia selective catalytic reduction (NH3-SCR) catalysts, the preparation of a series of catalysts (Mnx/SEP) in which manganese oxide is supported in sepiolite (SEP) is described for the first time. ^[4]