Simultaneous removal of NO  x   and SO 2  by low-temperature selective catalytic reduction over modified activated carbon catalysts

Ye Liu; Ping Ning; Kai Li; Lihong Tang; Jiming Hao; Xin Song; Guijian Zhang; Chi Wang

doi:10.1134/S003602441703030X

Simultaneous removal of NO_x and SO₂ by low-temperature selective catalytic reduction over modified activated carbon catalysts

Авторы: Liu Y.¹, Ning P.¹, Li K.¹, Tang L.¹, Hao J.¹^,2, Song X.¹, Zhang G.¹, Wang C.¹
Учреждения:
1. Faculty of Environmental Science and Engineering
2. Department of Environmental Science and Engineering
Выпуск: Том 91, № 3 (2017)
Страницы: 490-499
Раздел: Chemical Kinetics and Catalysis
URL: https://journals.rcsi.science/0036-0244/article/view/169326
DOI: https://doi.org/10.1134/S003602441703030X
ID: 169326

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A series of modified porous activated carbon (AC) catalysts prepared by impregnation were investigated for the low-temperature (≤250°C) selective catalytic reduction (SCR) of NO_x with NH₃ with simultaneous removal of SO₂. The effects of various preparation conditions and reaction conditions on NO and SO₂ conversions were observed, such as support type, active components, copper loading, calcination temperature and presence of H₂O and O₂. The modified AC catalysts were characterized by BET, XRD, TG and TPX methods. The activity test results showed that the optimal catalyst is 15% Cu/WCSAC which can provide 52% NO conversion and 68% SO₂ conversion simultaneously at 175°C with a space velocity of 30000 h^‒1, and the optimal calcination temperature was 500°C. The presence of H₂O could inhibit NO conversion and promote the SO₂ conversion. The effect of O₂ (0–5%) was evaluated, and the NO and SO₂ conversions were best when the concentration of O₂ was 3%. Research demonstrated that Cu/WCSAC catalyst was a kind of potential catalysts due to the amorphous phase, high specific areas and high active ability.

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low-temperature, SCR, modified AC, NO_x, SO₂

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Simultaneous removal of NOx and SO2 by low-temperature selective catalytic reduction over modified activated carbon catalysts

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Simultaneous removal of NO_x and SO₂ by low-temperature selective catalytic reduction over modified activated carbon catalysts