Pilot-scale evaluation of a novel TiO2-supported V2O5 catalyst for DeNOx at low temperatures at a waste incinerator

Authors
Jung, HyoundukPark, EunseukKim, MinsuJurng, Jongsoo
Issue Date
2017-03
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Citation
WASTE MANAGEMENT, v.61, pp.283 - 287
Abstract
The removal of NOx by catalytic technology at low temperatures is significant for treatment of flue gas in waste incineration plants, especially at temperatures below 200 degrees C. A novel highly active TiO2-supported vanadium oxide catalyst at low temperatures (200-250 degrees C) has been developed for the selective catalytic reduction (SCR) de-NOx process with ammonia. The catalyst was evaluated in a pilot-scale equipment, and the results were compared with those obtained in our previous work using laboratory scale (small volume test) equipment as well as bench-scale laboratory equipment. In the present work, we have performed our experiments in pilot scale equipment using a part of effluent flue gas that was obtained from flue gas cleaning equipment in a full-scale waste incineration plant in South Korea. Based on our previous work, we have prepared a TiO2-supported V2O5 catalyst coated (with a loading of 7 wt% of impregnated V2O5) on a honeycomb cordierite monolith to remove NOx from a waste incinerator flue gas at low temperatures. The NOx (nitrogen oxides) removal efficiency of the SCR catalyst bed was measured in a catalyst fixed-bed reactor (flow rate: 100 m(3) h(-1)) using real exhaust gas from the waste incinerator. The experimental results showed that the V2O5/TiO2 SCR catalyst exhibited good DeNOx performance (over 98% conversion at an operating temperature of 300 degrees C, 95% at 250 degrees C, and 70% at 200 degrees C), and was much better than the performance of commercial SCR catalysts (as low as 55% conversion at 250 degrees C) under the same operating conditions. (C) 2016 Elsevier Ltd. All rights reserved.
Keywords
CHEMICAL-VAPOR CONDENSATION; REDUCTION; NH3-SCR; NO; CHEMICAL-VAPOR CONDENSATION; REDUCTION; NH3-SCR; NO; Waste incinerator; Flue gas; DeNOx; SCR catalyst; TiO2-supported V2O5
ISSN
0956-053X
URI
https://pubs.kist.re.kr/handle/201004/123009
DOI
10.1016/j.wasman.2016.11.006
Appears in Collections:
KIST Article > 2017
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