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Characteristics and anti-toxicity analysis of Fe–Cu13x catalytic oxidation of NO at low temperature and its application in industry

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Abstract

The Fe–Cu13x molecular sieve catalyst was synthesized by ion exchange method. The product is having various applications, mainly within the food industry, agriculture industry, and also within the pharmaceutical industry. The denitration characteristics and anti-toxicity of Fe–Cu13x catalyst were investigated. Combined with a variety of characterization methods, it was found that the denitration performance of the catalyst was superior, and the denitration rate was more than 99%. In the subsequent anti toxicity test, Fe Cu catalyst showed good sulfur resistance. The NOx conversion rate of the catalyst remained above 90% after 3 h of sulphur resistance, while the no and removal efficiency decreased to 60% after 4 h of sulfur resistance. After the sulfur supply was stopped, the conversion rate did not increase and showed a gradual deactivation state. When the temperature increased to 400 °C, the catalyst could still maintain more than 95% NOx removal rate.

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Fig. 1

Source: INI 2019

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Source: Erisman et al. 2011

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Authors and Affiliations

  1. Biochemical Engineering Institute, Hohhot Vocational College, Hohot, 010010, China

    Changfeng Hu,  Amurishana, Shijun Wu & Hada Bai

  2. School of Computer Science, UPES: University of Petroleum and Energy Studies, Dehradun, India

    Deepika Koundal

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  1. Changfeng Hu
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  2. Amurishana
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  3. Shijun Wu
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  4. Hada Bai
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Correspondence to Deepika Koundal.

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Hu, C., Amurishana, Wu, S. et al. Characteristics and anti-toxicity analysis of Fe–Cu13x catalytic oxidation of NO at low temperature and its application in industry. Int J Syst Assur Eng Manag 13 (Suppl 1), 166–174 (2022). https://doi.org/10.1007/s13198-021-01332-3

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  • DOI: https://doi.org/10.1007/s13198-021-01332-3

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