A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)

In the removal of nitric oxide (NO) by sodium chlorite (NaClO(2)), the NaClO(2) concentration is usually increased, and an alkaline absorbent is added to improve the NO removal efficiency. However, this increases the cost of denitrification. This study is the first to use hydrodynamic cavitation (HC...

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Autores principales: Song, Liguo, Wei, Yuhang, Deng, Chengqi, Yang, Jingang, Sui, Hao, Guo, Feng, Meng, Lingrun, Zhao, Xingda, Wei, Shiping, Sun, Deping, Han, Zhitao, Xu, Minyi, Pan, Xinxiang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9959747/
https://www.ncbi.nlm.nih.gov/pubmed/36834379
http://dx.doi.org/10.3390/ijerph20043684
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author Song, Liguo
Wei, Yuhang
Deng, Chengqi
Yang, Jingang
Sui, Hao
Guo, Feng
Meng, Lingrun
Zhao, Xingda
Wei, Shiping
Sun, Deping
Han, Zhitao
Xu, Minyi
Pan, Xinxiang
author_facet Song, Liguo
Wei, Yuhang
Deng, Chengqi
Yang, Jingang
Sui, Hao
Guo, Feng
Meng, Lingrun
Zhao, Xingda
Wei, Shiping
Sun, Deping
Han, Zhitao
Xu, Minyi
Pan, Xinxiang
author_sort Song, Liguo
collection PubMed
description In the removal of nitric oxide (NO) by sodium chlorite (NaClO(2)), the NaClO(2) concentration is usually increased, and an alkaline absorbent is added to improve the NO removal efficiency. However, this increases the cost of denitrification. This study is the first to use hydrodynamic cavitation (HC) combined with NaClO(2) for wet denitrification. Under optimal experimental conditions, when 3.0 L of NaClO(2) with a concentration of 1.00 mmol/L was used to treat NO (concentration: 1000 ppmv and flow rate: 1.0 L/min), 100% of nitrogen oxides (NO(x)) could be removed in 8.22 min. Furthermore, the NO removal efficiency remained at 100% over the next 6.92 min. Furthermore, the formation of ClO(2) by NaClO(2) is affected by pH. The initial NO(x) removal efficiency was 84.8–54.8% for initial pH = 4.00–7.00. The initial NO(x) removal efficiency increases as the initial pH decreases. When the initial pH was 3.50, the initial NO(x) removal efficiency reached 100% under the synergistic effect of HC. Therefore, this method enhances the oxidation capacity of NaClO(2) through HC, realizes high-efficiency denitrification with low NaClO(2) concentration (1.00 mmol/L), and has better practicability for the treatment of NO(x) from ships.
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spelling pubmed-99597472023-02-26 A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2) Song, Liguo Wei, Yuhang Deng, Chengqi Yang, Jingang Sui, Hao Guo, Feng Meng, Lingrun Zhao, Xingda Wei, Shiping Sun, Deping Han, Zhitao Xu, Minyi Pan, Xinxiang Int J Environ Res Public Health Article In the removal of nitric oxide (NO) by sodium chlorite (NaClO(2)), the NaClO(2) concentration is usually increased, and an alkaline absorbent is added to improve the NO removal efficiency. However, this increases the cost of denitrification. This study is the first to use hydrodynamic cavitation (HC) combined with NaClO(2) for wet denitrification. Under optimal experimental conditions, when 3.0 L of NaClO(2) with a concentration of 1.00 mmol/L was used to treat NO (concentration: 1000 ppmv and flow rate: 1.0 L/min), 100% of nitrogen oxides (NO(x)) could be removed in 8.22 min. Furthermore, the NO removal efficiency remained at 100% over the next 6.92 min. Furthermore, the formation of ClO(2) by NaClO(2) is affected by pH. The initial NO(x) removal efficiency was 84.8–54.8% for initial pH = 4.00–7.00. The initial NO(x) removal efficiency increases as the initial pH decreases. When the initial pH was 3.50, the initial NO(x) removal efficiency reached 100% under the synergistic effect of HC. Therefore, this method enhances the oxidation capacity of NaClO(2) through HC, realizes high-efficiency denitrification with low NaClO(2) concentration (1.00 mmol/L), and has better practicability for the treatment of NO(x) from ships. MDPI 2023-02-19 /pmc/articles/PMC9959747/ /pubmed/36834379 http://dx.doi.org/10.3390/ijerph20043684 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Song, Liguo
Wei, Yuhang
Deng, Chengqi
Yang, Jingang
Sui, Hao
Guo, Feng
Meng, Lingrun
Zhao, Xingda
Wei, Shiping
Sun, Deping
Han, Zhitao
Xu, Minyi
Pan, Xinxiang
A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)
title A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)
title_full A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)
title_fullStr A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)
title_full_unstemmed A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)
title_short A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO(2)
title_sort novel method based on hydrodynamic cavitation for improving nitric oxide removal performance of naclo(2)
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9959747/
https://www.ncbi.nlm.nih.gov/pubmed/36834379
http://dx.doi.org/10.3390/ijerph20043684
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