Wet Removal of Sulfur Dioxide and Nitric Oxide from Simulated Coal-Fired Flue Gas by UV/H_2O_2 Advanced Oxidation Process

Yangxian Liu; Jun Zhang; Changdong Sheng; Yongchun Zhang; Liang Zhao

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Wet Removal of Sulfur Dioxide and Nitric Oxide from Simulated Coal-Fired Flue Gas by UV/H_2O_2 Advanced Oxidation Process

机译：UV / H_2O_2高级氧化工艺湿法去除模拟燃煤烟气中的二氧化硫和一氧化氮

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Wet removal of NO and SO_2 from simulated coal-fired flue gas with a UV/H_2O_2 advanced oxidation process was studied in an ultraviolet (UV)-bubble column reactor. The effects of several factors, including the NO initial concentration, SO_2 initial concentration, UV radiation intensity, liquid-gas ratio, H_2O_2 initial concentration, and O_2 content, on NO and SO_2 removal efficiencies were studied. The results showed that under all conditions, SO_2 could achieve 100% removal. The NO removal efficiency decreased with the increase of NO initial concentration or SO_2 initial concentration. With the increase of UV irradiation intensity, liquid-gas ratio, or H_2O_2 initial concentration, the NO removal efficiency increased. The O_2 content only had a little impact on NO removal.

机译：在紫外（UV）鼓泡塔反应器中，研究了采用UV / H_2O_2高级氧化工艺从模拟燃煤烟道气中湿法脱除NO和SO_2的方法。研究了NO初始浓度，SO_2初始浓度，UV辐射强度，液气比，H_2O_2初始浓度和O_2含量等因素对NO和SO_2去除效率的影响。结果表明，在所有条件下，SO_2的去除率均达到100％。随着NO初始浓度或SO_2初始浓度的增加，NO去除效率降低。随着紫外线照射强度，液气比或H_2O_2初始浓度的增加，NO去除效率提高。 O_2的含量仅对NO的去除影响很小。

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来源
《Energy & fuels》 |2010年第sepaaocta期|p.4931-4936|共6页
作者
Yangxian Liu; Jun Zhang; Changdong Sheng; Yongchun Zhang; Liang Zhao;
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作者单位

School of Energy & Environment, Southeast University, Nanjing 210096, China;

School of Energy & Environment, Southeast University, Nanjing 210096, China;

rnSchool of Energy & Environment, Southeast University, Nanjing 210096, China;

rnSchool of Energy & Environment, Southeast University, Nanjing 210096, China;

School of Energy & Environment, Southeast University, Nanjing 210096, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 00:42:04

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Wet Removal of Sulfur Dioxide and Nitric Oxide from Simulated Coal-Fired Flue Gas by UV/H_2O_2 Advanced Oxidation Process

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