Aikun Tang scite author profile

The removal process of NO from SO2-containing simulated flue gas using an ultraviolet (UV)/Fenton-like reaction in a photochemical reactor was investigated. The effects of several operating parameters, such as the H2O2 concentration, Cu2+ concentration, solution pH, NO concentration, solution temperature, gas flow, SO2 concentration, and O2 concentration on NO removal were studied using a single-factor method. The liquid anions were measured by ion chromatography, and the material balances for NO and SO2 were also calculated. The results show that, with the increase in the Cu2+ concentration, NO removal efficiency significantly increases. With the increase in the H2O2 concentration, NO removal efficiency increases, but the changes gradually become smaller. NO removal efficiency greatly reduces with an increasing gas flow and NO concentration. An increasing solution temperature or SO2 concentration slightly decreases NO removal efficiency. An increase in the O2 concentration can promote the removal of NO. The anions in the liquid phase are mainly SO4 2– and NO3 –. The calculated values of SO4 2– and NO3 – are overall in agreement with the measured values.

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A study on mass transfer–reaction kinetics of NO absorption by using UV/H2O2/NaOH process

Liu

Pan

Tang

et al. 2013

Fuel

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Experimental and numerical investigation of the fluid flow in a side-ported rotary engine

Fan

Pan

Tang

et al. 2015

Energy Conversion and Management

108

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Distribution Characteristics and Controlling Factors of Soluble Heavy Metals in the Yellow River Estuary and Adjacent Sea

Tang

Liu

et al. 2010

Procedia Environmental Sciences

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Study on the Pollution Characteristics of Heavy Metals in Seawater of Jinzhou Bay

Wang

Liu

et al. 2012

Procedia Environmental Sciences

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Aikun Tang

Investigation on the Removal of NO from SO₂-Containing Simulated Flue Gas by an Ultraviolet/Fenton-Like Reaction

A study on mass transfer–reaction kinetics of NO absorption by using UV/H2O2/NaOH process

Experimental and numerical investigation of the fluid flow in a side-ported rotary engine

Distribution Characteristics and Controlling Factors of Soluble Heavy Metals in the Yellow River Estuary and Adjacent Sea

Study on the Pollution Characteristics of Heavy Metals in Seawater of Jinzhou Bay

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Aikun Tang

Investigation on the Removal of NO from SO2-Containing Simulated Flue Gas by an Ultraviolet/Fenton-Like Reaction

A study on mass transfer–reaction kinetics of NO absorption by using UV/H2O2/NaOH process

Experimental and numerical investigation of the fluid flow in a side-ported rotary engine

Distribution Characteristics and Controlling Factors of Soluble Heavy Metals in the Yellow River Estuary and Adjacent Sea

Study on the Pollution Characteristics of Heavy Metals in Seawater of Jinzhou Bay

Contact Info

Product

Resources

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Investigation on the Removal of NO from SO₂-Containing Simulated Flue Gas by an Ultraviolet/Fenton-Like Reaction