NOx de-pollution by hardened concrete and the influence of activated charcoal additions

The atmospheric pollution by nitrogen oxides affects the health of millions of people located in urban areas. Our work demonstrates that, even in the absence of photocatalysts, concrete walls can strongly absorb NO2 and limit the intensity of pollution peaks. Our results show that concretes can cont...

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Bibliographic Details
Published inCement and concrete research Vol. 42; no. 10; pp. 1348 - 1355
Main Authors Horgnies, M., Dubois-Brugger, I., Gartner, E.M.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.10.2012
Elsevier
Subjects
Adsorption (C)
Applied sciences
Atmospheric pollution
Buildings. Public works
Characterization (B)
Concrete (E)
Concretes. Mortars. Grouts
Dispersed sources and other
Exact sciences and technology
Materials
Microstructure (B)
NOx de-pollution
Pollution
Pollution sources. Measurement results
Transport. Placing. Subsequent treatments. Curing
Concrete (E)
Characterization (B)
NOx de-pollution
Microstructure (B)
Adsorption (C)
Performance evaluation
Nitrogen oxide
NO
Construction materials
Activation
Experimental study
Characterization
de-pollution
Parking garage
Adsorption
Air pollution
Hardened concrete
Microstructure
Charcoal
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Summary:The atmospheric pollution by nitrogen oxides affects the health of millions of people located in urban areas. Our work demonstrates that, even in the absence of photocatalysts, concrete walls can strongly absorb NO2 and limit the intensity of pollution peaks. Our results show that concretes can continuously absorb a significant fraction of NO2 from the surrounding atmosphere over long periods, probably due to a reaction with strongly alkaline cement hydrates. Moreover, the introduction of a small amount of activated charcoal into the concrete mix can significantly enhance and prolong this NO2 absorption without greatly increasing total porosity or decreasing strength. We hypothesize that the NO2 is adsorbed irreversibly by a neutralization reaction with the alkaline aqueous solution covering the surfaces of the hydrates and the activated charcoal. Simple calculations suggest that walls made of activated charcoal concrete could ameliorate the problem of NO2 pollution peaks in road tunnels and parking garages. ► Even in the absence of photocatalysts, concrete can strongly absorb NO2. ► Concretes can absorb NO2 due to a reaction with alkaline cement hydrates. ► Introduction of activated charcoal in concrete enhances the NO2 absorption rate. ► A constant de-pollution was established for a minimum of 20h of continual exposure.
ISSN:0008-8846
1873-3948
DOI:10.1016/j.cemconres.2012.06.007