Reduced iron induced nitric oxide and nitrous oxide emission

Formation of the greenhouse gas nitrous oxide in water treatment systems is predominantly studied as a biological phenomenon. There are indications that also chemical processes contribute to these emissions. Here we studied the formation of nitric oxide (NO) and nitrous oxide (N 2O) due to chemical...

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Bibliographic Details
Published in:Water research (Oxford) 2011-11, Vol.45 (18), p.5945-5952
Main Authors: Kampschreur, Marlies J., Kleerebezem, Robbert, de Vet, Weren W.J.M., van Loosdrecht, Mark C.M.
Format: Article
Language:English
Subjects:
Anammox
Applied sciences
Batch Cell Culture Techniques
Bioreactors
Denitrification
Drinking water
Electrons
emissions
Emissions control
Exact sciences and technology
Greenhouse gas emission
greenhouse gases
Hydrogen-Ion Concentration
Iron
Iron - chemistry
Nitric oxide
Nitric Oxide - analysis
Nitrites
Nitrites - chemistry
Nitrous oxide
Nitrous Oxide - analysis
Nitrous oxides
Oxidation
Oxidation-Reduction
Pollution
Quaternary Ammonium Compounds - analysis
Reaction kinetics
Reduction
Sediments
sorption
Wastewater
water treatment
Water treatment and pollution
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Summary:Formation of the greenhouse gas nitrous oxide in water treatment systems is predominantly studied as a biological phenomenon. There are indications that also chemical processes contribute to these emissions. Here we studied the formation of nitric oxide (NO) and nitrous oxide (N 2O) due to chemical nitrite reduction by ferrous iron (Fe(II)). Reduction of nitrite and NO coupled to Fe(II) oxidation was studied in laboratory-scale chemical experiments at different pH, nitrite and iron concentrations. The continuous measurement of both NO and N 2O emission showed that nitrite reduction and NO reduction have different kinetics. Nitrite reduction shows a linear dependency on the nitrite concentration, implying first order kinetics in nitrite. The nitrite reduction seems to be an equilibrium based reaction, leading to a constant NO concentration in the liquid. The NO reduction rate is suggested to be most dependent on reactive surface availability and the sorption of Fe(II) to the reactive surface. The importance of emission of NO and N 2O coupled to iron oxidation is exemplified by iron reduction experiments and several examples of environments where this pathway can play a role. [Display omitted] ► Chemical production of N 2O and NO in biological processes was studied. ► N 2O emission was related to chemical denitrification. ► Bacteria catalyse the process by reducing chemically oxidised iron. ► Nitrite reduction to NO seem to be an equilibrium reaction. ► NO reduction seems to be dependent on reactive iron-precipitant.
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2011.08.056