Abstract
Nitrous oxide emissions can contribute significantly to the carbon footprint of municipal wastewater treatment plants even though emissions from conventional nitrogen removal processes are assumed to be moderate. An increased risk for high emissions can occur in connection with process disturbances and nitrite (NO2-) accumulation. This work describes the findings at a large municipal wastewater treatment plant where the levels of NO2- in the activated sludge process effluent were spontaneously and strongly increased on several activated sludge lines which was suspected to be due to shortcut nitrogen removal that stabilized for several months. The high NO2- levels were linked to a dramatic increase in nitrous oxide (N2O) emissions. As much as over 20% of the daily influent nitrogen load was emitted as N2O. These observations indicate that highly increased NO2- levels can occur in conventional activated sludge processes and result in high nitrous oxide emissions. They also raise questions concerning the risk of increased greenhouse gas (GHG) emissions of the nitritation-denitritation processes - although the uncontrolled nature of the event described here must be taken into consideration - and underline the importance of continuous monitoring and control of N2O emissions.
Highlights
Nitrous oxide (N2O), a gas formed in varying amounts in nitrogen transformations and wastewater treatment, strongly promotes global warming (IPCC )
Two separate incidents of prolonged NO2À accumulation and suspected nitritation–denitritation were observed in part of the activated sludge (AS) lines at the Viikinmäki WWTP, while other lines kept on performing full nitrification in seemingly similar process conditions
At least one of the incidents could be linked with a significant increase in N2O emissions
Summary
Nitrous oxide (N2O), a gas formed in varying amounts in nitrogen transformations and wastewater treatment, strongly promotes global warming (IPCC ). N2O emissions have been recognized as major contributors to the carbon footprint of municipal wastewater treatment. In a long-term study by Daelman et al ( ), 75% of a treatment plant’s carbon footprint was due to direct N2O emissions. At the Viikinmäki WWTP, the measured direct N2O emissions were calculated to contribute over 60% of the total carbon footprint (Mölsä ). Kuokkanen et al | Unwanted mainstream nitritation–denitritation causing massive N2O emissions
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