17:15 〜 18:30
[AAS05-P01] HONO放出と活性汚泥中の炭素量と窒素量との関係
キーワード:亜硝酸、活性汚泥、土壌
Introduction & Research Purpose
OH radical is a strong oxidant and an essential component in the earth’s atmosphere. However, quantification is very difficult because of its extremely high reactivity and low concentrations (Akimoto et al., 2002). Therefore, measuring precursor concentrations of OH radical is used to estimate its concentration. Gaseous nitrous acid, HONO, is one of the major OH precursors (Kleffmann, 2007).
HONO + hν (λ< 400nm) → NO + OH
Despite the importance of HONO, its source is still not well understood. Soil was suggested as one of the missing sources (Su et al., 2011); thus, we use activated sludge to surrogate soil as it contains various organisms the same as any soil. Activated sludge is used in most of wastewater treatment plants. This study aims to elucidate the relation between HONO emission under aerobic conditions with carbon content, nitrogen content, and concentrations of inorganic nitrogen species such as NH4+, NO2-, and NO3-.
Experiments and Results
HONO fluxes from activated sludge were measured every 3 hours during daytime (AM9:00~PM6:00), October 6th, 2020 to 9:00, October 8th, 2020 using the filter pack method and ion chromatography. The measurement was started from the point of feeding the activated sludge. The filter pack was replaced every 3 hours. At night, samples were taken continuously for 15 hours from PM6:00 to AM9:00. Non-Purgeable Organic Carbon (NPOC) as carbon content and Total Nitrogen (TN) were also measured at the same time using TOC instrument (SHIMADZU TOC-V CSH). Secondly, NH4+, NO2-, NO3-, NPOC and TN concentration measurement was tried from the time of feeding on a separate day in order to find the change in chemical forms of nitrogen.
The result suggests that the HONO flux has strong relation with the carbon content under aerobic conditions. Further details will be discussed at the presentation.
OH radical is a strong oxidant and an essential component in the earth’s atmosphere. However, quantification is very difficult because of its extremely high reactivity and low concentrations (Akimoto et al., 2002). Therefore, measuring precursor concentrations of OH radical is used to estimate its concentration. Gaseous nitrous acid, HONO, is one of the major OH precursors (Kleffmann, 2007).
HONO + hν (λ< 400nm) → NO + OH
Despite the importance of HONO, its source is still not well understood. Soil was suggested as one of the missing sources (Su et al., 2011); thus, we use activated sludge to surrogate soil as it contains various organisms the same as any soil. Activated sludge is used in most of wastewater treatment plants. This study aims to elucidate the relation between HONO emission under aerobic conditions with carbon content, nitrogen content, and concentrations of inorganic nitrogen species such as NH4+, NO2-, and NO3-.
Experiments and Results
HONO fluxes from activated sludge were measured every 3 hours during daytime (AM9:00~PM6:00), October 6th, 2020 to 9:00, October 8th, 2020 using the filter pack method and ion chromatography. The measurement was started from the point of feeding the activated sludge. The filter pack was replaced every 3 hours. At night, samples were taken continuously for 15 hours from PM6:00 to AM9:00. Non-Purgeable Organic Carbon (NPOC) as carbon content and Total Nitrogen (TN) were also measured at the same time using TOC instrument (SHIMADZU TOC-V CSH). Secondly, NH4+, NO2-, NO3-, NPOC and TN concentration measurement was tried from the time of feeding on a separate day in order to find the change in chemical forms of nitrogen.
The result suggests that the HONO flux has strong relation with the carbon content under aerobic conditions. Further details will be discussed at the presentation.