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Potential of food waste-derived volatile fatty acids as alternative carbon source for denitrifying moving bed biofilm reactors
University of Borås, Faculty of Textiles, Engineering and Business. Department of Environmental Engineering, Istanbul Technical University, Maslak, 34469 Istanbul, Turkey. (Swedish Centre for Resource Recovery)
University of Borås, Faculty of Textiles, Engineering and Business. (Swedish Centre for Resource Recovery)
University of Borås, Faculty of Textiles, Engineering and Business. (Swedish Centre for Resource Recovery)
Gryaab AB, Norra Fagelrovagen, SE 41834 Gothenburg, Sweden.
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2022 (English)In: Bioresource Technology, ISSN 0960-8524, E-ISSN 1873-2976, Vol. 364, article id 128046Article in journal (Refereed) Published
Sustainable development
According to the author(s), the content of this publication falls within the area of sustainable development.
Abstract [en]

Fossil-based materials such as methanol are frequently used in the denitrification process of advanced biological wastewater treatment as external carbon source. Volatile fatty acids (VFAs) produced by anaerobic digestion of food waste, are sustainable compounds with the potential to act as carbon sources for denitrification, reducing carbon footprint and material costs. In this study, the effectiveness of food waste-derived VFAs (AD-VFA) was investigated in the post-denitrification process in comparison with synthetic VFA and methanol as carbon sources. Acetic acid had the highest rate of disappearance among single tested VFAs with a denitrification rate of 0.44 g NOx-N removed/m2/day, indicating a preferential utilization pattern. While AD-VFA had a denitrification rate of 0.61 mg NOx-N removed/m2/day, sVFA had a rate of 0.57 mg NOx-N removed/m2/day, indicating that impurities in AD-VFA did not play substantial role in denitrification. AD-VFA proved to be promising carbon source alternative for denitrification in wastewater treatment plants.

Place, publisher, year, edition, pages
2022. Vol. 364, article id 128046
Keywords [en]
Volatile fatty acids, Food waste, External carbon source, Denitrification, Moving bed biofilm reactor
National Category
Other Industrial Biotechnology
Research subject
Resource Recovery
Identifiers
URN: urn:nbn:se:hb:diva-28737DOI: 10.1016/j.biortech.2022.128046ISI: 000870525100004Scopus ID: 2-s2.0-85139188709OAI: oai:DiVA.org:hb-28737DiVA, id: diva2:1703630
Available from: 2022-10-14 Created: 2022-10-14 Last updated: 2024-02-21Bibliographically approved
In thesis
1. Unlocking Sustainability in Wastewater Denitrification through Waste-Derived Volatile Fatty Acids
Open this publication in new window or tab >>Unlocking Sustainability in Wastewater Denitrification through Waste-Derived Volatile Fatty Acids
2024 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

Carbon sources play a critical role in biological nitrogen removal during wastewater treatment, where strict total nitrogen limits on effluent discharge apply. Organic carbon sources serve as electron donors in the denitrification for heterotrophic denitrifiers. The growing need for improved denitrification driven by increasing influent loads in a limited area and stricter nutrient discharge standards has increased the demand for external carbon sources. Conventional carbon sources such as methanol or ethanol, used in wastewater treatment, are often derived from fossil fuels, raising environmental and economic concerns. Therefore, this thesis explores an alternative solution for carbon source provision in denitrification, i.e., waste-derived volatile fatty acids (VFAs). Several VFAs, e.g., acetic acid, propionic acid, and butyric acid, are generated during the anaerobic digestion (AD) of various organic waste materials as intermediate metabolites, which are a sustainable alternative that holds great promise for optimizing denitrification processes while mitigating environmental impacts.

In this thesis membrane bioreactors (MBRs) were applied for efficient production and extraction of VFAs from organic waste. This novel membrane separation technique led to particle-free VFAs at a high yield of 0.65 g VFAs/g VSfed. However, this VFAs effluent contains impurities such as ammonium ions (NH4+) that can have adverse effects when applied in wastewater operations, especially in the denitrification process. Ammonium removal potential was explored using a low-cost natural zeolite, clinoptilolite. The VFAs effluent was subjected to an ion exchange process to remove ammonium. Under the determined optimum conditions, average removal efficiencies of 93 and 94% were found for NH4+ removal at 12 h equilibrium time for the synthetic and VFA effluents, respectively. Denitrification performance was investigated thoroughly, and denitrification rates were compared with those obtained using conventional carbon sources. Although methanol exhibits a faster nitrate (NO3−) removal capability than obtained using other carbon sources, there is a lack of synchronicity between the conversion of NO3− ions to nitrite (NO2−) and NO2− to N2. However, relatively few issues have been encountered with using VFAs as a carbon source. Although adding VFA as the sole carbon source exhibited a slower denitrification rate than obtained with methanol, 50% of methanol can be replaced by waste-derived VFAs, achieving performance comparable to that obtained with pure methanol. In addition, further upgrading of waste-derived VFAs was complemented with the nanofiltration process before their application in wastewater treatment to increase their carbon content. It was observed that the chemical oxygen demand of VFAs increased up to 4.3 times (from 26.5 to 113.7 g/L). The concentrated waste-derived VFAs (after nanofiltration) could be used in the denitrification process of wastewater treatment. In conclusion, the use of waste-derived VFAs emerged as a potential sustainable alternative replacement of the conventional carbon sources for wastewater denitrification.

Place, publisher, year, edition, pages
Borås: Högskolan i Borås, 2024
Series
Skrifter från Högskolan i Borås, ISSN 0280-381X ; 147
Keywords
volatile fatty acids, wastewater denitrification, ammonium removal, sustainable carbon source
National Category
Other Industrial Biotechnology
Research subject
Resource Recovery
Identifiers
urn:nbn:se:hb:diva-30974 (URN)978-91-89833-33-3 (ISBN)978-91-89833-34-0 (ISBN)
Public defence
2024-03-15, C203, Allégatan 1, Borås, 10:00 (English)
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Supervisors
Available from: 2024-02-22 Created: 2023-12-07 Last updated: 2024-02-21Bibliographically approved

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Sapmaz, TugbaMahboubi, AmirTaherzadeh, Mohammad J

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