Stegenta-Dąbrowska, S.; Sobieraj, K.; Rosik, J.; Sidełko, R.; Valentin, M.; Białowiec, A. The Development of Anammox and Chloroflexi Bacteria during the Composting of Sewage Sludge. Sustainability2022, 14, 10248.
Stegenta-Dąbrowska, S.; Sobieraj, K.; Rosik, J.; Sidełko, R.; Valentin, M.; Białowiec, A. The Development of Anammox and Chloroflexi Bacteria during the Composting of Sewage Sludge. Sustainability 2022, 14, 10248.
Stegenta-Dąbrowska, S.; Sobieraj, K.; Rosik, J.; Sidełko, R.; Valentin, M.; Białowiec, A. The Development of Anammox and Chloroflexi Bacteria during the Composting of Sewage Sludge. Sustainability2022, 14, 10248.
Stegenta-Dąbrowska, S.; Sobieraj, K.; Rosik, J.; Sidełko, R.; Valentin, M.; Białowiec, A. The Development of Anammox and Chloroflexi Bacteria during the Composting of Sewage Sludge. Sustainability 2022, 14, 10248.
Abstract
The C/N ratio is an extremely important parameter in the composting process, which is directly responsible for the growth of microorganisms. A low C/N ratio contributes to higher emissions of greenhouse gases and odorous substances, such as ammonia (NH3), which is formed by nitrogen mineralization. Due to the highly toxic effects of ammonia, it is a particularly unwanted by-product that can disrupt the composting process because it poisons microorganisms and cause environmental issues. The activity of anammox bacteria, so far analyzed only in wastewater treatment processes, is a particularly efficient method of nitrogen removal, having an advantage over the conventional methods used previously. Our study proofs the presence of anammox bacteria during composting, what gives an opportunity to improve the process and reduce its impact on atmospheric pollution. Despite the aerobic nature of this process, the composted mass of waste presents conditions conducive to the development of these ammonia oxidizing bacteria, as well as other strains of microorganisms cooperating with them. This makes it possible to compost at a low C/N ratio; in addition, there is no need for additional energy supply through aeration, as the processes carried out by anammox bacteria do not require oxygen.
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