Mochida, F.; Miyatsuji, T.; Nakamura, Y.; Inoue, T. Modeling of Sulfur and Iron Dynamics in Enclosed Bay Sediments and Evaluation of the Suppression Effect on Sulfide Release by Iron. Water2023, 15, 2366.
Mochida, F.; Miyatsuji, T.; Nakamura, Y.; Inoue, T. Modeling of Sulfur and Iron Dynamics in Enclosed Bay Sediments and Evaluation of the Suppression Effect on Sulfide Release by Iron. Water 2023, 15, 2366.
Mochida, F.; Miyatsuji, T.; Nakamura, Y.; Inoue, T. Modeling of Sulfur and Iron Dynamics in Enclosed Bay Sediments and Evaluation of the Suppression Effect on Sulfide Release by Iron. Water2023, 15, 2366.
Mochida, F.; Miyatsuji, T.; Nakamura, Y.; Inoue, T. Modeling of Sulfur and Iron Dynamics in Enclosed Bay Sediments and Evaluation of the Suppression Effect on Sulfide Release by Iron. Water 2023, 15, 2366.
Abstract
In eutrophic waters, such as Mikawa Bay, Japan, anoxic bottom water develops in summer. This causes sulfide release into seawater by sulfate reduction in the sediment, leading to environmental problems. The addition of iron to sediments is a method used to improve the sediment environment, which was devised from a natural phenomenon. However, this method has not yet been quantitatively evaluated. In this study, we aim to quantitatively evaluate the suppressive effect of iron on sulfide release. First, we develop a sediment model that focuses on S and Fe. We then attempted to reproduce the observations and experiments on sulfide dynamics using the model. Consequently, the proposed model was able to reproduce field sulfur and Fe dynamics in sediments. Additionally, the model described the characteristics of sulfide release considering the effects of additive iron materials. Finally, we conducted predictive calculations and quantitatively evaluated the effects of adding iron materials to the sediments in terms of sulfur and iron cycles.
Keywords
sediment model; sulfur and iron cycles; semi-enclosed bay
Subject
Engineering, Civil Engineering
Copyright:
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