Hyung-Gon Cha scite author profile

This study investigated the changes in concentrations of haloacetic acids (HAAs) and haloacetonitriles (HANs) as disinfection byproducts (DBPs) for different storage times (as long as 20 days) and temperatures (5 to 20°C). A ship's voyage after treatment of its ballast water with active substances was considered. The HAA showed a clear trend of increasing concentration only with storage time, especially for dibromoacetic acid (DBAA). Dissolved organic nitrogen concentration was increased by the decomposition of dead organisms at 10 days, and then reacted with the remaining total residual oxidants, resulting in increased concentration of DBPs. An environmental risk assessment indicated that DBAN and monochloroacetic acid (MCAA) could have a negative impact on the marine environment. This study suggests that, because all international vessels must have a ballast water management system installed by September, 2024, the concentrations of DBPs, especially DBAN, MCAA, and DBAA, should be monitored in the waters at major international ports.

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Hyung-Gon Cha

Enhancing the efficacy of electrolytic chlorination for ballast water treatment by adding carbon dioxide

The impact of adding organic carbon on the concentrations of total residual oxidants and disinfection by-products in approval tests for ballast water management systems

The effects of chemical additives on the production of disinfection byproducts and ecotoxicity in simulated ballast water

Long-term Changes of Disinfection Byproducts in Treatment of Simulated Ballast Water

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