Wednesday, March 27, 2024

 

Twist of groundwater contaminants


Synergistic effect of nitrate on natural purification of groundwater discovered. New water quality management paradigm for Aquifer Storage Recovery (ASR) techniques to secure stable water resources



NATIONAL RESEARCH COUNCIL OF SCIENCE & TECHNOLOGY

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AQUIFER STORAGE RECOVERY (ASR) OVERVIEW

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CREDIT: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY




In recent years, the world has been experiencing floods and droughts as extreme rainfall events have become more frequent due to climate change. For this reason, securing stable water resources throughout the year has become a national responsibility called 'water security', and 'Aquifer Storage Recovery (ASR)', which stores water in the form of groundwater in the ground when water resources are available and withdraws it when needed, is attracting attention as an effective water resource management technique.

The Korea Institute of Science and Technology (KIST) announced that a team of Dr. Seunghak Lee, Jaeshik Chung, and Sang Hyun Kim from the Water Resources Cycle Research Center has discovered that the natural purification of groundwater is enhanced by nitrate, a known pollutant. In order to apply ASR techniques in practice, it is very important to predict and manage the quality of recharged water, and this research is expected to mark a turning point in the water quality management strategy of ASR systems.

In addition to storing water resources, ASR techniques have the added benefit of improving water quality through various reactions in the ground. The organic pollutants in the recharged water are degraded by the interaction of microorganisms in the aquifer soil with the iron oxide minerals, and in general, the iron oxide minerals are gradually transformed and the effective surface area is reduced, causing the natural attenuation of organic pollutants to stop.

The KIST researchers found that the coexistence of nitrate in the recharged water leads to the formation of a new type of iron oxide, which results in a much higher removal efficiency than the stoichiometrically predicted organic pollutant removal efficiency. The coexistence of nitrate increases the duration of natural attenuation because it creates new species of iron oxides that can sustain the degradation of organic contaminants. Furthermore, the researchers found that the pollutant nitrate is removed during the overall reaction.

"This is the first study to confirm the positive role of nitrate in groundwater, which is known only as a water pollutant," said Dr. Seunghak Lee of KIST. "Based on this, we are promoting the development of ASR water quality management protocols that dramatically change the existing water quality management paradigm, such as introducing allowable standards for nitrate residue in the pretreatment process of the recharging water."

  

Natural attenuation of organic pollutants by iron oxide reductive dissolution in aquifers during ASR

Increased removal efficiency of organic pollutants due to the generation of new type of iron oxide minerals in the presence of nitrate

CREDIT

Korea Institute of Science and Technology

KIST was established in 1966 as the first government-funded research institute in Korea. KIST now strives to solve national and social challenges and secure growth engines through leading and innovative research. For more information, please visit KIST’s website at https://eng.kist.re.kr/

The results of the research, which was funded by the Ministry of Science and ICT (Minister Jong-ho Lee) through the Climate Change Impact Minimization Technology Development Project (2020M3H5A1080712) and the KIST K-Lab Program (2E33084), were published in the February issue of the international journal Water Research.

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