Injection strategy for effective bacterial delivery in bioaugmentation scheme by controlling ionic strength and pore-water velocity

Authors
Kwak, EunjieKim, Jae-HyunChoi, Jae-WooLee, Soonjae
Issue Date
2023-02
Publisher
Academic Press
Citation
Journal of Environmental Management, v.328
Abstract
For the in-situ remediation of the contaminated subsurface environment, the injection of nutrients and micro-organisms changes chemical and physical conditions, which control the delivery and immobilization of micro-organisms. We investigated the injection strategy for effective bacterial delivery in a bioaugmentation scheme by controlling ionic strength (IS) and pore-water velocity (v). A set of bacterial transport tests was conducted using the saturated sand column to mimic the saturated subsurface environment. The effectiveness of the injection strategies was evaluated by applying solutions with different ionic strengths into the sand column with different pore-water velocities. The deposition and delivery of bacteria through the sand column were analyzed using the first-order deposition model. The deposition and delivery of bacteria injected by various strategies were numerically simulated considering the variable deposition rate. The breakthrough curves from column experi-ments revealed that the bacterial deposition on the sand surface was increased by an increase in the ionic strength and by a decrease in the pore-water velocities. The rates of bacterial deposition (k1) on sand could be determined as a function of ionic strength and pore-water velocity, and it was applicable to simulate the delivery of bacteria under dynamic groundwater conditions. The numerical case study considering various injection strategies showed that the nutrient concentration controlled the bacterial delivery to the target area more significantly than the injection flow rate. Injection of bacterial solution with lower nutrient concentration could be increased the deposited bacterial concentration at the target point (Stp) by 6.2-7.1 times higher. Short pulse injection with a high injection rate decreased Stp by 67-78%. The efficiency of bacterial delivery (Ed) could be increased three times higher by lowering nutrient concentration in the injection solution. The process of eval-uating the efficiency of bacterial delivery could be a prominent approach to determining the injection strategy for in-situ remediation considering variable conditions of a contaminated site.
Keywords
IN-GROUND WATER; POROUS-MEDIA; CONTAMINATED SOIL; ENHANCED BIOREMEDIATION; ESCHERICHIA-COLI; TRANSPORT; HYDROCARBONS; DEPOSITION; EFFICIENCY; BIOSTIMULATION; Bioaugmentation; Bacterial delivery; Deposition; Injection strategy; Ionic strength; Pore-water velocity
ISSN
0301-4797
URI
https://pubs.kist.re.kr/handle/201004/75825
DOI
10.1016/j.jenvman.2022.116971
Appears in Collections:
KIST Article > 2023
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