Acceleration and centralization of a back-diffusion process: Effects of EDTA-2Na on cadmium migration in high- and low-permeability systems

Acceleration and centralization of a back-diffusion process: Effects of EDTA-2Na on cadmium migration in high- and low-permeability systems

Pollutant accumulation in the low-permeability zones (LPZs) in groundwater systems is regarded as a secondary source, and its consequent back-diffusion can extend the timeframe of pump-and-treat remediation. However, the bioavailability and mobility of heavy metals and the medium characteristics can...

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Bibliographic Details
Published in:The Science of the total environment Vol. 706; p. 135708
Main Authors: You, Xueji, Liu, Shuguang, Dai, Chaomeng, Zhong, Guihui, Duan, Yanping, Tu, Yaojen
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-03-2020
Subjects:
Back-diffusion
Clay
EDTA
Heavy metals
High- and low-permeability zones
Plume tail
Clay
Back-diffusion
High- and low-permeability zones
Plume tail
EDTA
Heavy metals
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Summary:Pollutant accumulation in the low-permeability zones (LPZs) in groundwater systems is regarded as a secondary source, and its consequent back-diffusion can extend the timeframe of pump-and-treat remediation. However, the bioavailability and mobility of heavy metals and the medium characteristics can be changed during the process. This study investigated the accumulation and back-diffusion law of toxic metals and the effects of ethylenediaminetetraacetic acid disodium salt (EDTA-2Na) on them by implementing a series of tank experiments. In these experiments, a cadmium solution was injected first, and deionized water or EDTA-2Na constantly washed the system consisting of different medium layers. The experimental results showed that the cadmium breakthrough curves had some concentration gradient reverse points where the curves fluctuated with elution by deionized water, which did not exist when EDTA-2Na was the eluent. In these scenarios, the mass of accumulated cadmium in the media before elution was large, with a value of 931 mg (153 mg/kg), when the low-permeability medium was clay. However, when EDTA-2Na was injected together with cadmium, the value dropped to 319 mg (52.3 mg/kg), greatly reducing the cadmium accumulation. Additionally, the use of EDTA-2Na as an eluent resulted in the appearance of a secondary peak in the breakthrough curve, showing that EDTA-2Na accelerated and centralized the back-diffusion. Notably, the reduced cadmium accumulation in LPZs with the elution by EDTA-2Na was partly due to a reduced adsorption capacity of the clay minerals. The above results can advance the technology related to pump-and-treat remediation. [Display omitted] •Concentration gradient reverses governed the impacts of cadmium back-diffusion.•Cotransport of cadmium and EDTA-2Na during intrusion reduced cadmium accumulation in LPZs.•Elution of EDTA-2Na accelerated and centralized the back-diffusion process.•Zones located near upper interface of LPZs was a hazardous area of storing contaminants.•EDTA-2Na weakened adsorption capacity of clay by reducing its specific surface area.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2019.135708