1. Effect of injection water ionic strength on estimating hydraulic parameters in a 3D sand tank using silica encapsulated magnetic DNA particles.
- Author
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Chakraborty, Swagatam, Elhaj, Rayan, Foppen, Jan Willem, and Schijven, Jack
- Subjects
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IONIC strength , *MAGNETIC particles , *ELECTRIC double layer , *MONTE Carlo method , *HYDRAULIC conductivity , *SAND - Abstract
• First to use superparamagnetic DNA tagged colloids (SiDNAmag) for hydraulic parameter estimation of a 3D sand aquifer, using monte carlo modelling approach at different ionic strengths. • Hydraulic parameter distributions estimated from sidnamag breakthrough curves through Monte Carlo simulation approach were statistically similar to salt tracer. • SiDNAmags are good candidate for determining hydraulic parameters of saturated 3D sand aquifer at short travel distance (50 cm). We investigated the applicability of Silica encapsulated, superparamagnetic DNA particles (SiDNAmag) in determining aquifer hydraulic parameters at different ionic strengths (1 mM, 5 mM, and 20 mM phosphate buffer) of injection suspension. Thereto, in a homogeneous, unconsolidated sand tank we pulse - injected two uniquely sequenced SiDNAmag at two injection points. At 0.5 m and 0.8 m downstream from the injection points, we measured the concentration of SiDNAmags at three vertically distributed and two horizontally distributed sampling locations. We estimated the hydraulic parameter distributions from the SiDNAmag breakthrough curves through a Monte – Carlo approach and compared the parameter distributions with salt tracer breakthrough curves. Our results indicated that at all the ionic strengths, the times of peak concentrations, and the shapes of the breakthrough curves were similar to the salt tracer. As compared to the salt, a 1 – 3 log units reduction in the maximum effluent concentration of SiDNAmag was due to kinetic attachment. The attachment rate reduced from 1 mM to 5 mM phosphate buffer possibly due to competitive adsorption of phosphate onto the favourable attachment sites. SiDNAmag attachment rate further increased in 20 mM buffer suspension, possibly due to the compression of electric double layer and reduction in energy barrier for attachment. The parameter distributions of hydraulic conductivity (k), effective porosity (n e), longitudinal dispersivity (α L), vertical transverse dispersivity (α TV /α L) and horizontal transverse dispersivity (α TH /α L) estimated from the SiDNAmag and the salt tracer breakthrough curves were statistically similar. Our work contributes to the applicability of colloidal SiDNAmags for determining hydraulic parameters at different ionic strength conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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