Journal : Environ. Sci. Technol. (doi.org/10.1021/acs.est.2c07593)
Title: Cation−¥ð Interactions Contribute to Hydrophobic Humic Acid Removal for the
Control of Hydraulically Irreversible Membrane Fouling
Authors:Sohee Park, Seungju Choi, Yeong Kyu
Lee, Yongseok Jho, Seoktae Kang, and Dong Soo Hwang
Abstract: Hydraulically irreversible membrane fouling is a major problem
encountered during membrane-based water purification. Membrane foulants present
large hydrophobic fractions, with humic acid (HA) being a prevalent example of
hydrophobic natural organic matter. Furthermore, HA contains numerous aromatic
rings (¥ð
electrons), and its hydrophobic interactions are a major cause of irreversible
membrane fouling. To address this issue, in this study, we used the cation−¥ð interaction, which is a strong
noncovalent, competitive interaction present in water. Because the strength of
cation−¥ð interactions depends
on the combination of cations and ¥ð molecules,
utilizing the appropriate cations will effectively remove irreversible fouling
caused by hydrophobic HA. We performed macroscale experiments to determine the
cleaning potential of the test cations, nanomechanically analyzed the changes
in HA cohesion caused by the test cations using a surface force apparatus and
an atomic force microscope, and used molecular dynamics simulations to
elucidate the HA removal mechanism of test studied cations. We found that the
addition of 1-ethyl-3-methylimidazolium, an imidazolium cation with an aromatic
moiety, effectively removed the HA layer by weakening its cohesion, and the
size, hydrophobicity, and polarity of the HA layer synergistically affected the
HA removal mechanism based on the cation−¥ð interactions.