Phosphate and illite colloid pose a synergistic risk of enhanced uranium transport in groundwater: A challenge for phosphate immobilization remediation of uranium …
X Wei, X Shi, M Yang, Q Tan, Z Xu, B Ma, D Pan, W Wu - Water Research, 2024 - Elsevier
The phosphorus-containing reagents have been proposed to remediate the uranium
contaminated sites due to the formation of insoluble uranyl phosphate mineralization …
contaminated sites due to the formation of insoluble uranyl phosphate mineralization …
Phosphate and illite colloid pose a synergistic risk of enhanced uranium transport in groundwater: A challenge for phosphate immobilization remediation of uranium …
X Wei, X Shi, M Yang, Q Tan, Z Xu, B Ma, D Pan… - Water …, 2024 - europepmc.org
The phosphorus-containing reagents have been proposed to remediate the uranium
contaminated sites due to the formation of insoluble uranyl phosphate mineralization …
contaminated sites due to the formation of insoluble uranyl phosphate mineralization …
Phosphate and illite colloid pose a synergistic risk of enhanced uranium transport in groundwater: A challenge for phosphate immobilization remediation of uranium …
X Wei, X Shi, M Yang, Q Tan, Z Xu, B Ma, D Pan… - Water … - pubmed.ncbi.nlm.nih.gov
The phosphorus-containing reagents have been proposed to remediate the uranium
contaminated sites due to the formation of insoluble uranyl phosphate mineralization …
contaminated sites due to the formation of insoluble uranyl phosphate mineralization …
Phosphate and illite colloid pose a synergistic risk of enhanced uranium transport in groundwater: A challenge for phosphate immobilization remediation of uranium …
X Wei, X Shi, M Yang, Q Tan, Z Xu, B Ma… - Water …, 2024 - ui.adsabs.harvard.edu
Illite colloid and phosphate display synergistic promotion on uranium transport. Phosphate
precipitates with U (VI) to form intrinsic colloids for transport. Blocking coagulation of colloids …
precipitates with U (VI) to form intrinsic colloids for transport. Blocking coagulation of colloids …