The mercury sulfidation experiments were conducted in the pH range from 1 to 13. The results show that Hg(II) reacted with equimolar S( II ) has the lowest remained Hg(II ) concentration (9.7 μg/L) at pH 1.0 ...The mercury sulfidation experiments were conducted in the pH range from 1 to 13. The results show that Hg(II) reacted with equimolar S( II ) has the lowest remained Hg(II ) concentration (9.7 μg/L) at pH 1.0 and the highest remained concentration (940.8μg/L) at pH 13.0. Meanwhile, the changes of pH values were monitored exactly, which reveal that solution pH values change when mixing the same pH value solutions of HgCI2 and Na2S. In order to explain the phenomena and determine the reaction paths of Hg(II) reacting with S( II ) in the solution, the concerned thermodynamics was studied. Species of S( II )-H2O system and Hg(II)-H2O system at different pH values were calculated, and then the species distribution diagrams of S(II)-H2O system, Hg( II )-H2O system and Hg( II )-Cl-OH--H20 system were drawn. Combining the experimental data and thermodynamic calculation, the mechanism of Hg(II) reacting with S(II) was deduced. The results indicate that different species of S( II ) and Hg(II) have the diverse reaction paths to form HgS precipitate at different pH values and the standard Gibbs free energies change (△tGm^⊙) of those equations are also calculated, which can provide a guidance for mercury-containing wastewater treatment with Na2S.展开更多
基金Project(50925417) supported by China National Funds for Distinguished Young ScientistsProject(50830301) supported by the Key Project of the National Natural Science Foundation of China+2 种基金Project(308019) supported by the Key Science and Technical Project of Ministry of Science and Technology of ChinaProject(2007BAC25B01) supported by the National Key Project of Science and Technical Supporting Programs Funded by Ministry of Science and Technology of China during the 11th Five-Year PlanProject(08JJ3020) supported by the Natural Science Foundation of Hunan Province, China
文摘The mercury sulfidation experiments were conducted in the pH range from 1 to 13. The results show that Hg(II) reacted with equimolar S( II ) has the lowest remained Hg(II ) concentration (9.7 μg/L) at pH 1.0 and the highest remained concentration (940.8μg/L) at pH 13.0. Meanwhile, the changes of pH values were monitored exactly, which reveal that solution pH values change when mixing the same pH value solutions of HgCI2 and Na2S. In order to explain the phenomena and determine the reaction paths of Hg(II) reacting with S( II ) in the solution, the concerned thermodynamics was studied. Species of S( II )-H2O system and Hg(II)-H2O system at different pH values were calculated, and then the species distribution diagrams of S(II)-H2O system, Hg( II )-H2O system and Hg( II )-Cl-OH--H20 system were drawn. Combining the experimental data and thermodynamic calculation, the mechanism of Hg(II) reacting with S(II) was deduced. The results indicate that different species of S( II ) and Hg(II) have the diverse reaction paths to form HgS precipitate at different pH values and the standard Gibbs free energies change (△tGm^⊙) of those equations are also calculated, which can provide a guidance for mercury-containing wastewater treatment with Na2S.
