Alex O. Schwarz, Ph.D.
Affiliations: | 2004 | Northwestern University, Evanston, IL |
Area:
Biogeochemistry, Environmental EngineeringGoogle:
"Alex Schwarz"Cross-listing: Microtree
Parents
Sign in to add mentorBruce E. Rittmann | grad student | 2004 | Northwestern | |
(Analytical and numerical modeling of bioprotection from zinc toxicity in sulfidic systems.) |
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Publications
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Schwarz A, Aybar M, Suárez J, et al. (2023) A steady-state pH-control model for the biological production of elemental sulfur from sulfate in mining-influenced water. Water Research. 250: 121067 |
Schwarz A, Suárez JI, Aybar M, et al. (2020) A membrane-biofilm system for sulfate conversion to elemental sulfur in mining-influenced waters. The Science of the Total Environment. 740: 140088 |
Schwarz A, Nancucheo I, Gaete MA, et al. (2020) Evaluation of Dispersed Alkaline Substrate and Diffusive Exchange System Technologies for the Passive Treatment of Copper Mining Acid Drainage Water. 12: 854 |
Pino L, Beltran E, Schwarz A, et al. (2020) Optimization of nanofiltration for treatment of acid mine drainage and copper recovery by solvent extraction Hydrometallurgy. 195: 105361 |
Suárez JI, Aybar M, Nancucheo I, et al. (2019) Influence of operating conditions on sulfate reduction from real mining process water by membrane biofilm reactors. Chemosphere. 244: 125508 |
Pérez N, Schwarz A, Bruijn Jd. (2018) Evaluation of fine organic mixtures for treatment of acid mine drainage in sulfidogenic reactors. Water Science and Technology. 78: 1715-1725 |
Torregrosa M, Schwarz A, Nancucheo I, et al. (2018) Evaluation of the bio-protection mechanism in diffusive exchange permeable reactive barriers for the treatment of acid mine drainage. The Science of the Total Environment. 655: 374-383 |
Pérez N, Schwarz AO, Barahona E, et al. (2018) Performance of two differently designed permeable reactive barriers with sulfate and zinc solutions. The Science of the Total Environment. 642: 894-903 |
Andalaft J, Schwarz A, Pino L, et al. (2018) Assessment and Modeling of Nanofiltration of Acid Mine Drainage Industrial & Engineering Chemistry Research. 57: 14727-14739 |
Pino L, Vargas C, Schwarz A, et al. (2018) Influence of operating conditions on the removal of metals and sulfate from copper acid mine drainage by nanofiltration Chemical Engineering Journal. 345: 114-125 |