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Environmental organic chemistry
TLDR
An Introduction to Environmental Organic Chemicals is given in this article, where the authors present an overview of the main steps in the development of these processes, including the following: Sorption I: General Introduction and Sorption Processes Involving Organic Matter. Sorption II: Partitioning to Living Media - Bioaccumulation and Baseline Toxicity.Abstract:
Preface. Part I: Introduction. 1. General Topic and Overview. 2. An Introduction to Environmental Organic Chemicals. Part II: Equilibrium Partitioning Between Gaseous, Liquid, and Solid Phases. 3. Partitioning: Molecular Interactions and Thermodynamics. 4. Vapor Pressure. 5. Activity Coefficient and Solubility in Water. 6. Air-Organic Solvent and Air-Water Partitioning. 7. Organic Liquid-Water Partitioning. 8. Organic Acids and Bases: Acidity Constant and Partitioning Behavior. 9. Sorption I: General Introduction and Sorption Processes Involving Organic Matter. 10. Sorption II: Partitioning to Living Media - Bioaccumulation and Baseline Toxicity. 11. Sorption III: Sorption Processes Involving Inorganic Surfaces. Part III: Transformation Processes. 12. Thermodynamics and Kinetics of Transformation Reactions. 13. Chemical Transformations I: Hydrolysis and Reactions Involving Other Nucleophilic Species. 14. Chemical Transformations II: Redox Reactions. 15. Direct Photolysis. 16. Indirect Photolysis: Reactions with Photooxidants in Natural Waters and in the Atmosphere. 17. Biological Transformations. Part IV: Modeling Tools: Transport and Reaction. 18. Transport by Random Motion. 19. Transport Through Boundaries. 20. Air-Water Exchange. 21. Box Models. 22. Models in Space and Time. Part V: Environmental Systems and Case Studies. 23. Ponds, Lakes, and Oceans. 24. Rivers. 25. Groundwater. Appendix. Bibliography. Index (Subject Index, Compound Index, List of Illustrative Examples).read more
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Using COSMOtherm to predict physicochemical properties of poly- and perfluorinated alkyl substances (PFASs)
TL;DR: In this article, physicochemical properties of poly-and perfluorinated alkyl substances (PFASs) derived with a quantum-chemical model are provided, and the results provide insight into the effect of molecular structure on the properties of PFASs and a basis for estimating the environmental partitioning and fate of PFAss.
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PCBs in Lake Superior, 1978-1992: Decreases in Water Concentrations Reflect Loss by Volatilization.
TL;DR: Polychlorinated biphenyl water concentrations in Lake Superior from 1978 to 1992 have been compiled in order to determine long-term trends and indicate a loss of ∼26 500 μg of PCBs from Lake Superior during this 12-yr period.
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Polybrominated diphenyl ethers in the sediments of the Great Lakes. 1. Lake Superior.
TL;DR: Sediment cores were taken in 2001 and 2002 in Lake Superior at six locations away from lakeshores and segmented at 0.5−5 cm intervals using the 210Pb dating technique as mentioned in this paper.
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Acid dye removal: comparison of surfactant-modified mesoporous FSM-16 with activated carbon derived from rice husk
TL;DR: P Powder XRD and N2 adsorption studies of the CTAB/FSM-16 material indicated that the textural properties of the support were preserved during the hydrothermal synthesis and that the channels remained accessible, despite a significant reduction in surface area (ca. 26%).
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Removal of estrone and 17β-estradiol from water by adsorption
Yanping Zhang,John L. Zhou +1 more
TL;DR: In this paper, the authors report on the removal of estrone (E1) and 17beta-estradiol (E2) from water through the use of various adsorbents including granular activated carbon (GAC), chitin, chitosan, ion exchange resin and a carbonaceous adsorbent prepared from industrial waste.