Reference Details
- Citation
- Baghirzade et al 2021
- Author
- Baghirzade, B.S., Zhang, Y., Reuther, J. F., Saleh, N. B., Venkatesan, A. K., and Apul, O. G.
- Title
- Thermal Regeneration of Spent Granular Activated Carbon Presents an Opportunity to Break the Forever PFAS Cycle
- Source
- Environmental Science & Technology
- Publication Year
- 2021
- Reference Category
- Review Articles
- Reference Type
- Peer Reviewed Journals
- DOI
- 10.1021/acs.est.0c08224Exit
- Non-Targeted Analysis Flag
- No
- Notes
- Reviews the literature specifically on thermal regeneration of PFAS-laden granular activated carbon. Concludes that "...thermal regeneration of GAC remarkably encourages decomposition of GenX and PFBA, even at low temperatures... whereas PFOA and PFOS require higher temperatures for >99% decomposition."
Scope
|
Open Scope | Matrix Detail | Scope Detail | |||
---|---|---|---|---|---|
Open Scope | GAC Reactivation | Various | Treatment Media | PFAS-laden GAC waste | Review paper specifically on thermal regeneration of PFAS-laden granular activated carbon. Degradation of adsorbed PFAS discussion and data in Section 3. |
|
Condition
No data found
Thermal Treatment Results
No data found