Reference Details
- Citation
- Weber et al 2021
- Author
- Weber, N.H., Stockenhuber, S.P., Delva, C.S., Fara, A.A., Grimison, C.C., Lucas, J.A., Mackie, J.C., Stockenhuber, M., and Kennedy, E.M.
- Title
- Kinetics of Decomposition of PFOS Relevant to Thermal Desorption Remediation of Soils
- Source
- Industrial and Engineering Chemistry Research
- Publication Year
- 2021
- Reference Category
- Primary Sources
- Reference Type
- Peer Reviewed Journals
- Source Details
- DOI: 10.1021/acs.iecr.1c01504
- DOI
- 10.1021/acs.iecr.1c01504Exit
- Non-Targeted Analysis Flag
- Yes
- Non-Targeted Analysis Details
- Includes identification, but not quantitation, of pyrolysis products.
- Notes
- Identifies products from pyrolysis of PFOS and derives rate constants; does not present removal efficiencies or pre- and post-pyrolysis concentrations in a format readily recorded in this database.
Scope
|
Open Scope | Matrix Detail | Scope Detail | |||
---|---|---|---|---|---|
Open Scope | Pyrolysis | Lab | Other | PFOS in powder form; SynQuest, 98% | Identifies products from pyrolysis of PFOS and derives rate constants; does not present removal efficiencies or pre- and post-pyrolysis concentrations in a format readily recorded in this database |
|
Condition
|
Open Condition | Pyrolysis | Lab | Other: PFOS in powder form; SynQuest, 98% | 400 | .8 second | To study the kinetics of PFOS thermal decomposition, temperatures for pyrolysis of PFOS ranged from 300−500 °C for the α-alumina tube and 550−700 °C for the stainless steel tube; residence times between 0.7 and 0.8 s. |
Open Condition | Pyrolysis | Lab | Other: PFOS in powder form; SynQuest, 98% | 600 | .8 second | To study the kinetics of PFOS thermal decomposition, temperatures for pyrolysis of PFOS ranged from 300−500 °C for the α-alumina tube and 550−700 °C for the stainless steel tube; residence times between 0.7 and 0.8 s. |
|
Thermal Treatment Results
No data found