Skip to Main Content

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 ScopeMatrix DetailScope Detail
Open ScopePyrolysisLabOtherPFOS 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 ConditionPyrolysis | Lab | Other: PFOS in powder form; SynQuest, 98%400.8 secondTo 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 ConditionPyrolysis | Lab | Other: PFOS in powder form; SynQuest, 98%600.8 secondTo 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