J.E. Mendel
Pacific Northwest National Laboratory
7 Papers
160 Citations
J.E. Mendel is an academic researcher from Pacific Northwest National Laboratory. The author has contributed to research in topics: Radioactive waste & Spent nuclear fuel. The author has an hindex of 4, co-authored 7 publications.
Chat about Author
Papers
Characterization of spent fuel approved testing material: ATM-103
R.J. Guenther,D.E. Blahnik,T.K. Campbell,U.P. Jenquin,J.E. Mendel,L.E. Thomas,C.K. Thornhill +6 more
- 01 Apr 1988
TL;DR: The characterization data obtained to date are described for Approved Testing Material (ATM)-103, which is spent fuel from Assembly D101 of pressurized-water reactor Calvert Cliffs, No. 1 as discussed by the authors.
Characterization of spent fuel approved testing material: ATM-106
R.J. Guenther,D.E. Blahnik,T.K. Campbell,U.P. Jenquin,J.E. Mendel,C.K. Thornhill +5 more
- 01 Oct 1988
TL;DR: The characterization data obtained to date are described for Approved Testing Material (ATM)-106 spent fuel from Assembly BT03 of pressurized-water reactor Calvert Cliffs No. 1 as discussed by the authors.
Characterization of spent fuel approved testing material---ATM-105
R.J. Guenther,D.E. Blahnik,T.K. Campbell,U.P. Jenquin,J.E. Mendel,L.E. Thomas,C.K. Thornhill +6 more
- 01 Dec 1991
TL;DR: The characterization data obtained to data are described for Approved Testing Material 105 (ATM-105), which is spent fuel from Bundles CZ346 and CZ348 of the Cooper Nuclear Power Plant, a boiling-water reactor as mentioned in this paper.
Characterization of spent fuel approved testing material--ATM-104
R.J. Guenther,D.E. Blahnik,U.P. Jenquin,J.E. Mendel,L.E. Thomas,C.K. Thornhill +5 more
- 01 Dec 1991
TL;DR: The characterization data obtained to date are described for Approved Testing Material 104 (ATM-104), which is spent fuel from Assembly DO47 of the Calvert Cliffs Nuclear Power Plant (Unit 1), a pressurized-water reactor as discussed by the authors.
The Scientific Basis for Long-Term Prediction of Waste-Form Performance Under Repository Conditions
TL;DR: In this article, it was found that the performance requirements for the waste form are not very restrictive and the waste can dissolve completely in 100 to 10,000 years without affecting safety.
7