Journal article
Nuclear Fusion, 2021
APA
Click to copy
Deoghar, A., Saraswat, A., Tailor, H., Verma, S., Gupta, S., Sasmal, C., … Bhattacharyay, R. (2021). Entrapment of impurities inside a cold trap: a purification process for removal of corrosion impurities from molten Pb-16Li. Nuclear Fusion.
Chicago/Turabian
Click to copy
Deoghar, A., A. Saraswat, H. Tailor, S. Verma, S. Gupta, C. Sasmal, V. Vasava, S. Sahu, A. Prajapati, and R. Bhattacharyay. “Entrapment of Impurities inside a Cold Trap: a Purification Process for Removal of Corrosion Impurities from Molten Pb-16Li.” Nuclear Fusion (2021).
MLA
Click to copy
Deoghar, A., et al. “Entrapment of Impurities inside a Cold Trap: a Purification Process for Removal of Corrosion Impurities from Molten Pb-16Li.” Nuclear Fusion, 2021.
BibTeX Click to copy
@article{a2021a,
title = {Entrapment of impurities inside a cold trap: a purification process for removal of corrosion impurities from molten Pb-16Li},
year = {2021},
journal = {Nuclear Fusion},
author = {Deoghar, A. and Saraswat, A. and Tailor, H. and Verma, S. and Gupta, S. and Sasmal, C. and Vasava, V. and Sahu, S. and Prajapati, A. and Bhattacharyay, R.}
}
As a part of the development and testing of a lead lithium eutectic (Pb-16Li) purification system at IPR, a wire mesh packing based prototype cold trap (CT) was designed, fabricated and installed in a purification loop to remove the impurities from ∼ 260 kg of the Pb-16Li. In the present work, the functionality of CT has been assessed continuously for a long duration of ∼3500 hour (∼5 months), in the molten Pb-16Li system. This long-duration operation of CT in the Pb-16Li system was imperative to test its reliability, since the recurrent replacement of the CT in the Pb-16Li system may not be feasible due to stringent operating conditions of fusion reactors. During the present experiment, the working of an impurity generator has been tested and the deposition of corrosion impurities has been achieved on the wire mesh packing of CT. The efficiency of CT has been estimated to assess the performance of the CT. Some oxide depositions were also found inside the CT. Different characterization techniques such as SEM-EDX, XRD, and ICP-AES were used for the characterization of the samples taken from the CT. The characterization results of needle shape deposition suggest the formation of iron–nickel intermetallic while the characterization of oxide deposition suggests the formation of Pb2O, Li2O, and PbO.