Abstract
Decommissioning legacy spent fuel ponds within nuclear facilities can be a complicated process, largely in part due to the unknown state of materials deposited into such storage ponds during the operational lifetime of the facility. Materials may have corroded, and their condition deteriorated. Due to the nature of the materials deposited in such storage sites, minimising disturbance is desirable, and as such non-destructive techniques such as optical analysis methods are preferred over destructive techniques. In this work, we demonstrate three such optical techniques (Raman spectroscopy, photogrammetry, and hyperspectral imaging) capable of ascertaining useful characteristics of objects such as material type, surface corrosion, degradation, and 3D structure. A pool environment was used to capture data and demonstrate the techniques suitability for use in nuclear waste characterization in active spent fuel ponds. The optical techniques used enabled material characteristics to be obtained.
Original language | English |
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Title of host publication | WM2022 Conference Proceedings |
Publication status | Published - 6 Mar 2022 |
Keywords
- nuclear
- optics
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Dive into the research topics of 'Underwater Spectroscopic Techniques for In-situ Nuclear Waste Characterisation'. Together they form a unique fingerprint.Prizes
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Paper of Note & Superior Paper Rating
Teague, Jonathan (Recipient), Megson-Smith, David (Recipient), Verbelen, Yannick S R (Recipient), Scott, Thomas Bligh (Recipient) & Day, John C C (Recipient), 23 Jun 2022
Prize: Other distinction