2017
DOI: 10.1016/j.anucene.2016.11.003
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Impact of thermal spectrum small modular reactors on performance of once-through nuclear fuel cycles with low-enriched uranium

Abstract: Small modular reactors (SMRs) may offer potential benefits relative to large light water reactors, such as enhanced flexibility in deployment and operation. However, it is vital to understand the holistic impact of SMRs on nuclear fuel cycle performance. The focus of this paper is the fuel cycle impacts of light water SMRs in a once-through fuel cycle with low-enriched uranium fuel. A key objective of this paper is to describe preliminary neutronics and fuel cycle analyses conducted in support of the US Depart… Show more

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Cited by 24 publications
(13 citation statements)
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“…Since the NuScale iPWR components discussed will consist of stainless steel with a composition similar to that of a PWR (i.e., type 304/304L stainless steel) ( 8 , 19 ), these long-lived LILW estimates are not sensitive to differences in the steel composition and associated neutron absorption cross-sections.…”
Section: Smr Waste Streams: Volumes and Characteristicsmentioning
confidence: 99%
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“…Since the NuScale iPWR components discussed will consist of stainless steel with a composition similar to that of a PWR (i.e., type 304/304L stainless steel) ( 8 , 19 ), these long-lived LILW estimates are not sensitive to differences in the steel composition and associated neutron absorption cross-sections.…”
Section: Smr Waste Streams: Volumes and Characteristicsmentioning
confidence: 99%
“…Non-LWR SMRs will generate a similar array of radioisotopes for disposal but will employ fuels with markedly different bulk chemistries. Lacking fuel cladding, the liquid fuel envisioned for molten salt reactors will release gaseous fission products—including isotopes of Xe that decay to high-activity or long-lived isotopes of Cs—to an off-gas system, forming an HLW stream ( 8 , 53 ). Noble metal fission products, on the other hand, will precipitate throughout the reactor structures ( section 3.3.2 ).…”
Section: Management and Disposal Of Smr Wastementioning
confidence: 99%
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“…The smaller core (500 MWth) will lose 7%, If the latter (3500 MWth) loses 3.5%. Furthermore, a recent SMR neutronic study by Oak Ridge National Lab (Brown et al, 2017) showed that ∼400 MWth SMR exhibits 6-8% leakage depending on the core loading patters and other input parameters.…”
Section: Design Of Fissile Loadingmentioning
confidence: 99%
“…The smaller core (500 MWth) will lose 7%, If the latter (3500 MWth) loses 3.5%. Furthermore, a recent SMR neutronic study by Oak Ridge National Lab (Brown et al, 2017) showed that ⇠400 MWth SMR exhibits 6-8% leakage depending on the core loading patters and other input parameters. Since WIMS calculations assume an infinitely-large core and a small core is prone to larger leakage, we have assumed 7.5% leakage in this study.…”
Section: Design Of Fissile Loadingmentioning
confidence: 99%