Aries Team
University of Wisconsin-Madison
33 Papers
253 Citations
Aries Team is an academic researcher from University of Wisconsin-Madison. The author has contributed to research in topics: Divertor & Power station. The author has an hindex of 13, co-authored 33 publications.
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Papers
W-Based Alloys for Advanced Divertor Designs: Options and Environmental Impact of State-of-the-Art Alloys
TL;DR: In this paper, the development of radiation resistant materials to sustain the harsh fusion environment represents a challenging task for divertor designers, and advanced physics simulations of the fusion environment have been conducted.
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ARIES-ACT2 DCLL Power Core Design and Engineering
X. R. Wang,Mark S. Tillack,C. Koehly,Siegfried Malang,H. H. Toudeshki,Farrokh Najmabadi,Aries Team +6 more
TL;DR: The ARIES-ACT2 as mentioned in this paper is a conventional tokamak power plant conceptual design that uses a dual-coolant lead-lithium (DCLL) blanket concept with a RAFS (reducedactivation ferritic steel) first-wall and blanket structure.
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Design optimization of high-performance helium-cooled divertor plate concept
TL;DR: A helium-cooled plate-type divertor design concept has been proposed within the framework of the ARIES power plant study as discussed by the authors, where W tiles are used as sacrificial armor, W-alloy as main structural material.
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Evolution of Clearance Standards and Implications for Radwaste Management of Fusion Power Plants
TL;DR: The issue of radioactive waste management presents a top challenge for the nuclear industry as discussed by the authors, as an alternative to recycling or disposal in repositories, many countries are proceeding successfully with nuclear waste management.
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Activation, Decay Heat, and Waste Disposal Analyses for the ARIES-AT Power Plant
TL;DR: In this paper, the authors performed detailed activation, decay heat and waste disposal calculations of the ARIES-AT design to evaluate the safety aspects of the device and found that the decay heat of the LiPb coolant was found to exceed that of the SiC components for several days after shutdown and that a purification system was required to remove the 210 Po and 203 Hg generated by Pb during operation.
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