Reactor core conceptual design for a scalable heating experimental reactor, LUTHER
Truong, Thinh; Suikkanen, Heikki; Hyvärinen, Juhani (2021-06-01)
Publishers version
Truong, Thinh
Suikkanen, Heikki
Hyvärinen, Juhani
01.06.2021
Journal of Nuclear Engineering
2
2
207-214
MDPI
School of Energy Systems
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2021060834679
https://urn.fi/URN:NBN:fi-fe2021060834679
Tiivistelmä
In this paper, the conceptual design and a preliminary study of the LUT Heating Experimental Reactor (LUTHER) for 2 MWth power are presented. Additionally, commercially sized designs for 24 MWth and 120 MWth powers are briefly discussed. LUTHER is a scalable light-water pressure-channel reactor designed to operate at low temperature, low pressure, and low core power density. The LUTHER core utilizes low enriched uranium (LEU) to produce low-temperature output, targeting the district heating demand in Finland. Nuclear power needs to contribute to the decarbonizing of the heating and cooling sector, which is a much more significant greenhouse gas emitter than electricity production in the Nordic countries. The main principle in the development of LUTHER is to simplify the core design and safety systems, which, along with using commercially available reactor components, would lead to lower fabrication costs and enhanced safety. LUTHER also features a unique design with movable individual fuel assembly for reactivity control and burnup compensation. Two-dimensional (2D) and three-dimensional (3D) fuel assemblies and reactor cores are modeled with the Serpent Monte Carlo reactor physics code. Different reactor design parameters and safety configurations are explored and assessed. The preliminary results show an optimal basic core design, a good neutronic performance, and the feasibility of controlling reactivity by moving fuel assemblies.
Lähdeviite
Truong, T., Suikkanen, H., & Hyvärinen, J. (2021). Reactor Core Conceptual Design for a Scalable Heating Experimental Reactor, LUTHER. Journal of Nuclear Engineering, 2(2), 207–214. doi:10.3390/jne2020019
Alkuperäinen verkko-osoite
https://www.mdpi.com/2673-4362/2/2/19Kokoelmat
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