Abstract
This document gathers the slides that have been presented at the Jules Horowitz reactor (RJH) seminar. RJH is the next experimental reactor to be built in France, it will be commissioned in 2013. Its main characteristics are: - power: 100 MW - coolant and moderator: water (input water temperature 25 C, exit water temperature 41 C), down to up flow inside the core - reflector: water and beryllium - maximal enrichment: 19,75 % - mass of {sup 235}U: 21 kg - fast neutron flux (>0,907 MeV): 6,4.10{sup 14} n.cm{sup -2}.s{sup -1} - thermal neutron flux (<0,625 eV) inside the reflector on aluminium block: 7,3.10{sup 14} n.cm{sup -2}.s{sup -1}. The contributions can be classed into 6 topics: 1) presentation of RJH, 2) site studies, 3) its irradiation capacities, 4) calculation tools for its design (neutronic, photonic, fluid flow and heat transfer), 5) materials (aluminium alloys, mechanical resistance, welding, corrosion resistance), and 6) UMo nuclear fuel (fabrication, reprocessing). (A.C.)
Citation Formats
None.
RJH seminar; Seminaire RJH du 7 mars 2003.
France: N. p.,
2003.
Web.
None.
RJH seminar; Seminaire RJH du 7 mars 2003.
France.
None.
2003.
"RJH seminar; Seminaire RJH du 7 mars 2003."
France.
@misc{etde_20395323,
title = {RJH seminar; Seminaire RJH du 7 mars 2003}
author = {None}
abstractNote = {This document gathers the slides that have been presented at the Jules Horowitz reactor (RJH) seminar. RJH is the next experimental reactor to be built in France, it will be commissioned in 2013. Its main characteristics are: - power: 100 MW - coolant and moderator: water (input water temperature 25 C, exit water temperature 41 C), down to up flow inside the core - reflector: water and beryllium - maximal enrichment: 19,75 % - mass of {sup 235}U: 21 kg - fast neutron flux (>0,907 MeV): 6,4.10{sup 14} n.cm{sup -2}.s{sup -1} - thermal neutron flux (<0,625 eV) inside the reflector on aluminium block: 7,3.10{sup 14} n.cm{sup -2}.s{sup -1}. The contributions can be classed into 6 topics: 1) presentation of RJH, 2) site studies, 3) its irradiation capacities, 4) calculation tools for its design (neutronic, photonic, fluid flow and heat transfer), 5) materials (aluminium alloys, mechanical resistance, welding, corrosion resistance), and 6) UMo nuclear fuel (fabrication, reprocessing). (A.C.)}
place = {France}
year = {2003}
month = {Jul}
}
title = {RJH seminar; Seminaire RJH du 7 mars 2003}
author = {None}
abstractNote = {This document gathers the slides that have been presented at the Jules Horowitz reactor (RJH) seminar. RJH is the next experimental reactor to be built in France, it will be commissioned in 2013. Its main characteristics are: - power: 100 MW - coolant and moderator: water (input water temperature 25 C, exit water temperature 41 C), down to up flow inside the core - reflector: water and beryllium - maximal enrichment: 19,75 % - mass of {sup 235}U: 21 kg - fast neutron flux (>0,907 MeV): 6,4.10{sup 14} n.cm{sup -2}.s{sup -1} - thermal neutron flux (<0,625 eV) inside the reflector on aluminium block: 7,3.10{sup 14} n.cm{sup -2}.s{sup -1}. The contributions can be classed into 6 topics: 1) presentation of RJH, 2) site studies, 3) its irradiation capacities, 4) calculation tools for its design (neutronic, photonic, fluid flow and heat transfer), 5) materials (aluminium alloys, mechanical resistance, welding, corrosion resistance), and 6) UMo nuclear fuel (fabrication, reprocessing). (A.C.)}
place = {France}
year = {2003}
month = {Jul}
}