The 3-D time-dependent transport code TORT-TD and its coupling with the 3D thermal-hydraulic code ATTICA3D for HTGR applications

The application of the time-dependent 3-D discrete-ordinates neutron transport code TORT-TD to HTGR of pebble bed type and its coupling with the 3-D thermal-hydraulic code ATTICA3D is described. TORT-TD, developed at GRS, solves the time-dependent multi-group SN transport equation in both Cartesian...

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Veröffentlicht in:	Nuclear engineering and design 2012-10, Vol.251, p.173-180
Hauptverfasser:	Seubert, A., Sureda, A., Bader, J., Lapins, J., Buck, M., Laurien, E.
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Sprache:	eng
Schlagworte:	Benchmarking Heat transfer Joining Mathematical models Pebble bed Three dimensional Three dimensional models Transport
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container_title	Nuclear engineering and design
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creator	Seubert, A. Sureda, A. Bader, J. Lapins, J. Buck, M. Laurien, E.
description	The application of the time-dependent 3-D discrete-ordinates neutron transport code TORT-TD to HTGR of pebble bed type and its coupling with the 3-D thermal-hydraulic code ATTICA3D is described. TORT-TD, developed at GRS, solves the time-dependent multi-group SN transport equation in both Cartesian and curvilinear geometry using a fully implicit time discretization scheme. To provide a detailed 3-D core model for pebble bed type HTGRs, TORT-TD has been coupled with the 3-D thermal-hydraulic code ATTICA3D which is developed at IKE, University of Stuttgart. ATTICA3D provides a 3-D modeling of heat conduction and convection using a porous media approach. In this paper, the TORT-TD/ATTICA3D coupling methodology is described. The PBMR-268 and PBMR-400 benchmark problems have been chosen as first test cases for TORT-TD and the coupled code TORT-TD/ATTICA3D. In TORT-TD, the control rods in the side reflector have been modeled both as grey curtain and spatially resolved. Results for first coupled steady-state and transient calculations of the PBMR-400 benchmark are shown.
doi_str_mv	10.1016/j.nucengdes.2011.09.067
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TORT-TD, developed at GRS, solves the time-dependent multi-group SN transport equation in both Cartesian and curvilinear geometry using a fully implicit time discretization scheme. To provide a detailed 3-D core model for pebble bed type HTGRs, TORT-TD has been coupled with the 3-D thermal-hydraulic code ATTICA3D which is developed at IKE, University of Stuttgart. ATTICA3D provides a 3-D modeling of heat conduction and convection using a porous media approach. In this paper, the TORT-TD/ATTICA3D coupling methodology is described. The PBMR-268 and PBMR-400 benchmark problems have been chosen as first test cases for TORT-TD and the coupled code TORT-TD/ATTICA3D. In TORT-TD, the control rods in the side reflector have been modeled both as grey curtain and spatially resolved. Results for first coupled steady-state and transient calculations of the PBMR-400 benchmark are shown.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.nucengdes.2011.09.067</doi><tpages>8</tpages></addata></record>
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subjects	Benchmarking Heat transfer Joining Mathematical models Pebble bed Three dimensional Three dimensional models Transport
title	The 3-D time-dependent transport code TORT-TD and its coupling with the 3D thermal-hydraulic code ATTICA3D for HTGR applications
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