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Development of a method for high temperature reactor calculations tested at the critical facility Kahter using the program system RSYST. Entwicklung einer Rechenmethode zur HTR-Auslegung im Rahmen des Programmsystems RSYST und deren Erprobung an der kritischen Anlage 'Kahter'

Abstract

In this report the neutron- and reactor physical aspects of the high temperature pebble bed reactor are studied. For this purpose appropriate HTR-nuclear data sets are generated and applied in a calculation model, which is developed on the basis of neutron transport and diffusion theory. This model includes the complete reactor calculation for determination of neutron flux, reactivity and reaction rates. This reactor calculation is based on following: evaluation of resonance absorption in double heterogeneity, cell calculation in spherical geometry, zone spectral calculation and subsequent 2-dimensional diffusion calculation. All calculations are performed in the modular program system RSYST, which accommodates simplified treatment of reactor physics problems through its data transfer and treatment techniques and through its calculations control features. In this report the neutron- and reactor physical aspects of the high temperature pebble bed reactor are studied. For this purpose appropriate HTR-nuclear data sets are generated and applied in a calculation model, which is developed on the basis of neutron transport and diffusion theory. This model includes the complete reactor calculation for determination of neutron flux, reactivity and reaction rates. This reactor calculation is based on following: evaluation of resonance absorption in double heterogeneity, cell calculation in spherical geometry, zone  More>>
Authors:
Publication Date:
Aug 15, 1979
Product Type:
Thesis/Dissertation
Report Number:
Juel-1611
Subject:
21 SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS; COMPUTER CALCULATIONS; CONSTRUCTION; HTGR TYPE REACTORS; NETURON DIFFUSION EQUATION; NEUTRON FLUX; NEUTRON TRANSPORT THEORY; PEBBLE BED REACTORS; PLANNING; R CODES; REACTIVITY; REACTOR LATTICES; REACTOR PHYSICS; SPATIAL DISTRIBUTION
OSTI ID:
956986
Research Organizations:
Kernforschungsanlage Juelich G.m.b.H. (Germany). Inst. fuer Reaktorentwicklung; Technische Hochschule Aachen (Germany)
Country of Origin:
Germany
Language:
German
Submitting Site:
OSTI
Size:
112
Announcement Date:
Jun 25, 2009

Citation Formats

Nabi, R. Development of a method for high temperature reactor calculations tested at the critical facility Kahter using the program system RSYST. Entwicklung einer Rechenmethode zur HTR-Auslegung im Rahmen des Programmsystems RSYST und deren Erprobung an der kritischen Anlage 'Kahter'. Germany: N. p., 1979. Web.
Nabi, R. Development of a method for high temperature reactor calculations tested at the critical facility Kahter using the program system RSYST. Entwicklung einer Rechenmethode zur HTR-Auslegung im Rahmen des Programmsystems RSYST und deren Erprobung an der kritischen Anlage 'Kahter'. Germany.
Nabi, R. 1979. "Development of a method for high temperature reactor calculations tested at the critical facility Kahter using the program system RSYST. Entwicklung einer Rechenmethode zur HTR-Auslegung im Rahmen des Programmsystems RSYST und deren Erprobung an der kritischen Anlage 'Kahter'." Germany.
@misc{etde_956986,
title = {Development of a method for high temperature reactor calculations tested at the critical facility Kahter using the program system RSYST. Entwicklung einer Rechenmethode zur HTR-Auslegung im Rahmen des Programmsystems RSYST und deren Erprobung an der kritischen Anlage 'Kahter'}
author = {Nabi, R}
abstractNote = {In this report the neutron- and reactor physical aspects of the high temperature pebble bed reactor are studied. For this purpose appropriate HTR-nuclear data sets are generated and applied in a calculation model, which is developed on the basis of neutron transport and diffusion theory. This model includes the complete reactor calculation for determination of neutron flux, reactivity and reaction rates. This reactor calculation is based on following: evaluation of resonance absorption in double heterogeneity, cell calculation in spherical geometry, zone spectral calculation and subsequent 2-dimensional diffusion calculation. All calculations are performed in the modular program system RSYST, which accommodates simplified treatment of reactor physics problems through its data transfer and treatment techniques and through its calculations control features. In this report the neutron- and reactor physical aspects of the high temperature pebble bed reactor are studied. For this purpose appropriate HTR-nuclear data sets are generated and applied in a calculation model, which is developed on the basis of neutron transport and diffusion theory. This model includes the complete reactor calculation for determination of neutron flux, reactivity and reaction rates. This reactor calculation is based on following: evaluation of resonance absorption in double heterogeneity, cell calculation in spherical geometry, zone spectral calculation and subsequent 2-dimensional diffusion calculation. All calculations are performed in the modular program system RSYST, which accommodates simplified treatment of reactor physics problems through its data transfer and treatment techniques and through its calculations control features. The results of the calculations are compared with measured values of different core configurations of the critical facility for the high temperature pebble bed reactor (KAHTER). This comparison shows how a critical facility is used to verify and to adjust theoretical models for evaluating critical masses, neutron flux density and space dependent reaction rates. (orig.)}
place = {Germany}
year = {1979}
month = {Aug}
}