Estudos preliminares de viabilidade neutronica e termohidraulica de um reator OTTO-HTR, utilizando plutonio como combustivel

TING, DANIEL K.S.

09 October 2014

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fertile materials

fuels

gas cooled reactors

htgr type reactors

neutrons

plutonium reactors

Definicoes preliminares dos parametros do projeto de um reator nuclear experimental de potencia, utilizando uranio natural e grafita... por gas helio

BALTAZAR, OSNI

09 October 2014

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gases

gas cooled reactors

htgr type reactors

graphite

natural uranium fuel

Estudo comparativo do efeito do U-236 no custo do combustivel de reatores HTGR e PWR

MARZO, MARCO A.S.

09 October 2014

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e. isotopes

uranium 236

economics

cost

fuels

fuel cycle

gas cooled reactors

htgr

water cooled reactors

pwr

Simulacao de acidentes de reatividade no reator tipo HTGR Fort Saint Vrain

FAINER, GERSON

09 October 2014

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accidents

reactor accidents

analog systems

reactor simulators

gas cooled reactors

htgr type reactors

programming

b codes

Conceptual design of an HTGR system for a total energy application.

Shin, Jae In

January 1975

Thesis. 1975. Nucl.E.--Massachusetts Institute of Technology. Dept. of Nuclear Engineering. / Bibliography: leaves 153-157. / Nucl.E.

Nuclear Engineering

Gas cooled reactors

Nuclear reactors Design and construction

Gas-turbines

An accident probability analysis and design evaluation of the gas-cooled fast breeder reactor demonstration plant

De Laquil, Pascal

January 1976

Thesis. 1976. Ph.D.--Massachusetts Institute of Technology. Dept. of Nuclear Engineering. / Microfiche copy available in Archives and Science. / Includes bibliographical references. / by Pascal De Laquil, III. / Ph.D.

Nuclear Engineering

Fast reactors

Breeder reactors

Gas cooled reactors

Nuclear reactor accidents

Structural engineering aspects of prestressed concrete reactor vessels.

Goldman, Bruce Ira

January 1975

Thesis. 1975. M.S.--Massachusetts Institute of Technology. Dept. of Civil Engineering. / Bibliography: leaves 124-129. / M.S.

Civil and Environmental Engineering

Finite element method

Prestressed concrete construction

Gas cooled reactors

Pressure vessels

An experimental study of laminarization induced by acceleration and curvature

Jackson, R. Brian

15 June 2012

The Generation IV Very High Temperature Reactor (VHTR) design is being actively studied in various countries for application due to its inherent passive safe design, higher thermal efficiencies, and proposed capability of providing high temperature process heat. The pebble bed core is one of two core designs used in gas reactors. In the pebble bed core there are mechanisms present which can cause the flow to laminarize, thus reducing its heat transfer effectiveness. Wind tunnel experiments were conducted using Particle Image Velocimetry (PIV) to investigate boundary layer laminarization due to flow acceleration and convex curvature effects. The flow was subject to acceleration and curvature both separately and together and the flow behavior characterized with velocity flow profiles, mean boundary layer parameters, and turbulence quantities. Laminarization was identified and the influence of acceleration and curvature was characterized. / Graduation date: 2013

Turbulent Boundary Layer

Laminarization

Particle Image Velocimetry

Turbulent boundary layer

Particle image velocimetry

Gas cooled reactors

Laminar flow

Etude d’un procédé de décontamination du 14C par carboxy-gazéification des déchets de graphite nucléaire / Study of a nuclear graphite waste 14C decontamination process by CO2 gasification

Pageot, Justin

18 December 2014

Le démantèlement des réacteurs Uranium Naturel Graphite-Gaz (UNGG), tous arrêtés depuis 1994, génèrera 23 000 tonnes de déchets de graphite de Faible Activité et Vie Longue (FAVL), contenant notamment du 14C. Le but de ce travail de thèse est d’étudier un procédé original d’extraction sélective de ce radionucléide par carboxy-gazéification. L’organisation multi-échelle des graphites vierge et irradié a été étudiée par un couplage entre microspectrométrie Raman et microscopie électronique à transmission. Avec la fluence neutronique, la structure se dégrade et la nanostructure peut être fortement modifiée. Dans les cas extrêmes, la nanostructure lamellaire du graphite nucléaire est devenue nanoporeuse. En outre, ces dégâts sont systématiquement hétérogènes. Un effet d’orientation des « cristallites », mis en évidence expérimentalement par implantation ionique, pourrait être une cause de ces hétérogénéités. Cette étude a également montré qu’à partir d’une certaine fluence, l'apparition importante de zones nanoporeuses coïncide avec une augmentation spectaculaire de la concentration en 14C. Ce radionucléide pourrait donc être préférentiellement concentré dans ces zones nanoporeuses qui sont potentiellement plus réactives que les zones restées lamellaires et a priori moins riches en 14C.Ce procédé par carboxy-gazéification a d'abord été testé sur des matériaux « analogues » non radioactifs (graphites broyés mécaniquement). Ces essais ont confirmé, pour des températures entre 950 et 1000 °C, l’élimination sélective et complète des zones nanoporeuses. Des tests ont alors été réalisés sur des déchets de graphite provenant des réacteurs Saint-Laurent-des-Eaux A2 et G2. Les résultats sont prometteurs avec notamment un quart du 14C extrait pour seulement quelques pourcents de perte de masse. Jusqu’à 68 % du 14C a pu être extrait, mais au prix d’une gazéification plus importante. Ce traitement permettrait donc d’extraire sélectivement une part du 14C (mobile ou lié à des zones nanoporeuses) et d’imaginer des scénarios alternatifs de gestion de ces déchets de graphite. / The decommissioning of French gas cooled nuclear reactors (UNGG), all arrested since 1994, will generate 23,000 tons of graphite waste classified Low Level and Long Lived and notably containing 14C. The aim of this thesis is to study a new method for selective extraction of this radionuclide by CO2 gasification.The multiscale organization of virgin and irradiated graphite has been studied by a coupling between microspectrometry Raman and transmission electron microscopy. With the neutron fluence, the structure degrades and the nanostructure can be greatly changed. In extreme cases, the lamellar nanostructure nuclear graphite has become nanoporous. Furthermore, these damages are systematically heterogeneous. An orientation effect of "crystallites", shown experimentally by ion implantation, could be a cause of these heterogeneities.This study also showed that from a specific fluence, there is an important development of nanoporous zones coinciding with a dramatic 14C concentration increase. This radionuclide could be preferentially concentrated in the nanoporous areas which are potentially more reactive than the remaining laminar areas which could be less rich in 14CThis process by CO2 gasification was firstly tested on "analogous" non-radioactive materials (mechanically milled graphite). These tests confirmed, for temperatures between 950 and 1000 °C, the selective and complete elimination of nanoporous areas.Tests were then carried out on graphite waste from Saint-Laurent-des-Eaux A2 and G2 reactors. The results are promising with notably the quarter of 14C inventory extracted for a weight loss of only few percent. Up to 68 % of 14C inventory was extracted, but with an important gasification. Thus, this treatment could allow extracting selectively a share of 14C inventory (mobile or linked to nanoporous areas) and allows imagining alternative scenarios for graphite waste managing.

Déchets de graphite nucléaire

Réacteur UNGG

Carbone 14

Caractérisations

Nanostructure

Gazéification

Traitement

Nuclear graphite waste

Gas-cooled reactors (UNGG)

Carbon 14

Characterizations

Nanostructure

Gasification

Treatment

Characteristic behaviour of pebble bed high temperature gas-cooled reactors during water ingress events / Samukelisiwe Nozipho Purity Khoza

Khoza, Samukelisiwe Nozipho Purity

January 2012

The effect of water ingress in two pebble bed high temperature gas-cooled reactors i.e. the PBMR-200 MWthermal and the PBMR-400 MWthermal were simulated and compared using the VSOP 99/05 suite of codes. To investigate the effect of this event on reactivity, power profiles and thermal neutron flux profiles, the addition of partial steam vapour pressures in stages up to 400 bar into the primary circuit for the PBMR-400 and up to 300 bar for the PBMR- 200 was simulated for both reactors. During the simulation, three scenarios were simulated, i.e. water ingress into the core only, water ingress into the reflectors only and water ingress into both the core and reflectors. The induced reactivity change effects were compared for these reactors. An in-depth analysis was also carried out to study the mechanisms that drive the reactivity changes for each reactor caused by water ingress into the fuel core only, the riser tubes in the reflectors only and ingress into both the fuel core and the riser tubes in the reflectors. The knowledge gained of these mechanisms and effects was used in order to propose design changes aimed at mitigating the reactivity increases, caused by realistic water ingress scenarios. Past results from simulations of water ingress into Pebble Bed Reactors were used to validate and verify the present simulation approach and results. The reactivity increase results for both reactors were in agreement with the German HTR-Modul calculations. / Thesis (MSc (Engineering Sciences in Nuclear Engineering))--North-West University, Potchefstroom Campus, 2013

Water ingress

Multiplication factor

Reactivity increase

PBMR-400

PBMR-200

Partial steam vapour pressure

VSOP 99/05