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42 results on '"Claubia Pereira"'

1. Overview of Fourth Generation Reactors Studied at the Universidade Federal de Minas Gerais (Brazil)

Author

Clarysson Alberto Mello da Silva, Anderson Altair Pinheiro de Macedo, Maurício Gilberti, Fabiano Cardoso da Silva, Isabella Resende Magalhães, Antonella Lombardi Costa, and Claubia Pereira

Subjects
Generation Four Nuclear Reactors, Nuclear Fuel Cycle, Neutronic simulations, Science
Abstract

This paper presents the results of the studies about the Fourth Generation Reactors developed at DENU-UFMG, such as the Very High Temperature Reactor (VHTR), Molten Salt Breeder Reactor (MSBR), Sodium Fast Reactor (SFR) and Gas-cooled Fast Reactor (GFR). These studies evaluate neutronic parameters of the nuclear system at steady state and during the burnup using computer models developed at DENU-UFMG using SCALE 6.0 (KENO-VI/ORIGENS), MCNPX 2.6.0 and MCNP5. The results show that the adopted methodologies confirm the capabilities of the codes to simulate specific situations in steady state or transient operating conditions.

Published
2024
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2. Megavoltage radiotherapy effects on organs of the reticuloendothelial system

Author

Fernando Pereira, Andy Petroianu, Jony Marques Geraldo, and Claubia Pereira

Subjects
Mononuclear Phagocyte System, Kupffer Cells, Radiotherapy, Surgery, RD1-811
Abstract

ABSTRACT Purpose: To study the uptake capacity of cells from the reticuloendothelial system after irradiation with high-energy X-rays. Methods: Eighteen male Wistar rats were distributed in three groups: group A (n = 6): control, unirradiated animals studied alongside animals from group B; group B (n = 6) and group C (n = 6): animals irradiated and studied after 24 and 48 hours, respectively. The rats were anesthetized and placed on a 10 MV linear accelerator. Next, they were irradiated in the abdominal region, with 8 Gy. Twenty-four (groups A and B) and 48 hours later (group C), a colloidal carbon solution (1 mL/kg) was intravenously injected in the tail vein. Fifty minutes later, the spleens and livers were withdrawn and prepared to be studied. Kupffer cells and splenic macrophages containing carbon pigments were counted in an optical microscope. Arithmetic means were calculated for each group and compared among them. Results: X-rays were associated with a reduced number of Kupffer cells containing colloidal carbon, proliferation and enlargement of biliary ducts, hypoplasia, and hepatocyte necrosis. In the irradiated spleen, the colloidal carbon uptake was concentrated in the marginal zone around the white pulp, with an inexpressive uptake of pigments by macrophages from white and red pulps. Conclusions: The X-rays in the rat abdomen are associated with a reduction in the Kupffer cells uptake of colloidal carbon, hepatocyte disorders, bile duct proliferation, and splenic uptake of colloidal carbon concentrated in the marginal zone.

Published
2023
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3. Evaluation of the acid leaching technique for recovery of U3O8 and ThO2 in niobium/tantalum slag

Author

Vanderlei Vilaça Moura, Talita Santos, and Claubia Pereira

Subjects
uranium oxide, thorium oxide, metallurgical recovery, Science
Abstract

This study presented the recovery of uranium oxide and thorium oxide from aluminothermic slag from the metallurgical processing of columbite – a niobium/tantalum mineral with the presence of U3O8 and ThO2 – from a mining-industrial facility. The methodology consisted of sampling, comminution, and leaching using sulfuric acid. The head sample showed contents of (1.78 + 0.14) % for U3O8 and (3.66 + 0.04) % for ThO2. The metallurgical recovery reached values above 80% for the uranium oxide and above 70% for the thorium oxide for pH < 1.5 and process time greater than eight hours.

Published
2023
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4. Study of aluminothermic slag leaching for uranium and thorium recovery

Author

VANDERLEI VILAÇA MOURA, Talita Santos, and Claubia Pereira

Subjects
uranium oxide, thorium oxide, leaching, Science
Abstract

The need for energy by modern society is increasing. On the other hand, it is necessary to reduce costs and environmental impact. In this perspective, the recovery of uranium present in industrial waste from the processing of naturally occurring radioactive material (NORM) appears as a possible complement to the mining stage of the Nuclear Fuel Cycle. NORM's uranium recovery can reduce environmental liabilities and mineral processing costs (especially blasting, crushing, and grinding). The industrial residue of this study, a type of aluminothermic slag, comes from the metallurgical processing of columbite (niobium and tantalum mineral) and has a content, measured by X-ray fluorescence, of 1.78% of U3O8. This content is higher, for example than those found in Lagoa Real-BA (0.2% in rock) and Santa Quitéria-CE (0.1% in rock). Another material that will be studied is ThO2, which is also present in the slag with a content, measured by X-ray fluorescence, around 3.66%. The process parameters analyzed were pH of the solution, time, granulometry and percentage of solids. The metallurgical recovery of U3O8 reached a maximum value of 71,3% with pH = 1, time of 8 hours, 65 % percentage of solids, and 200 µm of granulometry. The metallurgical recovery of ThO2 reached a maximum value of 69,7% with pH = 1, time of 8 hours, 65 % percentage of solids, and 200 µm of granulometry.

Published
2022
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5. Long term comparison between reprocessed nuclear fuel cycles

Author

Fidéllis Bitencourt Gonzaga Louzada e Estanislau, Carlos Eduardo Velasquez, Antonella Lombardi Costa, and Claubia Pereira

Subjects
comparison, fuel cycle, reprocessed nuclear fuel, MOX, transuranic, Science
Abstract

Based on the idea of adopting closed fuel cycle in current pressurized water reactors (PWR) in order to reduce the use of natural uranium and recycle the spent fuel accumulated in the world inventory, this paper aims to compare two closed nuclear fuel cycles simulated at Model for Energy Supply Strategy Alternatives and their General Environmental Impacts (MESSAGE). The nuclear fuel cycles compared are: i) a closed fuel cycle with recovering of plutonium (Pu) to fabricate the mixed oxide (MOX) fuel; ii) a closed fuel cycle with recovering of a transuranic matrix to fabricate the transuranic fuel spiked with depleted uranium (TRU-U)O2. The comparison is based on the Brazilian nuclear energy system. They consider the time frame of 2019-2060 and the introduction of Angra 3 in the system. Advantages and disadvantages of using the strategy of operating with the different nuclear fuel cycles are shown, which include results regarding natural uranium consumption, spent fuel accumulation or utilization, nuclear waste and the nuclear fuel costs for both fuels.

Published
2022
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6. Macroscopic cross section generation with WIMS-ANL for a PWR

Author

Wilmer Aruquipa Coloma, Patrícia Amélia de Lima Reis, Clarysson Alberto Mello da Silva, and Claubia Pereira Bezerra Lima

Subjects
Macroscopic cross sections, BEAVRS, PWR, Science
Abstract

Based on the BEAVRS Benchmark (Benchmark for Evaluation And Validation of Reactor Simulations) which contains reference specifications for operational data and measurements for a pressurized water reactor (PWR), it presents a model for obtaining macroscopic cross sections for the different fuels assemblies of BEAVRS using the WIMS-ANL. The microscopic cross section data library used was ENDF/B-VI. For the cross-section calculation method, the multicellular model approach was considered, and the results were compared with other reference works. This methodology aims to validate the model of calculation of the cross sections, and thus, evaluate whether such methodology generates valid results. Also, in this work, the macroscopic cross-sections generated by WIMS were used to simulate the reactor core of a typical PWR in PARCS. All calculations were made for the reactor's Hot Zero Power status and the first cycle of operation.

Published
2022
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7. Thermal study of the modular high-temperature gas-cooled reactor

Author

Antonella Lombardi Costa, Mario Cerrogrande Ramos, Vitor Vasconcelos Araújo Silva, Claubia Pereira, and Maria Auxiliadora Fortini Veloso

Subjects
MHTGR, RELAP5-3D, Thermal Analysis, Science
Abstract

The Modular High-Temperature Gas-Cooled Reactor (MHTGR) is an advanced power plant being a coupling between a modular helium cooled reactor and a gas turbine. The gas-cooled reactor types are of great interest due to their potential to provide high-temperature process heat in addition to their high thermal-to-electric power conversion efficiency and inherent safety features. The MHTGR is helium-cooled, graphite-moderated and uses Triso-coated fuel particles immersed in a cylindrical-shaped graphite matrix. The annular core and fuel blocks are based on the FSV (Fort Saint Vrain) reactor design. In this work, a MHTGR model developed in the RELAP5-3D code is presented, as well as its verification for steady state calculations. The core simulations have been performed to three power values: 350, 450 and 600 MWth. The heat transfer along the blocks was investigated taking into account the diversion flow. The radial power distribution within the compact fuel was assumed to be uniform for the analysis. Radial and axial normalized power factors were specified for each axial segment in the heat structures that are coupled to the thermal hydraulic channels that shape the reactor core. In the analyses, coolant and fuel temperatures, pressure drop and mass flow rate were verified at steady state conditions. The results were very close to the reference ones demonstrating that the developed model is capable to reproduce the MHTGR core in steady state operation.

Published
2022

8. Methodology for Management and Physicochemical Control of the Cooling Water of the IPR-R1 Triga Nuclear Research Reactor

Author

João Gabriel Oliveira Marques, Amir Zacarias Mesquita, Antonella Lombardi Costa, and Claubia Pereira

Subjects
IPR-R1 Triga research reactor, cooling water, physicochemical control., Science
Abstract

The IPR-R1 Triga research reactor, located at CDTN (Nuclear Technology Development Center) in Brazil, is one of the oldest reactors in operation worldwide. The Brazilian Nuclear Energy Commission (Cnen) has granted a Permit for Permanent Operation license for the CDTN Triga reactor. This authorization includes some conditions to be settled within a period of up to two years, that is, until the end of 2019, which has not yet been carried out and is currently being prepared by CDTN. For this purpose, Project 0006.23 – Maintenance of Licensing of the IPR-R1 Triga Reactor was created in CDTN's Multiannual Program. In this project is included the Subproject: 6.23.3 – Preparation of the system to manage the aging of the IPR-R1 Triga reactor. Inserted in this context, the main objective of this paper is the proposal of good practices to be adopted in the future by CDTN, related to the Projects of Licensing and Aging of Triga reactor, for the management and physicochemical control of its cooling water, considering its electrical conductivity and pH, following IAEA recommendations. So, the present work is relevant, as it addresses a proposal for monitoring and controlling pH and electrical conductivity of the cooling water of Triga reactor. As a result of this proposal, the useful life of Triga reactor may be extended and there will be greater reliability and safety in its operation.

Published
2022
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9. Hydrogen as a Nuclear Thermal Rocket Propellant

Author

Antonella Lombardi Costa, Pedro Augusto Rezende, João Gabriel Oliveira, Claubia Pereira, and José Eduardo Mautone

Subjects
Nuclear Thermal Propulsion, Computational Fluid Dynamics, Rocket Propellant, Hydrogen, Science
Abstract

Nuclear Thermal Propulsion (NTP) is a successfully developed technology, though it hasn’t been officially used in the propulsion system of an astronautical mission. It is the technology most likely to make long distance journeys in space possible. It is considerably more efficient than the traditional chemical rocket engines, regarding propellant consumption for each unit of thrust generated. The reason for that is the greater number of choices regarding the propellant composition. Therefore, in this work, Hydrogen has been chosen as propellant due to its low molecular mass compared to other possible substances. The main aim is to explain how the propellant molecular mass impacts a rocket performance, and to show, by Computational Fluid Dynamics (CFD) simulations that, indeed, hydrogen seems to be the best choice available among possible nuclear thermal rocket propellants.

Published
2022
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41. Análise probabilística de segurança de eventos externos para um reator nuclear em fase de projeto no interior do Estado de São Paulo

Author

Thiago Padilha da Silva, Miguel Mattar Neto, Claubia Pereira Bezerra Lima, and Andressa dos Santos Nicolau

Abstract

Este trabalho apresenta uma metodologia para a implantação de uma análise probabilística de segurança (APS) de nível 1 para eventos externos. Além disso, tem como objetivo aplicar esta metodologia à análise de um reator nuclear em fase de projeto, localizado no interior do Estado de São Paulo. Dentre as motivações deste trabalho, é necessário destacar a busca por uma abordagem abrangente e estruturada para identificar perigos externos únicos e combinados e selecionar possíveis cenários acidentais decorrentes de eventos iniciadores gerados por estes perigos. O processo de revisão bibliográfica e normativa possibilitou a formulação de uma metodologia alinhada às principais referências elaboradas pela IAEA, U.S.NRC, EPRI, entre outras organizações internacionais. Consequentemente, a metodologia foi delineada de forma a ser desenvolvida por meio de etapas consecutivas, considerando sua aplicação gradativa no que diz respeito à APS de eventos externos ao longo da vida útil do reator. O estudo de caso permitiu demonstrar a aplicação da metodologia até a etapa de seleção de perigos externos únicos. Assim, a aplicação para um reator nuclear experimental em fase de projeto é apresentada, demonstrando que é possível reduzir, de forma justificada e rastreável, o número de perigos externos a serem considerados nas etapas posteriores da APS de eventos externos. This work presents a methodology for the implementation of a level 1 probabilistic safety analysis (PSA) for external events. In addition, it aims to apply the proposed methodology to the analysis of a nuclear reactor that is in the design phase and will be constructed in the interior of the State of São Paulo. Among the motivations of this work, it is necessary to highlight the search for a comprehensive and structured approach to identify single and combined hazards and select possible accidental scenarios arising from initiating events generated by these hazards. The bibliographic and normative review process contributed for the consolidation of a methodology aligned with the main references published by the IAEA, U.S.NRC, EPRI, among other international organizations. Therefore, the methodology consists of consecutive stages, which shall gradually be applied to the External Events PSA development throughout reactor lifetime. The case study demonstrated the application of the first three stages of the methodology, including the selection of single external hazards by means of a screening analysis. Thus, the methodology application for an experimental nuclear reactor in its design phase was presented, demonstrating that the number of external hazards to be considered in the External Events PSA can be reduced in a traceable and justifiable way.

Published
2022
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42. Evaluation of the thermal behavior and safety of a high temperature reactor

Author

Mario Cerrogrande Ramos, Antonella Lombardi Costa, Vitor Vasconcelos Araújo Silva, Maritza Rodriguez Gual, Mário Augusto Bezerra da Silva, Claubia Pereira Bezerra Lima, and Maria Auxiliadora Fortini Veloso

Subjects
Reatores nucleares, Análise termo-hidráulica, RELAP5-3D, Reatores GEN IV, CFD, Engenharia nuclear
Abstract

CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico FAPEMIG - Fundação de Amparo à Pesquisa do Estado de Minas Gerais CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior Outra Agência Os reatores de quarta geração (GEN-IV) operam com temperaturas muito elevadas em relação aos reatores de terceira geração e são candidatos da próxima geração de reatores nucleares, de acordo com a IAEA. Prever o desempenho termo-hidráulico de reatores de alta temperatura é uma contribuição importante para o desenvolvimento da tecnologia. Portanto, atenção especial é voltada para o comportamento dos materiais e transferência de calor nesses reatores. Dessa forma, a investigação e avaliação dos aspectos operacionais e de segurança dos reatores GEN-IV têm sido objeto de numerosos estudos pela comunidade internacional e também no Brasil. Neste trabalho, propõe-se uma metodologia para o estudo termo-hidráulico de reatores VHTR (Very High Temperature Reactor) do tipo prismáticos a partir de modelagens termo-hidráulicas por meio de estudos paramétricos alterando-se o modelo de turbulência, o perfil de geração de energia nos blocos combustíveis e a influência de modificações na própria geometria seja em regime de operação estacionário e em situações de transitório. Duas análises foram realizadas, sendo uma para o núcleo completo utilizando o código de análise termo-hidráulica RELAP5-3D para avaliar os parâmetros globais e outra para uma parte do núcleo do reator para a análise mais detalhada dos parâmetros locais com ferramentas de dinâmica dos fluidos computacional (CFD). Na metodologia do núcleo completo do reator VHTR são apresentadas modelagens e simulações com o código RELAP5-3D, bem como suas verificações para cálculos estacionários, considerando núcleos de reatores de alta temperatura refrigerados com hélio e sal líquido, e para cálculos transitórios de perda de vazão considerando o efeito das aberturas de desvio (gap). Por outro lado, a metodologia para a análise tridimensional com ferramentas de CFD foi dividida em 4 partes: (1) análise termo-hidráulica de um só canal de refrigeração; (2) análises de alguns aspectos da transferência de calor no elemento combustível consistindo de uma célula unitária; (3) avaliação de um método de linha de base para o fenômeno de escoamento e transferência de calor de um setor equivalente a 1/12 de uma coluna de blocos combustíveis padrão e (4) avaliação de um método para investigar o fluxo bypass em 1/12 de uma coluna de blocos combustíveis padrão e especialmente como é afetado por vários parâmetros. Foi comprovada a capacidade de predição dos principais parâmetros termo-hidráulicos a partir de diferentes modelos computacionais com a metodologia do núcleo completo em condições de estado estacionário e de transitório para o reator selecionado. As análises dos principais parâmetros termo-hidráulicos: temperatura dos elementos combustíveis, do refrigerante, dos elementos estruturais, velocidades e pressões foram realizadas com a metodologia CFD a partir de estudos comparativos com correlações semi-empíricas. A predição dos parâmetros termo-hidráulicos dos modelos computacionais do canal quente em 2D, 3D e da célula unitária, apresentam uma menor utilização de recursos computacionais, e junto a 1/12 da seção do bloco prismático permitem obter uma descrição aceitável da termo-hidráulica do reator VHTR. No estudo, a temperatura nos combustíveis compactos permanece sempre abaixo dos limites do projeto do reator de 1250°C em operação normal e sem atingir as temperaturas limites (1600°C). Destaca-se como principal resultado que as metodologias apresentadas nesse trabalho podem ser adotadas para simular qualquer tipo de reator nuclear prismático de alta temperatura. Fourth-generation reactors (GEN-IV) operate at much higher temperatures than third-generation reactors and are candidates for the next generation of nuclear reactors, according to the IAEA. Predicting the thermo-hydraulic performance of high temperature reactors is an important contribution to the development of technology. Therefore, special attention is paid to the behavior of materials and heat transfer in these reactors. In this way, the investigation and evaluation of the operational and safety aspects of the GEN-IV reactors have been the object of numerous studies by the international community and also in Brazil. In this work, a methodology is proposed for the thermo-hydraulic study of prismatic VHTR (Very High Temperature Reactor) reactors from thermo-hydraulic modeling through parametric studies, changing the turbulence model, the generation profile of energy in the fuel blocks and the influence of changes in the geometry itself, both in stationary operation and in transient situations. Two analyzes were performed, one for the complete core using the RELAP5-3D thermo-hydraulic analysis code to evaluate global parameters and another for a part of the reactor core for a more detailed analysis of local parameters with computational fluid dynamics tools (CFD). In the methodology of the complete core of the VHTR reactor, modeling and simulations with the code RELAP5-3D are presented, as well as their verifications for stationary calculations, considering cores of high temperature reactors cooled with helium and liquid salt, and for transient calculations of flow loss considering the effect of the gap (interstitial spaces between fuel elements). On the other hand, the methodology for the three-dimensional analysis with CFD tools was divided into 4 parts: (1) thermo-hydraulic analysis of a single cooling channel; (2) analysis of some aspects of heat transfer in the fuel element consisting of a unit cell; (3) evaluation of a baseline method for the phenomenon of flow and heat transfer of a sector equivalent to 1/12 of a standard fuel block column and (4) evaluation of a method to investigate bypass flow in 1 /12 of a standard fuel block column and especially how it is affected by various parameters. The ability to predict the main thermo-hydraulic parameters from different computational models with the complete core methodology under steady-state and transient conditions for the selected reactor was proven. The analyzes of the main thermo-hydraulic parameters: temperature of the fuel elements, of the coolant, of the structural elements, speeds and pressures were carried out with the CFD methodology from comparative studies with semi-empirical correlations. The prediction of the thermo-hydraulic parameters of the computational models of the hot channel in 2D, 3D and of the unit cell, present a lower use of computational resources, and together with 1/12 of the section of the prismatic block, it allows to obtain an acceptable description of the thermo-hydraulics of the VHTR reactor. In the study, the temperature in compact fuels always remains below the reactor design limits of 1250°C in normal operation and without reaching the limit temperatures (1600°C). The main result is that the methodologies presented in this work can be adopted to simulate any type of high temperature prismatic nuclear reactor.

Published
2022

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