Simulation of Wire Activation Experiments of Pickering Reactor Unit Number 2 Part A: Industrial Project Bipolar Junction Phototransistor Modelling Part B: McMaster (On-Campus) Project

Attia, A.

January 1973

<p>In the design of nuclear reactor cores, as elsewhere, it is important to know the accuracy of the analytical tools (computer codes) which are used. An accurate and effective way of obtaining this knowledge is to compare, for controlled reactor conditions, the measured with the simulated neutron flux distributions. The results of the SORGHUM code, which is used for evaluating methods of controlling large power reactors during and after some prescribed perturbations, were checked by simulating the reactor conditions existing in Pickering Reactor Unit 2 for the wire activation experiments during low power Phase B commissioning. Thermal flux distributions were measured for 13 different configurations of the reactivity control devices of Pickering reactor in two fuel channels Ml2 and K5. The SORGHUM code was used to simulate the conditions in 11 of the 13 experiments. The reactivity devices were represented rather simply by an incremental thermal absorption cross-section only. Some slight adjustment to these cross-sections was found necessary to obtain agreement with experimental results for both channels within a maximum discrepancy of 10%. A reactivity worth was calculated of 20.5 mk for alI adjuster rods and 5.0 mk for zone controllers. This should be compared with the measured values of 20.0 mk and 5.0 mk for adjuster rods and zone controllers, respectively.</p> / Master of Engineering (MEngr)

nuclear reactor cores

design

thermal flux

SORGHUM code

Engineering

Nuclear Engineering

Engineering

Medida da secção de choque térmica e da integral de ressonância da reação 41K(n,)42K / Thermal cross-section and resonance integral of the 41K(n,g)42K(n,g)43K reaction measurement

Ferreira Júnior, Felisberto Alves

22 August 2008

Pastilhas de nitrato de potássio foram irradiadas no núcleo do reator de pesquisas IEA-R1m do Instituto de Pesquisas Energéticas e Nucleares, IPEN/CNEN-SP, operando a 2 MW de potência, para determinar a secção de choque térmica e integral de ressonância da reação 41K(n,g)42K. O fluxo de nêutrons foi monitorado com folhas de liga ouro-alumínio. As atividades induzidas nos alvos foram determinadas por espectroscopia gama com detectores de germânio hiper puro. Os cálculos realizados se basearam no formalismo de Westcott. Foram realizadas simulações com o código MCNP (Monte Carlo N-Particle) para determinar a auto-blindagem e a depressão do fluxo de nêutrons nas pastilhas durante as irradiações e os fatores de correção da eficiência de detecção para fontes volumétricas, que leva em conta a absorção de raios gama nas mesmas. Foi efetuado um tratamento estatístico das incertezas envolvidas e determinadas as covariâncias entre os resultados, incluindo aquelas decorrentes das incertezas do padrão de referência (ouro). Os resultados obtidos foram comparados com os de outros autores. Foi testada a possibilidade de se observar o produto da reação 41K(n,g)42K(n,g)43K. / Pellets of potassium nitrate were irradiated in the IPEN/CNEN-SP (Instituto de Pesquisas Energeticas e Nucleares, Comissao de Energia Nuclear, Sao Paulo, SP) IEAR1m reactor core operating at 2 MW power in order to determine the 41K(n,g)42K reaction thermal cross-section and resonance integral. The neutron flux was monitored by Au-Al alloy foils, and the Westcott formalism was applied. Neutron self-shielding, flux depression and gamma-ray self-absorption in the relatively large samples, as well as the gamma-ray detection efficiency correction factor, were determined by simulation with MCNP code. The data reduction statistical methods included the determination of the covariances between the obtained results and the standard cross-sections used (Au). The results were compared to those already published. The observation of the consecutive neutron capture reaction leading to 43K was tried.

fluxo térmico

Formalismo de westcott

Integral de ressônancia

Monte Carlo simulation

Potássio

Potassium.

Resonance integral

Seçção de choque termica

Simulação de monte Carlo

Thermal flux

Thermal neutron cross-section

Westcott formalism

Medida da secção de choque térmica e da integral de ressonância da reação 41K(n,)42K / Thermal cross-section and resonance integral of the 41K(n,g)42K(n,g)43K reaction measurement

Felisberto Alves Ferreira Júnior

22 August 2008

Pastilhas de nitrato de potássio foram irradiadas no núcleo do reator de pesquisas IEA-R1m do Instituto de Pesquisas Energéticas e Nucleares, IPEN/CNEN-SP, operando a 2 MW de potência, para determinar a secção de choque térmica e integral de ressonância da reação 41K(n,g)42K. O fluxo de nêutrons foi monitorado com folhas de liga ouro-alumínio. As atividades induzidas nos alvos foram determinadas por espectroscopia gama com detectores de germânio hiper puro. Os cálculos realizados se basearam no formalismo de Westcott. Foram realizadas simulações com o código MCNP (Monte Carlo N-Particle) para determinar a auto-blindagem e a depressão do fluxo de nêutrons nas pastilhas durante as irradiações e os fatores de correção da eficiência de detecção para fontes volumétricas, que leva em conta a absorção de raios gama nas mesmas. Foi efetuado um tratamento estatístico das incertezas envolvidas e determinadas as covariâncias entre os resultados, incluindo aquelas decorrentes das incertezas do padrão de referência (ouro). Os resultados obtidos foram comparados com os de outros autores. Foi testada a possibilidade de se observar o produto da reação 41K(n,g)42K(n,g)43K. / Pellets of potassium nitrate were irradiated in the IPEN/CNEN-SP (Instituto de Pesquisas Energeticas e Nucleares, Comissao de Energia Nuclear, Sao Paulo, SP) IEAR1m reactor core operating at 2 MW power in order to determine the 41K(n,g)42K reaction thermal cross-section and resonance integral. The neutron flux was monitored by Au-Al alloy foils, and the Westcott formalism was applied. Neutron self-shielding, flux depression and gamma-ray self-absorption in the relatively large samples, as well as the gamma-ray detection efficiency correction factor, were determined by simulation with MCNP code. The data reduction statistical methods included the determination of the covariances between the obtained results and the standard cross-sections used (Au). The results were compared to those already published. The observation of the consecutive neutron capture reaction leading to 43K was tried.

fluxo térmico

Formalismo de westcott

Integral de ressônancia

Potássio

Seçção de choque termica

Simulação de monte Carlo

Monte Carlo simulation

Potassium.

Resonance integral

Thermal flux

Thermal neutron cross-section

Westcott formalism