G. Horhoianu scite author profile

G. Horhoianu

5Publications

5Citation Statements Received

0Citation Statements Given

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Institute for Nuclear Research Pitesti

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A finite element model for static strength analysis of CANDU fuel bundle

Horhoianu

Ionescu

2006

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A static strength analysis finite-element model has been developed using the ANSYS computer code in order to simulate the axial compression in CANDU type fuel bundle subject to hydraulic drag loads, deflection of fuel elements and stresses and displacements in the end plates. The validation of the finite-element model has been done by comparison with the out-reactor strength test results. Comparison of model predictions with the experimental results showed very good agreement. The comparative assessment reveals that SEU43 and SEU43L fuel bundles are able to withstand high flow rate without showing a significant geometric instability.

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Candu type fuel behavior during rapid overpower transients

Horhoianu

Ionescu

Ştefan

et al. 1998

Nuclear Engineering and Design

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Investigation of fuel rod behaviour under extended 1 burnup conditions with rofem fuel performance code

Horhoianu

Moscalu

Popescu

1998

Annals of Nuclear Energy

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Technical feasibility of using RU-43 fuel in the CANDU-6 reactors of the Cernavoda NPP

Horhoianu

Patrulescu

2008

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Recovered uranium (RU) is a by-product of many light-water reactor (LWR) fuel recycling programs. A fissile content in the RU of 0.9 to 1.0 % makes it impossible for reuse in an LWR without re-enrichment, but CANDU reactors have a sufficiently high neutron economy to use RU as fuel. The Institute for Nuclear Research (INR) Pitesti has analyzed the feasibility of using RU fuel with 0.9 – 1.1 w% 235U in the CANDU-6 reactors of the Cernavoda Nuclear Power Plant (Cernavoda NPP). Using RU fuel would produce a significant increase in the fuel discharge burnup, from 170 MWh/kgU currently achieves with natural-uranium (NU) fuel to about 355 MWh/kgU. This would lead to reduced fuel-cycle cost and a large reduction in spent-fuel volume per full-power-year of operation. The RU fuel bundle design with recovered uranium fuel, known as RU-43, is being developed by the INR Pitesti and is now at the stage of final design verification. Early work has been concentrated on RU-43 fuel bundle design optimization, safety and reactor physics assessment. The changes in fuel element and fuel bundle design contribute to the many advantages offered by the RU-43 bundle. Verification of the design of the RU-43 fuel bundle is performed in a way that shows that design criteria are met, and is mostly covered by proof tests such as flow and irradiation tests. The most relevant calculations performed on this fuel bundle design version are presented. Also, the stages of an experimental program aiming to verify the operating performance are briefly described in this paper.

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Strain and stress analysis in the end-cap weld region of a fuel element

Horhoianu

Moscalu

Popescu

1997

Nuclear Engineering and Design

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G. Horhoianu

A finite element model for static strength analysis of CANDU fuel bundle

Candu type fuel behavior during rapid overpower transients

Investigation of fuel rod behaviour under extended 1 burnup conditions with rofem fuel performance code

Technical feasibility of using RU-43 fuel in the CANDU-6 reactors of the Cernavoda NPP

Strain and stress analysis in the end-cap weld region of a fuel element

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