Numerical investigation of the deformation of a control rod system during a drop impact scenario in a typical material testing reactor

Alyan, Adel; Elkhatib, Hesham

doi:10.2298/ntrp190826001a

Cited by 2 publications

(1 citation statement)

References 2 publications

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“…HPIS starts actuation below 11 MPa, with a flow rate of 77 kgs -1 per pump where LPIS starts its injection below 1.1 MPa with a maximum flow rate of 325.4 kgs -1 per pump. There is an addition active ECCS called Extra Borating System (EBS) modeled with a constant non-pressure dependent injection mass flow rate of 2 kgs -1 per pump, [11][12][13]. In the simulation ATHLET Model, all active and passive injection systems are represented as fills.…”

Section: Active Safety System (Emergency Core Cooling Systems (Eccss))mentioning

confidence: 99%

Analysis of thermal hydraulic behavior of KONVOI PWR during a design extension condition

2021

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In Nuclear Power Plants the Design Extension Conditions are more complex and severe than those postulated as Design Basis Accidents, therefore, they must be taken into account in the safety analyses. In this study, many hypothetical investigated transients are applied on KONVOI pressurized water reactor during a 6-in. (182 cm2) cold leg Small Break Loss-of-Coolant-Accident to revise the effects of all safety systems ways through their availability/ nonavailability on the thermal hydraulic behaviour of the reactor. The investigated transients are represented through three cases of Small Break Loss-of-Coolant-Accident as, case-1, without scram and all of the safety systems are failure, case-2, the normal scram actuation with failure of all safety systems (nonavailability), and finally case 3, with normal actuation scram sequence and normal sequential actuation of all safety systems (availability). These three investigated transient cases are simulated by creation a model using Analysis of Thermal-Hydraulics of LEaks and Transient code. In all transient cases, all types of reactivity feedbacks, boron, moderator density, moderator temperature and fuel temperature are considered. The steady-state results are nearly in agreement with the plant parameters available in previous literatures. The results show the importance effects of the feedbacks reactivity at Loss-of-Coolant-Accident on the fallouts power, since they are considered the key parameters for controlling the clad and fuel temperatures to maintain them below their melting point. Moreover, the calculated results in all cases show that the thermal hydraulic parameters are in acceptable ranges and encounter the safety criterion during Loss-of-Coolant-Accident the Design Extension Conditions accidents processes. Furthermore, the results show that the core uncovers and fuel heat up do not occur in KONVOI pressurized water reactor in theses the Design Extension Conditions simulations since, all safety systems provide adequate core cooling by sufficient water inventory into the core to cover it.

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Section: Active Safety System (Emergency Core Cooling Systems (Eccss))mentioning

confidence: 99%

Analysis of thermal hydraulic behavior of KONVOI PWR during a design extension condition

2021

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Seismic behavior analysis of control rod dropping by vector form Intrinsic Finite-Element method

Wu,

Peng,

Jin

et al. 2024

Nuclear Engineering and Design

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Numerical investigation of the deformation of a control rod system during a drop impact scenario in a typical material testing reactor

Cited by 2 publications

References 2 publications

Analysis of thermal hydraulic behavior of KONVOI PWR during a design extension condition

Analysis of thermal hydraulic behavior of KONVOI PWR during a design extension condition

Seismic behavior analysis of control rod dropping by vector form Intrinsic Finite-Element method

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