Design optimization of a closure head for a PWR reactor pressure vessel

Design optimization of a closure head for a PWR reactor pressure vessel

•Optimized design of a RPV hemispherical head based on the most detrimental plane.•Optimized design for a RPV head flange based on the critical path.•Generation of high quality brick/hexahedral mesh required for detailed numerical stress analysis of RPV hemispherical head and RPV head flange.•Contro...

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Veröffentlicht in:Nuclear engineering and design 2021-11, Vol.383, p.111436, Article 111436
Hauptverfasser: Naweed, Muhammad, Murtaza, Usman Tariq, Siddique, Waseem
Format: Artikel
Sprache:eng
Schlagworte:
CRDM nozzles
Design
Design of experiments
Design optimization
Fracture toughness
Pressure head
Pressure vessel design
Pressure vessels
Pressurized water reactors
PWR
QUICKLOC nozzles
Reactors
Response surface methodology
RPV head flange
RPV hemispherical head
Stress analysis
Studs
Thickness
Yield criteria
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creator Naweed, Muhammad
Murtaza, Usman Tariq
Siddique, Waseem
description •Optimized design of a RPV hemispherical head based on the most detrimental plane.•Optimized design for a RPV head flange based on the critical path.•Generation of high quality brick/hexahedral mesh required for detailed numerical stress analysis of RPV hemispherical head and RPV head flange.•Control of under-designing and over-designing of the RPV closure head through detailed stress analysis. In this paper, design optimization of the closure head for PWR reactor pressure vessel has been performed. The RPV closure head mainly consist of hemispherical head with openings for CRDM and QUICKLOC nozzles, and head flange with holes for closure studs. Thickness of the head and height of the flange have been optimized by employing response surface optimization methodology through design of experiments technique. The effect of thickness of head and height of flange on the stress intensity distribution of the closure head in the presence of openings were studied in order to explore the best design under the guidelines of the ASME code. The under-designing (compromise of the Tresca yield criterion) and over-designing (compromise of the fracture toughness) of the closure head are controlled in a novel way through detailed stress analysis.
doi_str_mv 10.1016/j.nucengdes.2021.111436
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source ScienceDirect Journals (5 years ago - present)
subjects CRDM nozzles
Design
Design of experiments
Design optimization
Fracture toughness
Pressure head
Pressure vessel design
Pressure vessels
Pressurized water reactors
PWR
QUICKLOC nozzles
Reactors
Response surface methodology
RPV head flange
RPV hemispherical head
Stress analysis
Studs
Thickness
Yield criteria
title Design optimization of a closure head for a PWR reactor pressure vessel
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