Pump-induced pulsating pressure distributions in a system-integrated modular reactor

Kyung Min Kim; Byoung In Lee; Donghwi Lee; Hyung Hee Cho; Jin Seok Park; Kyeong Hoon Jeong

doi:10.1016/j.nucengdes.2012.03.048

Pump-induced pulsating pressure distributions in a system-integrated modular reactor

Kyung Min Kim
, Byoung In Lee
, Donghwi Lee
, Hyung Hee Cho^*
, Jin Seok Park
, Kyeong Hoon Jeong

^*Corresponding author for this work

Division of Mechanical System Engineering

Yonsei University
Korea Atomic Energy Research Institute

Research output: Contribution to journal › Journal article › peer-review

3 Scopus citations

Abstract

This study investigated pump pulsating pressure distributions in a scaled-down SMART research reactor developed by KAERI. The local pressures were measured in the research reactor to calculate the pump-induced loads. The calculated pressures agreed with the measured pressures at all 13 points in the reactor model within an error of 3%. The pressure variation was controlled by changing the number of pulsating pumps. When the number of pulsating pumps was one, two, or three, the relative pressure variation was 25%, 50%, and 75% of what was measured with four pulsating pumps. The pressure variation due to out-of-phase pulses could be deduced by superposition of the imposed pulses. The results indicated that the numerical method used in this study is suitable for calculating pump-induced loads in a nuclear reactor design.

Original language	English
Pages (from-to)	216-225
Number of pages	10
Journal	Nuclear Engineering and Design
Volume	248
DOIs	https://doi.org/10.1016/j.nucengdes.2012.03.048
State	Published - 2012.07

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10.1016/j.nucengdes.2012.03.048

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title = "Pump-induced pulsating pressure distributions in a system-integrated modular reactor",

abstract = "This study investigated pump pulsating pressure distributions in a scaled-down SMART research reactor developed by KAERI. The local pressures were measured in the research reactor to calculate the pump-induced loads. The calculated pressures agreed with the measured pressures at all 13 points in the reactor model within an error of 3\%. The pressure variation was controlled by changing the number of pulsating pumps. When the number of pulsating pumps was one, two, or three, the relative pressure variation was 25\%, 50\%, and 75\% of what was measured with four pulsating pumps. The pressure variation due to out-of-phase pulses could be deduced by superposition of the imposed pulses. The results indicated that the numerical method used in this study is suitable for calculating pump-induced loads in a nuclear reactor design.",

author = "Kim, \{Kyung Min\} and Lee, \{Byoung In\} and Donghwi Lee and Cho, \{Hyung Hee\} and Park, \{Jin Seok\} and Jeong, \{Kyeong Hoon\}",

year = "2012",

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doi = "10.1016/j.nucengdes.2012.03.048",

language = "English",

volume = "248",

pages = "216--225",

journal = "Nuclear Engineering and Design",

issn = "0029-5493",

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T1 - Pump-induced pulsating pressure distributions in a system-integrated modular reactor

AU - Kim, Kyung Min

AU - Lee, Byoung In

AU - Lee, Donghwi

AU - Cho, Hyung Hee

AU - Park, Jin Seok

AU - Jeong, Kyeong Hoon

PY - 2012/7

Y1 - 2012/7

N2 - This study investigated pump pulsating pressure distributions in a scaled-down SMART research reactor developed by KAERI. The local pressures were measured in the research reactor to calculate the pump-induced loads. The calculated pressures agreed with the measured pressures at all 13 points in the reactor model within an error of 3%. The pressure variation was controlled by changing the number of pulsating pumps. When the number of pulsating pumps was one, two, or three, the relative pressure variation was 25%, 50%, and 75% of what was measured with four pulsating pumps. The pressure variation due to out-of-phase pulses could be deduced by superposition of the imposed pulses. The results indicated that the numerical method used in this study is suitable for calculating pump-induced loads in a nuclear reactor design.

AB - This study investigated pump pulsating pressure distributions in a scaled-down SMART research reactor developed by KAERI. The local pressures were measured in the research reactor to calculate the pump-induced loads. The calculated pressures agreed with the measured pressures at all 13 points in the reactor model within an error of 3%. The pressure variation was controlled by changing the number of pulsating pumps. When the number of pulsating pumps was one, two, or three, the relative pressure variation was 25%, 50%, and 75% of what was measured with four pulsating pumps. The pressure variation due to out-of-phase pulses could be deduced by superposition of the imposed pulses. The results indicated that the numerical method used in this study is suitable for calculating pump-induced loads in a nuclear reactor design.

UR - https://www.scopus.com/pages/publications/84861092458

U2 - 10.1016/j.nucengdes.2012.03.048

DO - 10.1016/j.nucengdes.2012.03.048

M3 - Journal article

AN - SCOPUS:84861092458

SN - 0029-5493

VL - 248

SP - 216

EP - 225

JO - Nuclear Engineering and Design

JF - Nuclear Engineering and Design

ER -

Pump-induced pulsating pressure distributions in a system-integrated modular reactor

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