VVER-1000 model assessment using RELAP5-3D

Emilian L. Popov; Graydon L. Yoder; Valeri Velichkov

doi:10.13182/NT05-A3597

VVER-1000 model assessment using RELAP5-3D

Emilian L. Popov
, Graydon L. Yoder
, Valeri Velichkov

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Detailed thermal-hydraulic analysis of commercial power reactors requires modeling of complex multidimensional thermal, fluids, and neutronic behavior. One code that has three-dimensional (3-D) thermal-hydraulic and neutronic capabilities is RELAP-3D. A comparison of RELAP-3D predictions to experimental data obtained during start-up of the Kozloduy VVER-1000 nuclear power plant in Bulgaria is presented here. The experiment has distinguishable 3-D hydraulics effects that allow for code model verification and reasonable agreement with the experimental results obtained. The transient investigated was conducted at 29% reactor power, and it was initiated from a steady state where three out of four reactor coolant pumps were operating. The transient consisted of the start-up of the nonoperating pump. Simulation results were compared to both temperature and pump data from the experiment. Temperature predictions compared reasonably well to the experimental data; however, discrepancies existed between predicted and experimental pump head values.

Original language	English
Pages (from-to)	304-308
Number of pages	5
Journal	Nuclear Technology
Volume	149
Issue number	3
DOIs	https://doi.org/10.13182/NT05-A3597
State	Published - Mar 2005
Externally published	Yes

Keywords

Nuclear reactor
RELAP-3D code
VVER-1000

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10.13182/NT05-A3597

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title = "VVER-1000 model assessment using RELAP5-3D",

abstract = "Detailed thermal-hydraulic analysis of commercial power reactors requires modeling of complex multidimensional thermal, fluids, and neutronic behavior. One code that has three-dimensional (3-D) thermal-hydraulic and neutronic capabilities is RELAP-3D. A comparison of RELAP-3D predictions to experimental data obtained during start-up of the Kozloduy VVER-1000 nuclear power plant in Bulgaria is presented here. The experiment has distinguishable 3-D hydraulics effects that allow for code model verification and reasonable agreement with the experimental results obtained. The transient investigated was conducted at 29\% reactor power, and it was initiated from a steady state where three out of four reactor coolant pumps were operating. The transient consisted of the start-up of the nonoperating pump. Simulation results were compared to both temperature and pump data from the experiment. Temperature predictions compared reasonably well to the experimental data; however, discrepancies existed between predicted and experimental pump head values.",

keywords = "Nuclear reactor, RELAP-3D code, VVER-1000",

author = "Popov, \{Emilian L.\} and Yoder, \{Graydon L.\} and Valeri Velichkov",

year = "2005",

month = mar,

doi = "10.13182/NT05-A3597",

language = "English",

volume = "149",

pages = "304--308",

journal = "Nuclear Technology",

issn = "0029-5450",

publisher = "Taylor and Francis Group",

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TY - JOUR

T1 - VVER-1000 model assessment using RELAP5-3D

AU - Popov, Emilian L.

AU - Yoder, Graydon L.

AU - Velichkov, Valeri

PY - 2005/3

Y1 - 2005/3

N2 - Detailed thermal-hydraulic analysis of commercial power reactors requires modeling of complex multidimensional thermal, fluids, and neutronic behavior. One code that has three-dimensional (3-D) thermal-hydraulic and neutronic capabilities is RELAP-3D. A comparison of RELAP-3D predictions to experimental data obtained during start-up of the Kozloduy VVER-1000 nuclear power plant in Bulgaria is presented here. The experiment has distinguishable 3-D hydraulics effects that allow for code model verification and reasonable agreement with the experimental results obtained. The transient investigated was conducted at 29% reactor power, and it was initiated from a steady state where three out of four reactor coolant pumps were operating. The transient consisted of the start-up of the nonoperating pump. Simulation results were compared to both temperature and pump data from the experiment. Temperature predictions compared reasonably well to the experimental data; however, discrepancies existed between predicted and experimental pump head values.

AB - Detailed thermal-hydraulic analysis of commercial power reactors requires modeling of complex multidimensional thermal, fluids, and neutronic behavior. One code that has three-dimensional (3-D) thermal-hydraulic and neutronic capabilities is RELAP-3D. A comparison of RELAP-3D predictions to experimental data obtained during start-up of the Kozloduy VVER-1000 nuclear power plant in Bulgaria is presented here. The experiment has distinguishable 3-D hydraulics effects that allow for code model verification and reasonable agreement with the experimental results obtained. The transient investigated was conducted at 29% reactor power, and it was initiated from a steady state where three out of four reactor coolant pumps were operating. The transient consisted of the start-up of the nonoperating pump. Simulation results were compared to both temperature and pump data from the experiment. Temperature predictions compared reasonably well to the experimental data; however, discrepancies existed between predicted and experimental pump head values.

KW - Nuclear reactor

KW - RELAP-3D code

KW - VVER-1000

UR - https://www.scopus.com/pages/publications/17644408053

U2 - 10.13182/NT05-A3597

DO - 10.13182/NT05-A3597

M3 - Article

AN - SCOPUS:17644408053

SN - 0029-5450

VL - 149

SP - 304

EP - 308

JO - Nuclear Technology

JF - Nuclear Technology

IS - 3

ER -

VVER-1000 model assessment using RELAP5-3D

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Keywords

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