Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation

Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation

In a sudden shutdown of primary pump or coolant loss accident in a marine nuclear power plant, the primary flow decreases rapidly in a transition process from forced circulation (FC) to natural circulation (NC), and the lower flow enters the steam generator (SG) causing reverse flow in the U-tube. T...

Full description

Bibliographic Details
Main Authors: Mingrui Li, Wenzhen Chen, Jianli Hao, Weitong Li
Format: Article
Language:English
Published: Elsevier 2020-09-01
Series:Nuclear Engineering and Technology
Subjects:
Forced circulation
Natural circulation
Flow variation rate
Relap5
Reverse flow
Online Access:http://www.sciencedirect.com/science/article/pii/S1738573319309052
id doaj-2bea5f9b13064e58be6d20c3ea213bcb
record_format Article
spelling doaj-2bea5f9b13064e58be6d20c3ea213bcb2020-11-25T02:53:14ZengElsevierNuclear Engineering and Technology1738-57332020-09-0152919551962Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulationMingrui Li0Wenzhen Chen1Jianli Hao2Weitong Li3College of Nuclear Science and Technology, Naval University of Engineering, Wuhan, 430033, ChinaCollege of Nuclear Science and Technology, Naval University of Engineering, Wuhan, 430033, ChinaCorresponding author. Faculty 304, College of Nuclear Science and Technology, Naval University of Engineering, Wuhan, 430033, PR China.; College of Nuclear Science and Technology, Naval University of Engineering, Wuhan, 430033, ChinaCollege of Nuclear Science and Technology, Naval University of Engineering, Wuhan, 430033, ChinaIn a sudden shutdown of primary pump or coolant loss accident in a marine nuclear power plant, the primary flow decreases rapidly in a transition process from forced circulation (FC) to natural circulation (NC), and the lower flow enters the steam generator (SG) causing reverse flow in the U-tube. This can significantly compromise the safety of nuclear power plants. Based on the marine natural circulation steam generator (NCSG), an experimental loop is constructed to study the characteristics of reverse flow under middle-temperature and middle-pressure conditions. The transition from FC to NC is simulated experimentally, and the characteristics of SG reverse flow are studied. On this basis, the experimental loop is numerically modeled using RELAP5/MOD3.3 code for system analysis, and the accuracy of the model is verified according to the experimental data. The influence of the flow variation rate on the reverse flow phenomenon and flow distribution is investigated. The experimental and numerical results show that in comparison with the case of adjusting the mass flow discontinuously, the number of reverse flow tubes increases significantly during the transition from FC to NC, and the reverse flow has a more severe impact on the operating characteristics of the SG. With the increase of flow variation rate, the reverse flow is less likely to occur. The mass flow in the reverse flow U-tubes increases at first and then decreases. When the system is approximately stable, the reverse flow is slightly lower than obverse flow in the same U-tube, while the flow in the obverse flow U-tube increases.http://www.sciencedirect.com/science/article/pii/S1738573319309052Forced circulationNatural circulationFlow variation rateRelap5Reverse flow
collection DOAJ
language English
format Article
sources DOAJ
author Mingrui Li
Wenzhen Chen
Jianli Hao
Weitong Li
spellingShingle Mingrui Li
Wenzhen Chen
Jianli Hao
Weitong Li
Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
Nuclear Engineering and Technology
Forced circulation
Natural circulation
Flow variation rate
Relap5
Reverse flow
author_facet Mingrui Li
Wenzhen Chen
Jianli Hao
Weitong Li
author_sort Mingrui Li
title Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
title_short Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
title_full Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
title_fullStr Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
title_full_unstemmed Experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
title_sort experimental and numerical investigations on effect of reverse flow on transient from forced circulation to natural circulation
publisher Elsevier
series Nuclear Engineering and Technology
issn 1738-5733
publishDate 2020-09-01
description In a sudden shutdown of primary pump or coolant loss accident in a marine nuclear power plant, the primary flow decreases rapidly in a transition process from forced circulation (FC) to natural circulation (NC), and the lower flow enters the steam generator (SG) causing reverse flow in the U-tube. This can significantly compromise the safety of nuclear power plants. Based on the marine natural circulation steam generator (NCSG), an experimental loop is constructed to study the characteristics of reverse flow under middle-temperature and middle-pressure conditions. The transition from FC to NC is simulated experimentally, and the characteristics of SG reverse flow are studied. On this basis, the experimental loop is numerically modeled using RELAP5/MOD3.3 code for system analysis, and the accuracy of the model is verified according to the experimental data. The influence of the flow variation rate on the reverse flow phenomenon and flow distribution is investigated. The experimental and numerical results show that in comparison with the case of adjusting the mass flow discontinuously, the number of reverse flow tubes increases significantly during the transition from FC to NC, and the reverse flow has a more severe impact on the operating characteristics of the SG. With the increase of flow variation rate, the reverse flow is less likely to occur. The mass flow in the reverse flow U-tubes increases at first and then decreases. When the system is approximately stable, the reverse flow is slightly lower than obverse flow in the same U-tube, while the flow in the obverse flow U-tube increases.
topic Forced circulation
Natural circulation
Flow variation rate
Relap5
Reverse flow
url http://www.sciencedirect.com/science/article/pii/S1738573319309052
work_keys_str_mv AT mingruili experimentalandnumericalinvestigationsoneffectofreverseflowontransientfromforcedcirculationtonaturalcirculation
AT wenzhenchen experimentalandnumericalinvestigationsoneffectofreverseflowontransientfromforcedcirculationtonaturalcirculation
AT jianlihao experimentalandnumericalinvestigationsoneffectofreverseflowontransientfromforcedcirculationtonaturalcirculation
AT weitongli experimentalandnumericalinvestigationsoneffectofreverseflowontransientfromforcedcirculationtonaturalcirculation
_version_ 1724725909763653632

Similar Items