Thermal hydraulic transient analysis of ITER chilled water system: Decay heat exchanger leak

•A model of the ITER chiller water system (CHWS-1B) has developed using RELAP5 mod3.3.•Several scenarios of decay heat exchanger leak/break in the drain tank room have investigated.•Event evolution has analysed, required measures to isolate the affected zone have defined.•Accident management strateg...

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Bibliographic Details
Published in:Fusion engineering and design 2021-12, Vol.173, p.112906, Article 112906
Main Authors: Vicini, Lavinia, Schiliuk, Nicolás, Coscarelli, Eugenio, Dell'Orco, Giovanni, Caruso, Gianfranco
Format: Article
Language:English
Subjects:
Accident management strategy
Accidents
Baking
Chilled water systems
Control equipment
Cooling systems
Cooling water
Corrosion products
Decay
Heat exchanger tubes
Heat exchangers
Hydraulic transients
Instrumentation & control
ITER
Redundancy
RELAP5–3D
Safety important
Shutdowns
Systems design
Thermal-hydraulic transient analysis
Three dimensional models
Transient analysis
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Summary:•A model of the ITER chiller water system (CHWS-1B) has developed using RELAP5 mod3.3.•Several scenarios of decay heat exchanger leak/break in the drain tank room have investigated.•Event evolution has analysed, required measures to isolate the affected zone have defined.•Accident management strategy is included in the analysis effort as well as a definition of the instrumentation and control fulfilling a relevant role in the event detection and mitigation. Chilled Water System (CHWS-1) is an ITER safety cooling system comprised of two independent and segregated trains (CHWS-1A and CHWS-1B), which provide cooling water to components located in Tokamak and Hot Cell Complexes. VV-PHTS is the only component that, during water baking mode, operates at high pressure than CHWS-1. In case of leaks, it represents a risk in terms of over pressurization and contamination of the CHWS-1 (due to tritiated water and activated corrosion products (ACPs)). Therefore, this paper postulates CHWS-1 leak events at one interface: Vacuum Vessel Primary Heat Transfer System. (VV-PHTS). Three scenarios have been analysed: an incident event (heat exchanger pipe leakage) and two accident events (heat exchanger tube break and multiple tubes break). A simplified RELAP5–3D model of CHWS-1B was developed to perform thermal hydraulic transient analysis as well as to define and size system operation and control. A postulated accident management strategy is included while also defining CHWS-1 instrumentation and control (I&C), which play a relevant role in event detection and mitigation procedures. The simulation results are studied to analyze and verify the system behavior as well as the required actions to reach and maintain a safe state after the given events. With respect to the events studied, this paper reports and confirms the system design to properly and safely bring CHWS-1B to a shutdown, as per corresponding ITER project requirements. This operating scenario has been studied for academic purposes; it is not related to the actual CHWS-1B design. During VV-PHTS baking mode, decay HX is not foreseen to be operative. In order to avoid affecting the redundancy of the system, this study supports this decision.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2021.112906