Draining and drying process development of the Tokamak Cooling Water System of ITER

•A thermal-hydraulic model using RELAP was developed for the ITER FW/BLK modules to determine design parameters for the nitrogen blowout flow rate and pressure.•The analysis indicates that as low as 2MPa of pressure difference over the blanket modules will sufficiently evacuate the water in blankets...

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Bibliographic Details
Published in:Fusion engineering and design 2016-11, Vol.109-111, p.272-277
Main Authors: Kim, Seokho, Van Hove, Walter, Ferrada, Juan, Di Maio, Pietro Alessandro, Felde, David, Raphael, Mitteau, Dell’Orco, Giovanni, Berry, Jan
Format: Article
Language:English
Subjects:
Blanket
Draining Process
Drying Process
First Wall
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Summary:•A thermal-hydraulic model using RELAP was developed for the ITER FW/BLK modules to determine design parameters for the nitrogen blowout flow rate and pressure.•The analysis indicates that as low as 2MPa of pressure difference over the blanket modules will sufficiently evacuate the water in blankets.•A limited validation study indicates that the analysis yields less conservative results to compare against data collected from experiments. Therefore, the designed blow out flow of the drying system was selected with a large margin above the measured values to ensure the blow out operation. The ITER Organization (IO) developed a thermal-hydraulic (TH) model of the complex first wall and blanket (FW/BLK) cooling channels to determine gas flow rate and pressure required to effectively blow out the water in the FW/BLK. In addition, US ITER conducted experiments for selected geometries of FW/BLK flow channels to predict the blowout parameters. The analysis indicates that as low as 2MPa of pressure difference over the blanket modules will ensure substantial evacuation of the water in blankets with just a few percent remaining in the blanket flow channels. A limited validation study indicates that the analysis yields less conservative results to compare against data collected from experiments. Therefore, the designed blow out flow of the drying system was selected with a large margin above the measured values to ensure the blow out operation.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2016.03.013