Investigation of flow dynamics of primary coolant in a delay tank of a swimming pool-type nuclear reactor using radiotracer technique

Investigation of flow dynamics of primary coolant in a delay tank of a swimming pool-type nuclear reactor using radiotracer technique

Radiotracer investigations were carried out for tracing primary coolant in a delay tank of a swimming pool type nuclear reactor. The delay tank was designed to provide a certain delay or residence time to the primary coolant so that the short-lived radioisotopes such as (nitrogen-16 and oxygen-19) d...

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Bibliographic Details
Published in:Applied radiation and isotopes Vol. 156; p. 108982
Main Authors: Pant, Harish Jagat, Goswami, Sunil, Sharma, Vijay Kumar, Mukherjee, Tanumoy, Mukherjee, Kallol, Guchhait, Paban Kumar, Rastogi, Sachin, Pal, Sanjit, Thomas, Shibu, Mukherjee, Pradip, Pujari, Pradeep Kumar
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-02-2020
Subjects:
Axial dispersion model
Breakthrough time
Bypassing
Coolant
Dead volume
Delay tank
Mean residence time
Residence time distribution
Technetium-99m
Mean residence time
Coolant
Breakthrough time
Delay tank
Bypassing
Axial dispersion model
Residence time distribution
Dead volume
Technetium-99m
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Summary:Radiotracer investigations were carried out for tracing primary coolant in a delay tank of a swimming pool type nuclear reactor. The delay tank was designed to provide a certain delay or residence time to the primary coolant so that the short-lived radioisotopes such as (nitrogen-16 and oxygen-19) decay to a safer level before exiting from the delay tank. However, soon after commissioning of the reactor, the radiation levels at the exit of the reactor core and delay tank, in the working area were found to be higher than the permissible levels. Therefore, the main objectives of the investigations were to measure breakthrough and residence times and, to investigate flow dynamics of the coolant within the tank. Residence time distributions (RTDs) of the coolant were measured in the delay tank using technetium-99m as sodium pertechnatate as a radiotracer. The breakthrough time (BTT) and mean residence time (MRT) were determined from the measured RTD and the same were found to be inadequate to allow the decay of short-lived radioisotopes to the permissible levels. Axial dispersion model with two parallel flow streams was used to simulate the measured RTD curves. Results of the model simulation indicated bypassing of the coolant. Based on the results of the radiotracer investigations, necessary modifications were carried out in the design of the tank. After implementing the modifications, the radiotracer experiments were repeated and, the BTT and the MRT were found to increase sufficient enough to allow decay of the produced radioisotopes and thus to reduce the radiation levels at the exit of the delay tank and in the working area to the safer and permissible levels. •RTDs of cooling water in a delay tank of a nuclear reactor were measured using technetium-99m as a radiotracer.•Breakthrough time, mean residence time and dead volume were determined.•Two parallel flow paths with bypassing of coolant were observed in the delay tank.•Axial dispersion model was found suitable to model the measured RTD data.•Based on the results of the investigations, design of the delay tank was modified.
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content type line 23
ISSN:0969-8043
1872-9800
DOI:10.1016/j.apradiso.2019.108982