Study of an improved and novel venturi scrubber configuration for removal of radioactive gases from NPP containment air during severe accident

Owing to the rising concerns about the safety of nuclear power plants (NPP), it is essential to study the venturi scrubber in detail, which is a key component of the filtered containment venting system (FCVS). FCVS alleviates the pressure in containment by filtering and venting out the contaminated...

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Published in:Nuclear engineering and technology 2022, 54(9), , pp.3310-3316
Main Authors: Farooq, Mujahid, Ahmed, Ammar, Qureshi, Kamran, Shah, Ajmal, Waheed, Khalid, Siddique, Waseem, Irfan, Naseem, Ahmad, Masroor, Farooq, Amjad
Format: Article
Language:English
Subjects:
Euler-Euler approach
Filtered containment venting system
Iodine removal
Mass transfer model
Realizable [formula omitted] model
Venturi scrubber
Venturi scrubbers in series
원자력공학
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Summary:Owing to the rising concerns about the safety of nuclear power plants (NPP), it is essential to study the venturi scrubber in detail, which is a key component of the filtered containment venting system (FCVS). FCVS alleviates the pressure in containment by filtering and venting out the contaminated air. The main objective of this research was to perform a CFD investigation of different configurations of a circular, non-submerged, self-priming venturi scrubber to estimate and improve the performance in the removal of elemental iodine from the air. For benchmarking, a mass transfer model which is based on two-film theory was selected and validated by experimental data where an alkaline solution was considered as the scrubbing solution. This mass transfer model was modified and implemented on a unique formation of two self-priming venturi scrubbers in series. Euler-Euler method was used for two-phase modeling and the realizable K−ε model was used for capturing the turbulence. The obtained results showed a remarkable improvement in the removal of radioactive iodine from the air using a series combination of venturi scrubbers. The removal efficiency was improved at every single data point.
ISSN:1738-5733
2234-358X
DOI:10.1016/j.net.2022.03.026