Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario
Following the Fukushima accident and its extended station blackout, attention was brought to the importance of the spent fuel pools' (SFPs) behavior in case of a prolonged loss of the cooling system. Since then, many analytical works have been performed to estimate the timing of hypothetical fu...
Main Authors: | , , , , |
---|---|
Format: | Article |
Language: | English |
Published: |
Elsevier
2016-08-01
|
Series: | Nuclear Engineering and Technology |
Subjects: | |
Online Access: | http://www.sciencedirect.com/science/article/pii/S1738573316300924 |
_version_ | 1811200365706608640 |
---|---|
author | Guillaume Mignot Sidharth Paranjape Domenico Paladino Bernd Jaeckel Adolf Rydl |
author_facet | Guillaume Mignot Sidharth Paranjape Domenico Paladino Bernd Jaeckel Adolf Rydl |
author_sort | Guillaume Mignot |
collection | DOAJ |
description | Following the Fukushima accident and its extended station blackout, attention was brought to the importance of the spent fuel pools' (SFPs) behavior in case of a prolonged loss of the cooling system. Since then, many analytical works have been performed to estimate the timing of hypothetical fuel uncovery for various SFP types. Experimentally, however, little was done to investigate issues related to the formation of a flammable gas mixture, distribution, and stratification in the SFP building itself and to some extent assess the capability for the code to correctly predict it.
This paper presents the main outcomes of the Experiments on Spent Fuel Pool (ESFP) project carried out under the auspices of Swissnuclear (Framework 2012–2013) in the PANDA facility at the Paul Scherrer Institut in Switzerland. It consists of an experimental investigation focused on hydrogen concentration build-up into a SFP building during a predefined scaled scenario for different venting positions. Tests follow a two-phase scenario. Initially steam is released to mimic the boiling of the pool followed by a helium/steam mixture release to simulate the deterioration of the oxidizing spent fuel. Results shows that while the SFP building would mainly be inerted by the presence of a high concentration of steam, the volume located below the level of the pool in adjacent rooms would maintain a high air content. The interface of the two-gas mixture presents the highest risk of flammability. Additionally, it was observed that the gas mixture could become stagnant leading locally to high hydrogen concentration while steam condenses. Overall, the experiments provide relevant information for the potentially hazardous gas distribution formed in the SFP building and hints on accident management and on eventual retrofitting measures to be implemented in the SFP building. |
first_indexed | 2024-04-12T02:03:40Z |
format | Article |
id | doaj.art-6fdde1072b8b444b8e0703a9bd992b91 |
institution | Directory Open Access Journal |
issn | 1738-5733 |
language | English |
last_indexed | 2024-04-12T02:03:40Z |
publishDate | 2016-08-01 |
publisher | Elsevier |
record_format | Article |
series | Nuclear Engineering and Technology |
spelling | doaj.art-6fdde1072b8b444b8e0703a9bd992b912022-12-22T03:52:36ZengElsevierNuclear Engineering and Technology1738-57332016-08-0148488189210.1016/j.net.2016.06.005Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident ScenarioGuillaume MignotSidharth ParanjapeDomenico PaladinoBernd JaeckelAdolf RydlFollowing the Fukushima accident and its extended station blackout, attention was brought to the importance of the spent fuel pools' (SFPs) behavior in case of a prolonged loss of the cooling system. Since then, many analytical works have been performed to estimate the timing of hypothetical fuel uncovery for various SFP types. Experimentally, however, little was done to investigate issues related to the formation of a flammable gas mixture, distribution, and stratification in the SFP building itself and to some extent assess the capability for the code to correctly predict it. This paper presents the main outcomes of the Experiments on Spent Fuel Pool (ESFP) project carried out under the auspices of Swissnuclear (Framework 2012–2013) in the PANDA facility at the Paul Scherrer Institut in Switzerland. It consists of an experimental investigation focused on hydrogen concentration build-up into a SFP building during a predefined scaled scenario for different venting positions. Tests follow a two-phase scenario. Initially steam is released to mimic the boiling of the pool followed by a helium/steam mixture release to simulate the deterioration of the oxidizing spent fuel. Results shows that while the SFP building would mainly be inerted by the presence of a high concentration of steam, the volume located below the level of the pool in adjacent rooms would maintain a high air content. The interface of the two-gas mixture presents the highest risk of flammability. Additionally, it was observed that the gas mixture could become stagnant leading locally to high hydrogen concentration while steam condenses. Overall, the experiments provide relevant information for the potentially hazardous gas distribution formed in the SFP building and hints on accident management and on eventual retrofitting measures to be implemented in the SFP building.http://www.sciencedirect.com/science/article/pii/S1738573316300924ExperimentHydrogenPANDASpent Fuel PoolStation Blackout |
spellingShingle | Guillaume Mignot Sidharth Paranjape Domenico Paladino Bernd Jaeckel Adolf Rydl Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario Nuclear Engineering and Technology Experiment Hydrogen PANDA Spent Fuel Pool Station Blackout |
title | Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario |
title_full | Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario |
title_fullStr | Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario |
title_full_unstemmed | Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario |
title_short | Large Scale Experiments Simulating Hydrogen Distribution in a Spent Fuel Pool Building During a Hypothetical Fuel Uncovery Accident Scenario |
title_sort | large scale experiments simulating hydrogen distribution in a spent fuel pool building during a hypothetical fuel uncovery accident scenario |
topic | Experiment Hydrogen PANDA Spent Fuel Pool Station Blackout |
url | http://www.sciencedirect.com/science/article/pii/S1738573316300924 |
work_keys_str_mv | AT guillaumemignot largescaleexperimentssimulatinghydrogendistributioninaspentfuelpoolbuildingduringahypotheticalfueluncoveryaccidentscenario AT sidharthparanjape largescaleexperimentssimulatinghydrogendistributioninaspentfuelpoolbuildingduringahypotheticalfueluncoveryaccidentscenario AT domenicopaladino largescaleexperimentssimulatinghydrogendistributioninaspentfuelpoolbuildingduringahypotheticalfueluncoveryaccidentscenario AT berndjaeckel largescaleexperimentssimulatinghydrogendistributioninaspentfuelpoolbuildingduringahypotheticalfueluncoveryaccidentscenario AT adolfrydl largescaleexperimentssimulatinghydrogendistributioninaspentfuelpoolbuildingduringahypotheticalfueluncoveryaccidentscenario |