Assessing the role of a probabilistic model for guiding storm surge barrier maintenance
Assessing the role of a probabilistic model for guiding storm surge barrier maintenance
Storm surge barriers provide flood protection to many major coastal cities in estuaries around the world. Maintenance of these assets is critical to ensure they remain reliable and continue to comply with national legal protection standards. There are often critical thresholds of environmental conditions, beyond which maintenance work is unsafe to be carried out. However, as storm surge barriers age and with climate change effects such as sea-level rise and possible changes in storminess, periods when environmental conditions exceed set thresholds will occur more frequently, so carrying out the required work in available maintenance windows will become increasingly challenging. Probabilistic models enable the use of ensemble forecasts of upcoming water levels to determine the likelihood of conditions exceeding the threshold and so can inform on decision making regarding maintenance. This paper evaluates a probabilistic model currently in operational use by Rijkswaterstaat, the Dutch Ministry of Infrastructure and Water Management, to guide maintenance decisions at the Maeslant barrier in the Netherlands. Sixteen years of historic highwater level forecasts from a combination of European Centre for Medium-Range Weather Forecasts and Dutch Continental Shelf Model v5 are used with observations from the Hoek van Holland tide gauge to evaluate and sensitivity test the probabilistic model. Binary classification is used to assess the performance of the probabilistic model. Findings show that the model is conservative with 33.1 % of outcomes resulting in a False Alarm. Changing the baseline parameters of critical probability and water level threshold impacts the balance between False Alarm and Miss outcomes. Increasing the critical probability reduces the number of False Alarms but increases the Miss situations, emphasising the trade-off between acceptable risk and time available to carry out maintenance work. This study highlights the delicate balance between model parameter selection and the associated risk with respect to the maintenance of storm surge barriers.
Decision support system, Ensemble forecasting, Maintenance and operation, Management, Probabilistic model, Storm surge barriers
Trace-Kleeberg, Sunke
ee08806e-f112-4638-8de4-07692b2c0087
Saman, Krijn
d5354c52-ef63-452e-93e8-d02aef61af24
Vos, Robert
6185ead1-5dac-4775-a818-21650d7fc1d7
Huibregtse, Elja
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Haigh, Ivan D.
945ff20a-589c-47b7-b06f-61804367eb2d
Walraven, Marc
86143093-72cd-4490-a8ab-066531182d61
Zijderveld, Annette
7662ae79-3823-417d-b8eb-3fc87c24748d
Gourvenec, Susan
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
9 May 2025
Trace-Kleeberg, Sunke
ee08806e-f112-4638-8de4-07692b2c0087
Saman, Krijn
d5354c52-ef63-452e-93e8-d02aef61af24
Vos, Robert
6185ead1-5dac-4775-a818-21650d7fc1d7
Huibregtse, Elja
09af2fc9-0c34-4791-a72d-52028e8c8eed
Haigh, Ivan D.
945ff20a-589c-47b7-b06f-61804367eb2d
Walraven, Marc
86143093-72cd-4490-a8ab-066531182d61
Zijderveld, Annette
7662ae79-3823-417d-b8eb-3fc87c24748d
Gourvenec, Susan
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
Trace-Kleeberg, Sunke, Saman, Krijn, Vos, Robert, Huibregtse, Elja, Haigh, Ivan D., Walraven, Marc, Zijderveld, Annette and Gourvenec, Susan
(2025)
Assessing the role of a probabilistic model for guiding storm surge barrier maintenance.
Coastal Engineering, 200, [104766].
(doi:10.1016/j.coastaleng.2025.104766).
Abstract
Storm surge barriers provide flood protection to many major coastal cities in estuaries around the world. Maintenance of these assets is critical to ensure they remain reliable and continue to comply with national legal protection standards. There are often critical thresholds of environmental conditions, beyond which maintenance work is unsafe to be carried out. However, as storm surge barriers age and with climate change effects such as sea-level rise and possible changes in storminess, periods when environmental conditions exceed set thresholds will occur more frequently, so carrying out the required work in available maintenance windows will become increasingly challenging. Probabilistic models enable the use of ensemble forecasts of upcoming water levels to determine the likelihood of conditions exceeding the threshold and so can inform on decision making regarding maintenance. This paper evaluates a probabilistic model currently in operational use by Rijkswaterstaat, the Dutch Ministry of Infrastructure and Water Management, to guide maintenance decisions at the Maeslant barrier in the Netherlands. Sixteen years of historic highwater level forecasts from a combination of European Centre for Medium-Range Weather Forecasts and Dutch Continental Shelf Model v5 are used with observations from the Hoek van Holland tide gauge to evaluate and sensitivity test the probabilistic model. Binary classification is used to assess the performance of the probabilistic model. Findings show that the model is conservative with 33.1 % of outcomes resulting in a False Alarm. Changing the baseline parameters of critical probability and water level threshold impacts the balance between False Alarm and Miss outcomes. Increasing the critical probability reduces the number of False Alarms but increases the Miss situations, emphasising the trade-off between acceptable risk and time available to carry out maintenance work. This study highlights the delicate balance between model parameter selection and the associated risk with respect to the maintenance of storm surge barriers.
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More information
Accepted/In Press date: 23 April 2025
e-pub ahead of print date: 25 April 2025
Published date: 9 May 2025
Keywords:
Decision support system, Ensemble forecasting, Maintenance and operation, Management, Probabilistic model, Storm surge barriers
Identifiers
Local EPrints ID: 502090
URI: http://eprints.soton.ac.uk/id/eprint/502090
ISSN: 0378-3839
PURE UUID: b9a96560-f60c-4bde-8b14-26b8f8e19a62
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Date deposited: 16 Jun 2025 16:50
Last modified: 22 Aug 2025 02:32
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Author:
Krijn Saman
Author:
Robert Vos
Author:
Elja Huibregtse
Author:
Marc Walraven
Author:
Annette Zijderveld
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