LC 00412: verschil tussen versies
Geen bewerkingssamenvatting |
Geen bewerkingssamenvatting |
||
Regel 20: | Regel 20: | ||
==== Main activities ==== | ==== Main activities ==== | ||
The main activities/steps carried out towards improved FRM strategies, the tools applied and the actors involved are the followings: | The main activities/steps carried out towards improved FRM strategies, the tools applied and the actors involved are the followings: | ||
# '''Get | # '''Get acquainted with the area''' (description of the area, stakeholders analysis). The province contacted all vital infrastructure owners to discuss the problems and the possible solutions. Once the problem was clear, the rest of stakeholders were involved (vital infrastructure owners, regional government, knowledge institutes, the municipality of Reimerswaal, the safety region, the water board and the Ministry of infrastructure & Water Management). It was hard to get involved stakeholders from private companies, such as Prorail. Vital infrastructure owners and the safety region are the most important actors of the project. The actors met individually, in small groups at a round table discussion, or large groups in workshops. | ||
# '''Get the geodata of the electricity grid assets'''. The Province of Zeeland contacted (via phone, emails, meetings) the vital infrastructure owners to discuss about the flood risks and reach an agreement to keep this data confidential providing only a code number. | # '''Get the geodata of the electricity grid assets'''. The Province of Zeeland contacted (via phone, emails, meetings) the vital infrastructure owners to discuss about the flood risks and reach an agreement to keep this data confidential providing only a code number. | ||
# '''Vulnerability analysis'''. The vulnerability analysis of adaptive critical infrastructure (roads, rail, electricity) and the cascading effects use done by {{External link|resource=Resource Hyperlink 00392|name=Witteveen + Bos|dialog=process-linkwebsite-dialog}} (on behalf of Province Zeeland) in collaboration with the {{Cite|resource=Resource Hyperlink 00391|name=RAAK project|dialog=process-linkwebsite-dialog}}. They did flood simulations of 30 asset points using GIS models and the location of vital infrastructure. {{External link|resource=Resource Hyperlink 00393|name=Vitale Assets tool|dialog=process-linkwebsite-dialog}} from HZ University of Applied Sciences was used to analyse impact of flood scenarios on critical infrastructure and the {{External link|resource=Resource Hyperlink 00394|name=Circle tool|dialog=process-linkwebsite-dialog}} from {{External link|resource=Resource Hyperlink 00395|name=Deltares|dialog=process-linkwebsite-dialog}} was used to identify the cascade-effects. | # '''Vulnerability analysis'''. The vulnerability analysis of adaptive critical infrastructure (roads, rail, electricity) and the cascading effects use done by {{External link|resource=Resource Hyperlink 00392|name=Witteveen + Bos|dialog=process-linkwebsite-dialog}} (on behalf of Province Zeeland) in collaboration with the {{Cite|resource=Resource Hyperlink 00391|name=RAAK project|dialog=process-linkwebsite-dialog}}. They did flood simulations of 30 asset points using GIS models and the location of vital infrastructure. {{External link|resource=Resource Hyperlink 00393|name=Vitale Assets tool|dialog=process-linkwebsite-dialog}} from HZ University of Applied Sciences was used to analyse impact of flood scenarios on critical infrastructure and the {{External link|resource=Resource Hyperlink 00394|name=Circle tool|dialog=process-linkwebsite-dialog}} from {{External link|resource=Resource Hyperlink 00395|name=Deltares|dialog=process-linkwebsite-dialog}} was used to identify the cascade-effects. |
Versie van 13 jun 2019 10:58
By looking at the the activities, actors and methods/approaches used, this section will provide a better understanding of the the implementation process of the MLS approach. We will look describe the point of departure, describe who was involved (when, why and how) and what key decisive moments there were.
Point of departure of FRM strategies
Stakeholders involved
- Province of Zeeland
- Rijkswaterstaat
- Waterboard Scheldestromen
- Municipality of Reimerswaal
- Veiligheidsregio Zeeland (Safety region Zeeland)
- HZ University of Applied Sciences
- Owners critical infrastructure (gas, water, railway:Prorail, highway, electricity: Enduris, communication)
Role of key actors
The Ministry of Infrastructure & Water Management and the Waterboard Scheldestromen are responsible for the first layer ( L1). The Veiligheidsregio Zeeland has evacuation plans (layer 3), but this layer is also the responsibility of Rijkswaterstaat, because they have to protect the highway while Prorail has to protect the railways. When possible, the Province of Zeeland is responsible for the second layer (L2) (interview with pilot manager, 2019).
The role of the Province of Zeeland, the pilot manager, is to give policy advise on the topic to the regional and national government. The role of the vital infrastructure owners is to provide information about the functionality and location of the assets. The Safety region is the expert on water safety in the Netherlands and hence a very important actor because they provided a knowledge, experience and a large network of relevant actors in the water safety sector for the entire country (interview with pilot manager, 2019).
Main activities
The main activities/steps carried out towards improved FRM strategies, the tools applied and the actors involved are the followings:
- Get acquainted with the area (description of the area, stakeholders analysis). The province contacted all vital infrastructure owners to discuss the problems and the possible solutions. Once the problem was clear, the rest of stakeholders were involved (vital infrastructure owners, regional government, knowledge institutes, the municipality of Reimerswaal, the safety region, the water board and the Ministry of infrastructure & Water Management). It was hard to get involved stakeholders from private companies, such as Prorail. Vital infrastructure owners and the safety region are the most important actors of the project. The actors met individually, in small groups at a round table discussion, or large groups in workshops.
- Get the geodata of the electricity grid assets. The Province of Zeeland contacted (via phone, emails, meetings) the vital infrastructure owners to discuss about the flood risks and reach an agreement to keep this data confidential providing only a code number.
- Vulnerability analysis. The vulnerability analysis of adaptive critical infrastructure (roads, rail, electricity) and the cascading effects use done by Witteveen + Bos (on behalf of Province Zeeland) in collaboration with the RAAK project. They did flood simulations of 30 asset points using GIS models and the location of vital infrastructure. Vitale Assets tool from HZ University of Applied Sciences was used to analyse impact of flood scenarios on critical infrastructure and the Circle tool from Deltares was used to identify the cascade-effects.
- Proposed spatial measures (to be completed based on report). Witteveen + Bos and Ecorys are conducting a cost-benefit analysis of potential spatial measures. The costs of the spatial measures proposed for L2 (build an inner dyke to prevent highway and railway from flooding) may be more expensive (about $45 million ) than measures in L1. Moreover, they may require longer implementation time.