LC 00223: verschil tussen versies

Geen bewerkingssamenvatting
Geen bewerkingssamenvatting
Regel 5: Regel 5:
{| class="wikitable"
{| class="wikitable"
!Name of tool
!Name of tool
!Main objective
!Description
!Description
!Applied in pilot
!Applied in pilot
|-
|-
|Risk label method
|Risk label method
|The Risk label method is a hazard-risk based approach used to analyse/map the risk of electricity assets in case of a flooding.
|Impact assessment: map the risks of electricity assets.
|The Risk label method is a hazard-risk based approach used to analyse/map the risk of electricity assets in case of a flooding considering direct and indirect failure (cascading effects) of the medium-voltage network. Developed by Nelen & Schuurmans, a consultancy firm and results were discussed and validated during workshops with electricity gridexperts (Enduris, Evides, KPN and Delta) of the Flood Proof Electricity Grid pilot.
|{{Internal link|link=FR PLT PR 00006|name=Electricity Grid Zeeland|dialog=process-linkpage-dialog}}
|{{Internal link|link=FR PLT PR 00006|name=Electricity Grid Zeeland|dialog=process-linkpage-dialog}}
|-
|-
|Community  based approach / participation approach
|Community  based approach / participation approach
|Approach to include those affected as key partners in developing strategies related to their assistance and protection.
|Collect data with emphasis on participation from the community.
|Approach to include those (potentially) affected as key partners in developing strategies related to their assistance and protection.  
|{{Internal link|link=FR PLT PR 00006|name=Electricity Grid Zeeland|dialog=process-linkpage-dialog}}, {{Internal link|link=FR PLT PR 00011|name=Denderleeuw|dialog=process-linkpage-dialog}}, {{Internal link|link=FR_PLT_PR_00015|name=Geraardsbergen|dialog=process-linkpage-dialog}}, {{Internal link|link=FR_PLT_PR_00010|name=Ninove|dialog=process-linkpage-dialog}},  {{Internal link|link=FR_PLT_PR_00014|name=Assens|dialog=process-linkpage-dialog}}, {{Internal link|link=FR PLT PR 00007|name=Roskilde|dialog=process-linkpage-dialog}}, {{Internal link|link=FR PLT PR 00008|name=Velje|dialog=process-linkpage-dialog}}
|{{Internal link|link=FR PLT PR 00006|name=Electricity Grid Zeeland|dialog=process-linkpage-dialog}}, {{Internal link|link=FR PLT PR 00011|name=Denderleeuw|dialog=process-linkpage-dialog}}, {{Internal link|link=FR_PLT_PR_00015|name=Geraardsbergen|dialog=process-linkpage-dialog}}, {{Internal link|link=FR_PLT_PR_00010|name=Ninove|dialog=process-linkpage-dialog}},  {{Internal link|link=FR_PLT_PR_00014|name=Assens|dialog=process-linkpage-dialog}}, {{Internal link|link=FR PLT PR 00007|name=Roskilde|dialog=process-linkpage-dialog}}, {{Internal link|link=FR PLT PR 00008|name=Velje|dialog=process-linkpage-dialog}}
|-
|-
|{{External link|resource=Resource Hyperlink 00495|name=Dynamic  Adaptive Policy Pathways (DAPP) approach|dialog=process-linkwebsite-dialog}}
|Dynamic  Adaptive Policy Pathways{{External link|resource=Resource Hyperlink 00495|name=(DAPP) approach|dialog=process-linkwebsite-dialog}}
|"The Dynamic Adaptive Policy Pathways (DAPP) approach aims to support the development of an adaptive plan that is able to deal with conditions of deep uncertainties. "
|Use when developing adaptive plans for the future.
|"The Dynamic Adaptive Policy Pathways (DAPP) approach, developed by Deltares and TU Delft, aims to support the development of an adaptive plan that is able to deal with conditions of deep uncertainties."  
|All pilots in Denmark,  {{Internal link|link=FR_PLT_PR_00014|name=Assens|dialog=process-linkpage-dialog}}, {{Internal link|link=FR_PLT_PR_00008|name=Vejle|dialog=process-linkpage-dialog}} and {{Internal link|link=FR_PLT_PR_00007|name=Roskilde|dialog=process-linkpage-dialog}}, applied an adapted version of this tool.
|All pilots in Denmark,  {{Internal link|link=FR_PLT_PR_00014|name=Assens|dialog=process-linkpage-dialog}}, {{Internal link|link=FR_PLT_PR_00008|name=Vejle|dialog=process-linkpage-dialog}} and {{Internal link|link=FR_PLT_PR_00007|name=Roskilde|dialog=process-linkpage-dialog}}, applied an adapted version of this tool.
|-
|-
|{{External link|resource=Resource Hyperlink 00626|name=Severe Weather Impacts Monitoring System - SWIMS tool|dialog=process-linkwebsite-dialog}}
|Severe Weather Impacts Monitoring System{{External link|resource=Resource Hyperlink 00626|name=(SWIMS)|dialog=process-linkwebsite-dialog}}
|The Severe Weather Impacts Monitoring System (SWIMS) allows Kent partners to collect data about how the services provided them are affected during severe weather events. This data allows us to understand the impact of these weather events and to plan better for the future.
|Self-assessment tools for community resilience.
|All pilots in the  {{Internal link|link=FR_Country_00006|name=United Kingdom|dialog=process-linkpage-dialog}}
|The Severe Weather Impacts Monitoring System (SWIMS) allows Kent partners to collect data about how the services provided them are affected during severe weather events. This in turn will allow the identification of key areas and communities that are affected by flooding and other severe weather events and improve the management of those areas in line with MLS principles. It is a decision support and public tool for public organizations in emergency planning events.
|-
SWIMS is available in the UK to local authorities through the Climate Ready programme (in partnership with the Environment Agency, Defra, LGA and Climate UK).  
|{{External link|resource=Resource Hyperlink 00628|name= none|dialog=process-linkwebsite-dialog}}
|All pilots in the  {{Internal link|link=FR_Country_00006|name=United Kingdom|dialog=process-linkpage-dialog}} Kent improved this tool and is investigating the possibility of a wider roll-out as well as international use and expansion outside the emergency organization.
|The Adaptation Catalyst is a software tool designed to help overcome the ‘implementation gap’ in realizing adaptive capacity, to get from research and design to actual realization of measures.
Kent shared this tool with partners locally and transnationally to support them in developing their own solutions.
|
|-
|{{Cite|resource=Bestand:Appendix b neighbourhood flood vulnerability index - final - uploaded 4june2017.pdf|name=The Neighbourhood Flood Vulnerability Index|dialog=process-file-dialog}}(NFVI)
|The NFVI gives insights into the social vulnerability of a neighbourhood if a flood should occur. It is a measure of the vulnerability of a community to the negative impacts of flooding.
|
|}
|}



Versie van 22 apr 2020 09:08

Layer 3 looks at how the consequences of floods can be mitigated by preparing for adequate responses to a flood event. Measures include flood warning systems, disaster management and evacuation/rescue plans, and managing a flood when it occurs by taking last call emergency measures (e.g. sand bags). If you click here you can read more about layer 3.

Listed below are the tools used in layer 3 by the FRAMES pilots. When available, we provide links to external sites where the tool is explained in more detail.

Name of tool Main objective Description Applied in pilot
Risk label method Impact assessment: map the risks of electricity assets. The Risk label method is a hazard-risk based approach used to analyse/map the risk of electricity assets in case of a flooding considering direct and indirect failure (cascading effects) of the medium-voltage network. Developed by Nelen & Schuurmans, a consultancy firm and results were discussed and validated during workshops with electricity gridexperts (Enduris, Evides, KPN and Delta) of the Flood Proof Electricity Grid pilot. Electricity Grid Zeeland
Community based approach / participation approach Collect data with emphasis on participation from the community. Approach to include those (potentially) affected as key partners in developing strategies related to their assistance and protection. Electricity Grid Zeeland, Denderleeuw, Geraardsbergen, Ninove, Assens, Roskilde, Velje
Dynamic Adaptive Policy Pathways(DAPP) approach Use when developing adaptive plans for the future. "The Dynamic Adaptive Policy Pathways (DAPP) approach, developed by Deltares and TU Delft, aims to support the development of an adaptive plan that is able to deal with conditions of deep uncertainties." All pilots in Denmark, Assens, Vejle and Roskilde, applied an adapted version of this tool.
Severe Weather Impacts Monitoring System(SWIMS) Self-assessment tools for community resilience. The Severe Weather Impacts Monitoring System (SWIMS) allows Kent partners to collect data about how the services provided them are affected during severe weather events. This in turn will allow the identification of key areas and communities that are affected by flooding and other severe weather events and improve the management of those areas in line with MLS principles. It is a decision support and public tool for public organizations in emergency planning events.

SWIMS is available in the UK to local authorities through the Climate Ready programme (in partnership with the Environment Agency, Defra, LGA and Climate UK).

All pilots in the United Kingdom Kent improved this tool and is investigating the possibility of a wider roll-out as well as international use and expansion outside the emergency organization.

Kent shared this tool with partners locally and transnationally to support them in developing their own solutions.























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