DIsaster Resilience for Extreme ClimaTe Events providing interoperable Data, models, communication and governance

Informazioni relative al progetto

DIRECTED

ID dell’accordo di sovvenzione: 101073978

DOI

10.3030/101073978

Data della firma CE 9 Settembre 2022

Data di avvio 1 Ottobre 2022

Data di completamento 30 Settembre 2026

Finanziato da

Civil Security for Society

Costo totale

€ 5 283 350,00

Contributo UE

€ 5 054 599,99

5 054 599,99

228 750,01

Coordinato da

TECHNISCHE UNIVERSITAET BRAUNSCHWEIG
Germany

CORDIS fornisce collegamenti ai risultati finali pubblici e alle pubblicazioni dei progetti ORIZZONTE.

I link ai risultati e alle pubblicazioni dei progetti del 7° PQ, così come i link ad alcuni tipi di risultati specifici come dataset e software, sono recuperati dinamicamente da .OpenAIRE .

Risultati finali

RISK-TANDEM Framework

Conceptual development of a state-of-the-art risk governance approach for improved knowledge integration.

Capacity development strategy for Training of Trainers on implementing transdisciplinary knowledge co-production processes in the RWL

Guidance on implementing transdisciplinary knowledge co-production processes in the RWL based on the Tandem framework.

Communications report 1

Document of the communication report for the first year of the project.

Gaps and Opportunities assessment

Report on impact Pathways for high potential Key Exploitable Results of the project.

RWL description and set-up

Report on Real-World-Labs stakeholder landscape CCA&DRR challenges and set-up process

Communications Strategy

Report on the communication strategy for the project.

Mid-term report, covering months 1 - 16

Document of the mid-term report from the first reporting phase.

Data management plan

Document of the Data Management Plan

Pubblicazioni

Assessing Surface Drainage Efficiency in Urban Pluvial Flood Hazard and Risk Mitigation: A Case Study of Braunschweig City

Autori: Shahin Khosh Bin Ghomash, Heiko Apel, Kai Schroeter, Max Steinhausen
Pubblicato in: 2025
Editore: Copernicus GmbH
DOI: 10.5194/EGUSPHERE-EGU24-3076

Introducing a dynamic spatiotemporal rainfall generator for flood risk analysis

Autori: Shahin Khosh Bin Ghomash, Daniel Bachmann1, Daniel Caviedes-Voullième, Christoph Hinz
Pubblicato in: EGU General Assembly 2023, 2023
Editore: Copernicus GmbH
DOI: 10.5194/egusphere-egu23-2599

Evaluating the Role of Building Representation in Flood Dynamics: Insights from the 2021 Ahr Valley Flood

Autori: Shahin Khosh Bin Ghomash, Nithila Devi Nallasamy, Heiko Apel
Pubblicato in: 2025
Editore: Copernicus GmbH
DOI: 10.5194/EGUSPHERE-EGU25-3124

Implications of governance mechanisms for spanning boundaries and managing risk

Autori: Lydia Cumiskey, Denise McCullagh, Pia-Johanna Schweizer, Sukaina Bharwani
Pubblicato in: EGU General Assembly 2023, 2023
Editore: Copernicus GmbH
DOI: 10.5194/egusphere-egu23-13145

Building an Open Source Infrastructure for Next Generation End User Climate Services

Autori: Benedikt Gräler, Katharina Demmich, Johannes Schnell, Merel Vogel, Stefano Bagli, and Paolo Mazzoli
Pubblicato in: EGU General Assembly 2023, 2023
Editore: Copernicus GmbH
DOI: 10.5194/egusphere-egu23-15863

DIRECTED – Disaster Resilience for Extreme Climate Events providing Interoperable Data, Models, Communication and Governance

Autori: Max Steinhausen, Kai Schröter, Martin Drews, Lydia Cumiskey, Heiko Apel, Stefano Bagli, Sukaina Bharwani, Julian Struck, Daniel Bittner, Tobias Conradt, Benedikt Gräler, Christopher Genillard, Stefan Hochrainer-Stigler, Levente Huszti, Tracy Irvine et al.
Pubblicato in: EGU General Assembly 2023, 2023
Editore: Copernicus GmbH
DOI: 10.5194/egusphere-egu23-13541

Brief Communication: Rapid high-resolution flood impact-based early warning is possible with RIM2D: a showcase for the 2023 pluvial flood in Braunschweig

Autori: Shahin Khosh Bin Ghomash; Heiko Apel; Kai Schröter; Max Steinhausen
Pubblicato in: Crossref, 2024
DOI: 10.5194/NHESS-2024-139

Simulating the Ahr valley 2021 flood event: a comparative assessment of 2D shallow water solvers for early flood warning

Autori: Shahin Khosh Bin Ghomash; Heiko Apel; Daniel Caviedes-Voullième
Pubblicato in: Crossref, 2024
DOI: 10.5194/NHESS-2024-50

Rapid high-resolution impact-based flood early warning is possible with RIM2D: a showcase for the 2023 pluvial flood in Braunschweig

Autori: Shahin Khosh Bin Ghomash; Heiko Apel; Kai Schröter; Max Steinhausen
Pubblicato in: Natural Hazards and Earth System Sciences, 2025, ISSN 1684-9981
Editore: Copernicus
DOI: 10.5194/NHESS-25-1737-2025

Technical Note: Influence of building representation in flood hydrodynamic modelling: the case of the 2021 Ahr valley flood

Autori: Shahin Khosh Bin Ghomash; Nithila Devi Nallasamy; Heiko Apel
Pubblicato in: EGUshpere, 2025, ISSN 1684-9981
Editore: Copernicus
DOI: 10.5194/HESS-2024-314

Invited perspectives: Fostering interoperability of data, models, communication and governance for disaster resilience through transdisciplinary knowledge co-production

Autori: Kai Schröter; Pia-Johanna Schweizer; Benedikt Gräler; Lydia Cumiskey; Sukaina Bharwani; Janne Parviainen; Chahan Kropf; Viktor Wattin Hakansson; Martin Drews; Tracy Irvine; Clarissa Dondi; Heiko Apel; Jana Löhrlein; Stefan Hochrainer-Stigler; Stefano Bagli; Levente Huszti; Christopher Genillard; Silvia Unguendoli; Max Steinhausen
Pubblicato in: Nat. Hazards Earth Syst. Sci., 2024, ISSN 1684-9981
Editore: Copernicus
DOI: 10.5194/NHESS-2024-135

Are 2D shallow-water solvers fast enough for early flood warning? A comparative assessment on the 2021 Ahr valley flood event

Autori: Shahin Khosh Bin Ghomash, Heiko Apel, Daniel Caviedes-Voullième
Pubblicato in: Natural Hazards and Earth System Sciences, Numero 24, 2025, ISSN 1684-9981
Editore: Copernicus GmbH
DOI: 10.5194/NHESS-24-2857-2024

Fast urban inundation simulation with RIM2D for flood risk assessment and forecasting

Autori: Heiko Apel, Jakob Benisch, Björn Helm, Sergiy Vorogushyn, Bruno Merz
Pubblicato in: Front. Water, Numero 6, 2024, ISSN 2624-9375
Editore: Frontiers Media S.A
DOI: 10.3389/frwa.2024.1310182

Monte Carlo-based sensitivity analysis of the RIM2D hydrodynamic model for the 2021 flood event in western Germany

Autori: Shahin Khosh Bin Ghomash; Patricio Yeste; Heiko Apel; Viet Dung Nguyen
Pubblicato in: Natural Hazards and Earth System Sciences, 2024, ISSN 1684-9981
Editore: Copernicus
DOI: 10.5194/NHESS-2024-77

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