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Flood Risk and Waterfronts Resilient Design

Código 16740
Ano 1
Semestre L0
Créditos ECTS 2
Carga Horária O (42H)/OT(2H)/PL(2H)/S(2H)/TC(2H)/T(2H)/TP(4H)
Área Científica Engenharia
Objectivos de Aprendizagem Development of skills in the following areas and topics: Urban Hydrologic Systems and Water Level Control; Environmental and Water Quality Issues; Waterfront and Safe Public Spaces; Water Urbanism; Design within Floods in European Cities; Scour and scour countermeasures at bridge piers and abutments.
Coord. : Cristina Fael (UBI).
Other tutors: Antonio Albuquerque and Rita Ochoa (UBI); João Pedroso Lima (UC); Liliane Hobeica (PUC-Salvador); Maria Matos (ISA-UL).
Conteúdos programáticos 1. Urban Hydrologic Systems and Water Level Control: Explanation of urban hydrologic systems and their role in managing water levels; Discussion on methods of water level control in urban areas.
2. Environmental and Water Quality Issues: Overview of environmental challenges associated with urbanization and water quality issues; Identification of key factors impacting water quality in urban environments.
3. Waterfront and Safe Public Spaces: Importance of waterfront areas and the need to ensure safety in public spaces; Strategies for designing waterfront areas to enhance safety and accessibility.
4. Water Urbanism: The concept of water urbanism and its relevance in urban design; examples of water-centric urban development projects.
5. Design within Floods in European Cities: Discussion on flood management strategies specific to European cities; Case studies highlighting successful flood-resistant design in Europe.
6. Scour and scour countermeasures at bridge piers and abutments.
Metodologias de Ensino e Critérios de Avaliação Online presentations are followed by an active discussion with students. Assessment is based on critical questions that students must answer.
Bibliografia principal -Martins, A. Nuno. Investing in Disaster Risk Reduction for Resilience; Design, Methods, and Knowledge under Climate Change. Cambridge-MA, Estados Unidos: Elsevier. 2022.
-Hobeica, L. (2018). Design with floods: Turning threats into opportunities in/for urban projects.
-Aguiar, T.; Baumann, L.; Albuquerque, A.; Teixeira, L.; de Souza Gil, E.; Scalize, P. Application of Electrocoagulation for the Removal of Transition Metals in Water. Sustainability 2023, 15, 1492.
-Ochoa, Rita; Allegri, Alessia; MATOS SILVA, MARIA; Geraldes, André; Rocha, Clarissa; Filipe, Joel; Monteiro, Rita. "Intermittent Cities. Temporary uses and sharing practices to support an adaptive urban space". In Emerging voices on new architectural ecologies, edited by Veríssimo, Cristina; Burnay, Diogo, 103-114.
-Juan P. Martín-Vide; Fael, Cristina; et. al. "A Large Bridge Pier in an Alluvial Channel: Local Scour versus Morphological Effects and the Role of Physical Models". Journal of Hydraulic Engineering 148 8 (2022).
Língua Português
Data da última atualização: 2024-06-21
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