| Code |
17872
|
| Year |
3
|
| Semester |
S1
|
| ECTS Credits |
5
|
| Workload |
TP(60H)
|
| Scientific area |
Arquitetura
|
|
Entry requirements |
not considered
|
|
Learning outcomes |
Allow understanding and applying fundamental notions relating to: 1. How infrastructural systems interconnect with physical and conceptual systems, contributing to the understanding of architecture as a system of systems; 2. Characterization of the main infrastructural systems; - 3. How infrastructural systems contribute, through culturally relevant, technologically capable and economically viable consideration, to the efficiency in the use of resources; 4. Current practices of: design of water supply systems, drainage of domestic and rainwater sewage; design of fire prevention and fighting systems; design of electricity, gas and telecommunications networks; design of HVAC installations; emphasis on the implications for the spatial design of buildings; - 8. Graphic and volumetric representation of the construction entities under study, considering the scales to be used and the information to be transmitted.
|
|
Syllabus |
1. Infrastructural systems as part of physical systems; importance for designing the building as a system of systems; selection criteria – coordination and compatibility; implications for the formal expression and language of buildings; 2. Characterization of infrastructural systems, namely water supply, drainage of domestic and rainwater sewage, fire prevention and fighting, electricity, gas and telecommunications networks; HVAC; 3. Infrastructural systems and efficiency in the use of available resources; cultural, technological and economic consideration; 4. Current practices and standards for the design and dimensioning of systems: water supply, as well as drainage of domestic and rainwater sewage; fire prevention and fighting; HVAC installations; emphasis on the implications for the spatial design of buildings; 5. Graphical and volumetric representation of the entities under study; most common dimensions of construction elements.
|
|
Main Bibliography |
AFONSO, A. et al (2017) Manual de eficiência hídrica em edifícios. Aveiro, ANQUIP – CARPINTEIRO, J. (2009) Aquecimento, Ventilação, Ar Condicionado. Lx, Verlag Dashöfer – CASTRO, C. et al (2009) Manual de segurança contra incêndios em edifícios. Sintra, ENB – LECHNER, N. (2008) Heating, cooling, lighting. NY, Willey – LECHNER, N. (2011) Plumbing, electricity, acoustics: sustainable design methods for architecture. NY, Willey – PEDROSO, V. (2020). Manual dos sistemas prediais de distribuição e drenagem de águas. Lx, LNEC – PEDROSO, V. (2020) Regras de dimensionamento dos sistemas prediais de distribuição de água e de drenagem de águas residuais domésticas e pluviais. Lx, LNEC – PEDROSO, V. (2020) Sistemas de combate a incêndio de acordo com a nova regulamentação. Lx, LNEC – SINOPOLI, J. (2013) Smart buildings systems for architects, owners and builders. Butterworth-Heinemann. – VIEGAS, J. (2010) Ventilação natural de edifícios de habitação. Lx, LNEC. Legislação e regulamentação pertinen
|
|
Teaching Methodologies and Assessment Criteria |
Due to the nature of the subject, assessment will be continuous and ongoing. The fundamental assessment moments established in the form of written tests will be completed. The assessment of these tests will complement that of the practical work.
|
|
Language |
Portuguese. Tutorial support is available in English.
|