Building Pathology and Rehabilitation
Instance: 2004/2005 - 2S
Cycles of Study/Courses
Teaching language
Portuguese
Objectives
The subject of the Pathology and Rehabilitation of Buildings has the following objectives to be achieved by the student:
– Acquiring technical and scientific knowledge in the field of humidity in construction, natural ventilation, building pathology of construction and rehabilitation of buildings;
– The elaboration of projects in this area, thus meeting regulatory demands and quality standards.
Program
Introduction
Moisture in construction: The problem with humidity in construction: Ways humidity manifests. Fundamental moisture transfer mechanisms. The various models of moisture transfer in porous media. The effect of humidity on construction materials. Humidity of Condensation: The condensation mechanism. Factors regulating condensation. Quantifying condensation. Criteria for designing the envelope so as to prevent condensation. Rising damp: Factors regulating rising damp. Design requirements. Techniques for treating rising damp. Humidity of infiltrations. Hygric properties of construction materials and for measuring humidity. Diagnosis of situations where moisture occurs.
Natural ventilation of buildings: Natural ventilation and comfort. Grounds for natural ventilation. Systems and requirements in various countries. Recommendations and devices for natural ventilation.
Pathology: Intervening elements and determining who is responsible. Pathologies of roofs, façades and floors. Case studies.
Rehabilitation of buildings: Methodology for elaborating rehabilitation projects. Technologies used for rehabilitating buildings. Case studies.
Mandatory literature
VASCO PEIXOTO DE FREITAS; “Transferência de humidade em paredes de edifícios - Análise do fenómeno da interface” - Tese de doutoramento, FEUP, 1992
J. GARRATT AND F. NOWAK; “Tackling condensation - A guide to the causes of, and remedies for, surface condensation and mould in traditional housing”, BRE Building Research Establishment, 1991
V. P. DE FREITAS; Influência dos elementos estruturais no comportamento higrotérmico da envolvente dos edifícios, 2.as Jornadas de Estruturas de Betão da FEUP, pp. 117-132 – Porto, 1998
V. P. DE FREITAS E P. PINTO; Nota de Informação Técnica – NIT • 002 – LFC 1998, “Permeabilidade ao Vapor de Materiais de Construção – Condensações Internas”, FEUP, 1998
M.ª I. TORRES E V. P. DE FREITAS; Simulação numérica e estudo experimental da humidade ascensional em paredes de edifícios antigos, LNEC, 2005
V. P. DE FREITAS E M.ª I. TORRES; Tratamento da humidade ascensional em edifícios antigos: caso de estudo, LNEC, 2005
J. SOUSA E V. P. DE FREITAS; Classificação dos Materiais de Construção Face à Capilaridade e à Permeabilidade Líquida, FEUP, 1998
J. C. LANZINHA E V. P. DE FREITAS; Propriedades Higrotérmicas de Materiais de Construção - Um Catálogo, FEUP, 1998
P. PINTO; Caracterização de barreiras pára-vapor e sua aplicação - Tese de Mestrado, FEUP, 2002
NORMA EUROPEIA EN ISO 13788 - “Hygrothermal performance of building components and building elements – Internal surface temperature to avoid critical surface humidity and interstitial condensation – Calculation methods”, CEN, 2002
V. P. DE FREITAS E J. CASTRO; Experimental study of the drying of cellular concrete, 5th International Building Physics Conference, 1999
EUSTÁQUIO TOLEDO; Ventilação Natural dos Edifícios, LNEC, 1967
Ventilation – Les systèmes de ventilation dans le Monde, CHAUD – FROID – PLOMBERIE (CFP), n.º 528, pp. 71 - 78
JOÃO CARLOS VIEGAS; Ventilação Natural de Edifícios de Habitação, LNEC, 1995
V. P. DE FREITAS; Humidade e Ventilação, INETI, 1996
Ventilador Estático Féria – Análise do comportamento, LABORATÓRIO NACIONAL DE ENGENHARIA CIVIL (LNEC), 1983
NORMA PORTUGUESA NP 1037-1:2002 - Ventilação e vacuação dos produtos da combustão dos locais com aparelhos a gás. Parte 1 : edifícios de habitação. Ventilação natural, IPQ, 2002
V. P. DE FREITAS; Patologia da Construção, FEUP, 1999
V. P. DE FREITAS, M. SOUSA; Reabilitação de edifícios – Do diagnóstico à conclusão da obra, LNEC, 2003
Actas do Patorreb 2003 – 1.ª Encontro Nacional Sobre Patologia e Reabilitação de Edifícios, V. P. DE FREITAS E V. ABRANTES (FEUP), 2003
http://www.patorreb.com/
Teaching methods and learning activities
There are 2 theory classes a week, of the explanatory variety, with each class lasting around one hour. There is also one practical class a week, lasting 2 hours, where exercises are solved, assignments are done, and the matters addressed are discussed.
We seek to make sure the content of practical classes, whenever possible, is given in parallel with the theory classes.
During theory classes, overhead and PowerPoint are basically used as a kind of support for the exposition, which allows to better follow up on students and for them to visualize the content of the subject matter. Students have a class at the Building Physics Laboratory in order to come in contact with the equipment used for measuring temperature and humidity in construction materials and elements.
Software
CONDENSA 13788 - Quantificação das condensações internas segundo a Norma EN 13788
TRHum98 - Quantificação da transferência conjunta de calor e humidade em materiais de construção, baseado no modelo de Luikov - Philipe - de Vries
Evaluation Type
Distributed evaluation with final exam
Assessment Components
Description |
Type |
Time (hours) |
Weight (%) |
End date |
Subject Classes |
Participação presencial |
52,00 |
|
|
|
Total: |
- |
0,00 |
|