SUSTAINABLE ARCHITECTURE

Academic Year 2021/2022 - 3° Year - Curriculum Pianificazione del paesaggio
Teaching Staff: Alessandro D'Emilio
Credit Value: 6
Course Language: Italian
Taught classes: 28 hours
Exercise: 28 hours
Term / Semester:

Learning Objectives

The main goal is to provide expertise on building, functional and technological solutions that are eco-friendly and energy-efficient for the design, building, renovation and maintenance of buildings .


Course Structure

The course will take place through lectures and exercises. The latter will be aimed at evaluating thermal comfort inside a building and thermal performance of a wall, at the drawing of technical scketches of building details and at the use of software for drafting an Energy Performance Certificate.

Should the course be carried out by distance learning or in hybrid mode, the necessary changes could be introduced in order to comply with the program reported in the syllabus.

Learning assessment may also be carried out on line, should the conditions require it.


Detailed Course Content

1. INTRODUCTION TO SUSTAINABLE ARCHITECTURE

2. PHYSICAL WELL-BEING: THERMAL COMFORT AND INDOOR POLLUTION

Thermal comfort. Equation of the heat balance of the human body: the main heat exchanges between man and environment. The mean radiant temperature; the operating temperature. Thermal comfort indices. The indoor pollution: physical, chemical and microbiological. The local discomfort.

3. BIOCLIMATIC ARCHITECTURE

The climate. Classification of the climate on regional scale. Bioclimatic charts. Bioclimatic design on urban fabric scale: influence of sun, wind, shading and development of the site microclimate matrix. Bioclimatic design on building scale: reduction of heating requirements, optimal distribution of internal spaces, passive solar systems.

4. MATERIALS FOR SUSTAINABLE ARCHITECTURE

Loam, clay, sand, silt, gravel. The binders. The mortars, the "cocciopesto". Typical mortars: "ghiara" and "azolo". Ceramic materials: traditional bricks, brick with pores and rectified bricks. Loam bricks. Other types of building blocks (wood-concrete, cellular concrete, etc.). Plasters: characteristics of materials and application methods. Thermal insulation: performance requirements and methods of insulation. Breathability and thermal inertia. Animal, vegetal and mineral insulating materials. The wood: characteristics and necessary treatments. Wood panels used in buildings. Glued laminated timber. Structural wood systems (blockbau, frame, X-LAM).

5. TECHNICAL DETAILS

External and internal walls. Floors. Roofing.

6. EXAMPLES OF SUSTAINABLE ARCHITECTURE

Case studies of sustainable architecture design from traditional buildings to contemporary creations.

7. ENERGY CERTIFICATION OF BUILDINGS

Energy Performance of a building. Reference standard. Operating procedure for survey data. Example of EPA.


Textbook Information

1. Alessandro Rogora. “Progettazione bioclimatica per l'architettura Mediterranea”, Wolters Kluwer Italia, 2012.

2. AA.VV. “Architettura sostenibile” a cura di Luca Castelli, Manuali tecnici UTET, 2008.

3. Natale Ventura. “Manuale per la certificazione energetica degli edifici.”, EPC editore, ottobre 2015 (II ed.).