Scheda programma d'esame
FISICA TECNICA AMBIENTALE
FRANCESCO LECCESE
Anno accademico2016/17
CdSINGEGNERIA CIVILE AMBIENTALE E EDILE
Codice571II
CFU9
PeriodoSecondo semestre
LinguaItaliano
CdSINGEGNERIA CIVILE AMBIENTALE E EDILE
Codice571II
CFU9
PeriodoSecondo semestre
LinguaItaliano
| Moduli | Settore/i | Tipo | Ore | Docente/i | |
| FISICA TECNICA AMBIENTALE | ING-IND/11 | LEZIONI | 90 |
|
Programma non disponibile nella lingua selezionata
Learning outcomes
Knowledge
The student who completes the course successfully will be able to demonstrate a solid knowledge of the main issues related to the building physics (heat transfer, indoor temperature and comfort parameters, air conditioning systems, lighting and acoustics), with particular attention to the european standards and national technical rules. He or she will acquire knowledge of systems, technologies and materials to achieve a good energy performance of buildings (e.g. thermo physical properties on building materials). He or she will be aware of contemporary approaches for building physics software design (e.g. thermal insulation, energy consumptions, building sound insulation, ...). Lastly, students are expected to acquire knowledge of in situ measures of temperature and humidity of air and thermal transmittance of walls with common instruments.
Assessment criteria of knowledge
During the oral exam the student must be able to demonstrate his/her knowledge of the course material and be able to discuss the reading matter thoughtfully and with propriety of expression.Methods:
- Final oral exam
Teaching methods
Delivery: face to face
Learning activities:
- attending lectures
- individual study
Attendance: Advised
Teaching methods:
- Lectures
- Seminar
- Task-based learning/problem-based learning/inquiry-based learning
Syllabus
The aim of the course is providing the students with basic elements on the following matters: thermodynamics, heat transfer, thermal insulation and energy consumption in buildings, humid air, indoor hygrothermal comfort, cooling of buildings, moisture behaviour of building components, daylighting and artificial lighting, urban lighting and light pollution, room acoustics, sound insulation in buildings, environmental noise. Technical standards. The basic elements are integrated with exercises and applications.
Bibliography
Recommended reading includes the following works:
(A) THERMODYNAMICS
Cengel Y.A., Boles M.A., Thermodynamics – An engineering approach. McGraw Hill (New York).
Cavallini A., Mattarolo L., Termodinamica applicata. CLEUP (Padova).
(B) HUMID AIR AND AIR CONDITIONING SYSTEMS
Bellia L., Mazzei P., Minichiello F., Palma D., Aria umida – Climatizzazione ed involucro edilizio. Liguori (Napoli).
Alfano G., Filippi M., Sacchi E., Impianti di climatizzazione per l’edilizia. Masson (Milano).
Briganti A., Il condizionamento dell’aria. Tecniche Nuove (Milano).
(C) HEAT TRANSFER
Kreith F., Principi di trasmissione del calore. Liguori (Napoli).
Bonacina C., Cavallini A., Mattarolo L., Trasmissione del calore. Cleup (Padova)
(D) LIGHTING
Bianchi F., Pulcini G., Manuale di illuminotecnica. NIS (Roma).
Forcolini G., Lighting. Hoepli (Milano).
Aghemo C., Lo Verso V., Guida alla progettazione dell’illuminazione naturale. AIDI (Milano)
(E) APPLIED ACOUSTICS
Cirillo E., Acustica applicata. McGraw-Hill (Milano).
Spagnolo R. (a cura di), Manuale di Acustica. CittàStudi (Bologna).
Hamayon L., L’acustica nell’edificio. Sistemi Editoriali (Napoli)
Work placement
The topics covered by the course can be studied in depth and discussed during the First Cycle Degree also through internships in companies and/or professional trainings (curricular training), within agreements between such companies and University of Pisa.
Ultimo aggiornamento 14/11/2016 17:27