Long time will be spent studying the building physic (in specific thermodynamic, psycrometry, heat transfer) giving at the same time some basis of indoor comfort.
Moreover, the course is aimed to the acquisition of basic knowledge about plants to understand their interactions with building structures and internal and external environments and with current laws and standards.
Course Content - Last names M-Z
Building physic (thermodynamic, psycrometry, heat transfer), lighting and acoustics.
Basic knowledge on the main types of building systems is provided with the aim of an integrated and conscious choice related to current laws and standards.
- Y. A. Çengel, G. Dall'Ò, L. Sarto, "Fisica tecnica ambientale. Con elementi di acustica e illuminotecnica", McGrawHill Education, Milano 2017
- G. Dall’O, “Architettura e impianti”, Città Studi Edizioni, Torino 2003
- notes available on the web e-learning
- Y. A. Cengel, G. Dall'O', L. Sarto, Fisica Tecnica Ambientale - Con elementi di acustica e Illuminotecnica, McGrraw-Hill Education, Milano 2017.
- G. Dall'O', Architettura e Impianti, Città Studi Ed., Torino, 2003
Learning Objectives - Last names A-L
Give the basics about the fundamental physical phenomena that govern the whole building system, and the interaction between man, building and environment, all with the aim to achieve en energy conscious design.
Acquisition of basic knowledge on the main plant types and their performance in order to achieve the thermal, acoustic and light comfort in indoor environments and the reduction of energy consumption in buildings.
Learning Objectives - Last names M-Z
Give the basics about the fundamental physical phenomena that govern the whole building system, and the interaction between man, building and environment, with the aim to achieve an energy conscious design.
Acquisition of basic knowledge on the main plant types and their performance in order to achieve the best thermal, acoustic and lighting indoor conditions and the reduction of energy consumption in buildings.
Prerequisites - Last names A-L
none
Prerequisites - Last names M-Z
None
Teaching Methods - Last names A-L
Lessons of the owner of the course may be supplemented by seminars on specific issues in collaboration with industry and experts.
Teaching Methods - Last names M-Z
Lessons and exercises of the Holder of the course.
Further information - Last names A-L
Further information can be found on the moodle platform, e-learning.
Further information - Last names M-Z
Further information can be found on the moodle platform, e-learning.
Type of Assessment - Last names A-L
1_Written intermediate tests (optional).
2_Individual exercise to be agreed with the teacher.
3_Final written and oral examination.
Type of Assessment - Last names M-Z
Individual exercise and final written and oral examination.
Course program - Last names A-L
The course provides a basic understanding of fundamental physical phenomena that govern the building system and the interaction between man, building and the environment in order to enable energy-conscious and sustainable design.
This is in line with the provisions of national and international regulatory framework, more and more sensitive to issues related to energy and the environment.
The program in particularly studies the main physical phenomena and the definition of the mathematical models that represent them, with the aim of encouraging the design of comfortable environments in terms of thermal, acoustic and lighting and gain knowledge of the different types of technical systems, knowing how to manage the selection and design guidelines. The knowledge gained also find practical application in other disciplines of the design and technology of the course in Architecture.
For each topic covered in the course, references to the legislative and regulatory framework are given and examples in the field of building design, urban component are shown, with both lectures and seminars with experts from different sectors.
Course program - Last names M-Z
The course provides a basic understanding of fundamental physical phenomena that govern the building system and the interaction between user, building and the environment in order to enable energy-conscious and sustainable design.
This is in agreement with the national and international regulatory framework, more and more sensitive to energy and the environment issues.
The course analyses the main physical phenomena and the mathematical models that represent them, with the aim of encouraging the design of comfortable environments in terms of thermal, acoustic and lighting and acquiring knowledge of the different types of technical systems related to the users need and sustainability. For each topic of the course, references to the legislative and regulatory framework are given and examples in the field of building design, urban component are shown, both with lectures and seminars. Easy to use software tools will allow students to concretely apply the acquired knowledge.