CODE 115289 ACADEMIC YEAR 2026/2027 CREDITS 5 cfu anno 2 INGEGNERIA CIVILE, EDILE E AMBIENTALE 11949 (L-7 R) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ICAR/10 LANGUAGE Italian TEACHING LOCATION GENOVA SEMESTER 2° Semester PREREQUISITES Propedeuticità in ingresso Per sostenere l'esame di questo insegnamento è necessario aver sostenuto i seguenti esami: INGEGNERIA CIVILE, EDILE E AMBIENTALE 11765 (coorte 2025/2026) GEOMETRY 56721 2025 FISICA GENERALE 115338 2025 MATHEMATICAL ANALYSIS 1 A 115519 2025 MATHEMATICAL ANALYSIS 1 B 115520 2025 INGEGNERIA CIVILE, EDILE E AMBIENTALE 11949 (coorte 2025/2026) MATHEMATICAL ANALYSIS 1 A 115519 2025 GEOMETRY 56716 2025 FISICA GENERALE 115338 2025 MODULES Questo insegnamento è un modulo di: BUILDING TECHNOLOGIES AND LABORATORY OVERVIEW The Architectural Engineering Laboratory is focused on the design application of the contents developed in the theoretical course, with particular reference to the technological definition of the building system. The laboratory guides students in the development of an executive design project, through the definition and control of construction systems, building components, and technical details, with the production of digital drawings using dedicated software. Particular attention is given to the coherence between design choices, construction solutions, and building performance, through in-class activities carried out with the continuous presence and collaboration of the lecturers, in a working environment comparable to a professional design studio. AIMS AND CONTENT LEARNING OUTCOMES At the end of the course, students will be able to: - apply the knowledge acquired in the theoretical course in a conscious and consistent way; - develop an executive design project at the building scale; - define construction systems and building components in relation to the architectural design; - develop technical solutions and construction details; - represent the project through graphical and technical drawings in digital format, at an executive design level. AIMS AND LEARNING OUTCOMES At the end of the course, students will be able to: - apply the knowledge acquired in the theoretical course to the definition of technological solutions; - develop an executive design project at the building scale, articulating construction systems and components coherently; - define and represent construction details, controlling the relationship between materials, technologies, and performance; - apply criteria for the selection and integration of technological systems; - verify the coherence between design solutions, construction aspects, and performance requirements; - produce and organise technical drawings and documents appropriate to the executive level; - produce digital technical drawings using dedicated software (e.g. CAD), with a level of definition consistent with executive design; - use digital representation tools for the communication and management of the project. TEACHING METHODS Teaching activities take place mainly in the classroom and consist of the progressive development of an executive design project through guided exercises. The laboratory is organised as weekly activities in which students work on the project with continuous support from the lecturers, in a context comparable to a design studio. The activities include review sessions and discussions aimed at checking design choices and ensuring the coherent development of technical solutions. All drawings are developed in digital format using dedicated software. SYLLABUS/CONTENT The laboratory is organised as an applied design activity aimed at the progressive development of an executive design project at the building scale. The activities include: - critical reading of a real architectural project and its technological organisation; - verification and revision of construction systems and building components; - development and representation of construction details; - verification of the coherence between design choices, technical solutions, and building performance; - production of graphical and technical drawings at an executive level. All drawings are produced in digital format using dedicated software. The laboratory is mainly carried out in the classroom, with weekly design activities and the continuous presence and collaboration of the lecturers, according to a working method comparable to a design studio. RECOMMENDED READING/BIBLIOGRAPHY Dassori E., Morbiducci R., Building Architecture, Tecniche Nuove, Milan, 2020. The reference book supports the theoretical and technical aspects of the laboratory activities. Additional teaching materials (slides, case studies, and project references) are provided during the laboratory and made available through the course Team. TEACHERS AND EXAM BOARD SALVATORE POLVERINO Ricevimento: The professor receives students by appointment, to be arranged by sending an e-mail to salvatore.polverino@unige.it. RENATA MORBIDUCCI Ricevimento: Student meetings will be arranged upon request, either by email or through the course’s Microsoft Teams channel. LESSONS LESSONS START https://corsi.unige.it/corsi/11949/studenti-orario Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION The exam will consist in the submission of the complete design project, which will be discussed during an oral interview. ASSESSMENT METHODS The exam will consist in the submission of the complete design project, which will be discussed during an oral interview. The assessment methods are intended to evaluate the quality and consistency of the work carried out by the student during the course, with particular attention to the following aspects: - Completeness of the drawings: presence of all required documents, developed according to the guidelines provided during the course; - Technical and regulatory accuracy: compliance with building regulations, consistency between the different scales of representation, and precision in the construction details; - Clarity and graphic quality: effective use of digital drawing tools (e.g., linework, hatching, text, layout), legibility, and overall organization of the drawings; - Argumentative skills: clarity of exposition and ability to justify design and technical choices during the oral discussion. Agenda 2030 - Sustainable Development Goals Quality education Industry, innovation and infrastructure Sustainable cities and communities Responbile consumption and production Climate action