Arno Schlüter: Catalogue data in Spring Semester 2020 |
Name | Prof. Dr. Arno Schlüter |
Field | Architecture and Building Systems |
Address | Architektur und Gebäudesysteme ETH Zürich, HIB E 36 Stefano-Franscini-Platz 1 8093 Zürich SWITZERLAND |
Telephone | +41 44 633 93 91 |
schlueter@arch.ethz.ch | |
Department | Architecture |
Relationship | Full Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
051-1220-20L | Integrated Discipline Building Systems | 3 credits | 2U | A. Schlüter | |
Abstract | This part of the curriculum addresses design work in different areas of architecture and urbanism and integrates the knowledge acquired in previous years. It involves the active participation of specialists from related disciplines. In this case the focus lies on energy and exergy concepts and related technical infrastructure to achieve sustainable building concepts. | ||||
Objective | Understanding the building from an integrated view on form, material and technical systems. Focus on CO2 - neutral building design concepts, utilizing energy and exergy efficient sytems. | ||||
Content | This part of the curriculum addresses design work in different areas of architecture and urbanism and integrates the knowledge acquired in previous years. It involves the active participation of specialists from related disciplines. In this case the focus lies on energy and exergy concepts and related technical infrastructure to achieve sustainable building concepts. | ||||
Prerequisites / Notice | Prerequisite is a successful exam of Energy and Climate Systems I+II | ||||
052-0610-00L | Energy and Climate Systems II | 2 credits | 2G | A. Schlüter | |
Abstract | The second semester of the annual course focuses on physical principles, component and systems for the efficient and sustainable supply with electricity, daylight and artificial light. This includes concepts of on-site generation of energy, building systems controls and human-building interaction. Additionally, larger scale building energy systems for districts are discussed. | ||||
Objective | The lecture series focuses on the physical principles and technical components of relevant systems for an efficient and sustainable climatisation and energy supply of buildings. A special focus is on the interrelation of supply systems and architectural design and construction. Learning and practicing methods of quantifying demand and supply allows identifying parameters relevant for design. | ||||
Content | Efficient buildings and integrated design Renewable, on-site energy generation Daylight and artificial light Intelligent buildings: automation and user Urban energy systems | ||||
Lecture notes | The slides of the lecture serve as lecture notes and are available as download. | ||||
Literature | A list of relevant literature is available at the chair. | ||||
063-0116-20L | Architecture and Building Systems (Thesis Elective) Language: English or German. | 6 credits | 13A | A. Schlüter | |
Abstract | The knowledge gained from the lecture series of Energy and Climate Systems will be applied in this elective course work. Focusing on specific questions, this knowledge will be deepened. Each topic will be individually discussed with each student. Based on the design of studios or other projects, a building will be examined with the goal of emissions-free building operation. | ||||
Objective | The objectives are to understand the challenges that arise with these aspects of sustainability, to dimension the resulting technical systems and components, and to implement this in architecture. | ||||
066-0422-00L | Building Systems II | 3 credits | 3G | A. Schlüter, L. Baldini, V. Dorer, I. Hischier, M. Sulzer | |
Abstract | The course gives an overview of concepts and design of building energy supply and ventilation systems, renewable technologies, thermal comfort, indoor air quality, and integrated systems both on building and on urban scale. | ||||
Objective | The course has the following learning objectives: - Knowledge of the fundamentals, principles and technologies for building heating and cooling, solar thermal systems, hybrid and mechanical ventilation, BIPV and Smart Energy Systems, Urban Energy Systems - Knowledge of the integration and interdependencies of building systems and building structure, construction and aesthetics - Ability to estimate relevant quantities and qualities for heating/ cooling of buildings and the related supply systems - Ability to evaluate and choose an approach for sustainable heating/cooling, the system and its components - Synthesis in own integrated design projects |