Search result: Catalogue data in Autumn Semester 2024
Integrated Building Systems Master  | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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| Number | Title | Type | ECTS | Hours | Lecturers | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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| 151-1633-00L | Energy Conversion This course is intended for students outside of D-MAVT. | W | 4 credits | 3G | G. Sansavini, S. A. Hosseini, I. Karlin | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Abstract | This course provides the students with an introduction to thermodynamics and energy conversion. Students shall gain basic understanding of energy and energy interactions as well as their link to energy conversion technologies. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Learning objective | Thermodynamics is key to understanding and use of energy conversion processes in Nature and technology. Main objective of this course is to give a compact introduction into basics of Thermodynamics: Thermodynamic states and thermodynamic processes; Work and Heat; First and Second Laws of Thermodynamics. Students shall learn how to use energy balance equation in the analysis of power cycles and shall be able to evaluate efficiency of internal combustion engines, gas turbines and steam power plants. The course shall extensively use thermodynamic charts to building up students’ intuition about opportunities and restrictions to increase useful work output of energy conversion. Thermodynamic functions such as entropy, enthalpy and free enthalpy shall be used to understand chemical and phase equilibrium. The course also gives introduction to refrigeration cycles, combustion and refrigeration. The course compactly covers the standard course of thermodynamics for engineers, with additional topics of a general physics interest (nonideal gas equation of state and Joule-Thomson effect) also included. In the course "Energy Conversion", the competencies of process understanding and system understanding are applied and examined and the competencies process understanding and modeling are taught. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Content | 1. Thermodynamic systems, states and state variables 2. Properties of substances: Water, air and ideal gas 3. Energy conservation in closed and open systems: work, internal energy, heat and enthalpy 4. Second law of thermodynamics and entropy 5. Energy analysis of steam power cycles 6. Energy analysis of gas power cycles 7. Refrigeration and heat pump cycles 8. Nonideal gas equation of state and Joule-Thomson effect 9. Maximal work and exergy 10. Mixtures 11. Chemical reactions and combustion systems; chemical and phase equilibrium | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Lecture notes | Lecture slides and supplementary documentation will be available online. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Literature | Thermodynamics: An Engineering Approach, by Cengel, Y. A. and Boles, M. A., McGraw Hill | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Prerequisites / Notice | This course is intended for students outside of D-MAVT. Students are assumed to have an adequate background in calculus, physics, and engineering mechanics. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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| 401-0203-00L | Mathematics | W | 4 credits | 3V + 1U | C. Busch | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Abstract | This course gives an introduction to the following subjects: calculus, multivariable calculus, differential equations, linear algebra (systems of linear equations, matrices, eigenvectors). | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Learning objective | Basic mathematical knowledge for engineers. Mathematics as a tool to solve engineering problems. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Content | This course gives an introduction to the following subjects: calculus, multivariable calculus, differential equations, linear algebra (systems of linear equations, matrices, eigenvectors). | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Literature | Tom M. Apostol, Calculus, Volume 1, One-Variable Calculus with an Introduction to Linear Algebra, 2nd Edition, Wiley Tom M. Apostol, Multi-Variable Calculus and Linear Algebra with Applications, 2nd Edition, Wiley Ulrich L. Rohde, Introduction to differential calculus : Systematic studies with engineering applications for beginners, Wiley. Ulrich L. Rohde, Introduction to integral calculus : Systematic studies with engineering applications for beginners, Wiley. Serge Lang, Introduction to Linear Algebra, 2nd edition, Springer New York. Serge Lang, A First Course in Calculus, 5th edition, Springer New York. A list will be handed out in the lecture. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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| 066-0427-00L | Design and Building Process MIBS | W | 2 credits | 2V | A. Paulus, S. Menz | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Abstract | Design and Building Process MIBS is a brief manual for prospective architects and engineers covering the competences and the responsibilities of all involved parties through the design and building process. Lectures on six compact aspects gaining importance in a increasingly specialised, complex and international surrounding. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Learning objective | Participants will come to understand how they can best navigate the design and building process, especially in relation to understanding their profession, gaining a thorough knowledge of rules and regulations, as well as understanding how involved parties' minds work. They will also have the opportunity to investigate ways in which they can relate to, understand, and best respond to their clients' wants and needs. Finally, course participants will come to appreciate the various tools and instruments, which are available to them when implementing their projects. The course will guide the participants, bringing the individual pieces of knowledge into a superordinate relationship. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Content | Design and Building Process MIBS is a brief manual for prospective architects and engineers covering the competencies and the responsibilities of involved parties through the design and building process. Three compact chapters regarding the established building culture are gaining importance in an increasingly specialised, complex and international surrounding. Lectures on the topics of competence, organisation, agility, monitoring, interest, and the environment will guide the participants, bringing the individual pieces of knowledge into a superordinate relationship. The course introduces the key figures, depicts the criteria of the project and highlights the proveded services of the consultants. In addition to discussing the basics, the terminologies and the tendencies, the lecture units will refer to the studios as well as the practice: Teaching-based workshops will compliment and deepen the understanding of the three selected aspects of profession, methodology, and environment. The course is presented as a moderated seminar to allow students the opportunity for invididual input: active cololaboration between the students and their tutor therefore required. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Literature | https://map.arch.ethz.ch | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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| 103-0317-00L | Spatial Planning and Development Only for master students, otherwise a special permisson by the lecturer is required. | W | 3 credits | 2G | D. Kaufmann, A. Kuitenbrouwer | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Abstract | The course deals with theoretical, methodological and practical foundations around the understanding and production of urban space. It discusses theoretical planning frameworks, and tasks of spatial planning at various scales, addresses current and future challenges of spatial development and reviews approaches for a sustainable development in Switzerland and beyond. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Learning objective | The overall aim of the course is to raise students’ awareness and curiosity about the aspects that guide and shape our environment. Through lectures, readings, discussions, and exercises, the course seeks to achieve this goal by accumulating crucial notions from both theoretical and practice-based examples, and applying such knowledge into tasks of spatial planning. At the end of this course, students should feel empowered to critically engage with the teaching topic from a variety of approaches. By taking up the lecture, the students should be able to to analyse, interpret and reflect complex cross-scale tasks of spatial development and transformation, and to use their theoretical, methodical and professional knowledge to tackle them. You as students will... ... assess present and future core challenges of spatial planning and development. ... discuss the role of spatial planning and development in shaping our living environment. ... differentiate the levels, scales and tasks of spatial planning instruments and processes. … reflect on theoretical concepts and pratical examples of decision-making of spatial tasks. ... identify and apply spatially relevant principles and systems for action-oriented planning and decision-making. ... acquire theoretical, methodological, practical know-how to examine, clarify, and solve tasks on spatial development | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Content | Spatial development as a discipline deals with the development, (trans)formation, and arrangement of our urban environment. We simultaneously perceive and contribute to its transformation, making space the result of manifold intended and unintended changes. To mediate between different demands, interests and interventions of multiple actors, a forward-looking, evidence-based, and action-oriented planning is necessary. As guidance for future action, (spatial) planning has to be committed to the sustainable handling as well as just allocation of resources, in particular of the non-replicable resource land. The course focuses on both theoretical concepts and practice-oriented approaches to gain knowledge and be equipped to address current issues in spatial planning and development. This is mirrored in the course’s structure made of both of lectures and exercises. The lecture series introduces necessary key concepts and covers the following main topics: - Drivers of spatial development, inward development, core tasks and current challenges for (spatial) planners. - Interplay of formal and informal planning instruments across scales and actors. - Differentiation urban typologies, their characteristics and challenges - Types of spatial analysis and key figures - Planning approaches and the (political) steering of spatial development. - Types of processes and participation in spatial development. - Approaches for planning complex urban situations - Concepts for sustainable development The exercises provide a framework for practical application of the learned theoretical concepts of spatial planning to real-life situations. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Lecture notes | A course will be set up on Moodle for the provision of lectures and documents, to upload group deliverables and to ask questions in a discussion Forum. All documents provided are exclusively available for use within this course. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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