Learning objectives
- Situate the thesis focus within the framework of UN Sustainable
Development Goals and Climate Change Scenarios
- Define a project-based regenerative design problem statements
- Define a regenerative design thesis focus that relate to one or more of
the interrelated scales: Ecosystems, Urban Environments, Buildings,
Façades, Components and Material, Human
- Orchestrate the conceptual framework with Parametric Tools to Frame
Sustainable Strategies
- navigate the big data that informs the regenerative design
- simulate design scenarios according to regenerative targets and cobenefits approaches
- generate scientific knowledge derived by the "research by design"
conducted in the Studio
- Write a short scientific report describing the regenerative design
strategy that is of interest of the candidate. For those interested the
scientific paper will constitute the premises of their thesis.
Prerequisites
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Course unit content
Given the context of climate change, architectural design should not be
merely concerned with developing artefacts that limit environmental
impacts on the ecosystem or people’s health within a certain threshold.
Instead, cities, buildings and technology must be designed to enhance
the quality of the relationships between natural systems, the built
environment, and their inhabitants. This approach is called regenerative
design, and is the focus of the course.
The course presents and reviews a variety of emerging practices that can
support the implementation of Regenerative Design, with the aim to
establish a series of Master thesis tracks. These are introduced by a
series of key literature references, design approaches and digital
implementation, drawing from the international practitioners and
researchers. Their common effort is, with extensive use of science-based
approaches, to seek multi-domains approaches and integrate measured
and simulated data into their design generation.
Full programme
The course is organized around 5 areas (thesis tracks) that are
introduced by the course leaders and by international guests:
1) Ecosystem integration. It is explored how cities can produce their own
food, energy, and water and be designed to provide habitat, cycle
nutrients, and purify water, air and soil.
2) Climate Change. Urban Microclimate and Decarbonisation. The design
focuses on how the built environment and its local current and future
climate can be designed in ways to optimise both outdoor comfort and
indoor comfort while balancing energy use and while seeking naturebased solutions (NBS) that are part of nature (rather than apart from
nature).
3) Carbon and Ecology. Circular Design. In line with the four laws of
ecology, regenerative design is holistic. It integrates and tracks the
energy, material and emissions flow of cities, buildings, components and
products (i.e. with LCA). Instead of the current take-make-dispose
system, natural ecosystems are circular: There is no waste.
4) Regenerative Design brings products and components from previous
lives into buildings and ensures future lives through circular design
principles.
5) Human Well-being. Biometrics. Regenerative Design aims to promote
and enhance human wellbeing and health in the built environment. While
a reductionist approach targets the absence of ill health, the regenerative
design focuses on Salutogenisis, a term coined by Aaron Antonovsk,
which means "generation of health". Designs for indoor and outdoor
environments must demonstrably improve inhabitant health, and not
merely seek to reduce ill-health. Focus is given to daylighting, circadian
rhythms, thermal comfort and the integration of senses in the concept of
thermal delight.
Bibliography
NABONI, E., HAVINGA L. Regenerative Design in Digital Practice: A
Handbook for the Built Environment. Bozen-Bolzano: Eurac Research,
2019 (please download for free from Emanuele Naboni's profile in
researchgate).
PEDERSEN ZARI, M., CONNOLLY, P., & SOUTHCOMBE, M. 2020 Ecologies
Design: Transforming Architecture, Landscape and Urbanism. Oxon,
Testi in italiano
Lingua insegnamento INGLESE
Routledge Earthscan. 1st Edition
PEDERSEN ZARI, M. 2018 Regenerative Urban Design and Ecosystem
Biomimicry. Oxon, Routledge. 1st Edition (hard cover).
After each lecture, a series of readings and publications are suggested.
Teaching methods
Students will attend Lectures by international practitioners and
researchers that focus on sustainable, regenerative design. They will be
introduced to research and built projects, as well as to the use of
simulation techniques, quantitative and qualitative design methods.
Their work will focus on the concept of net ecological and social positive
balance, and on formulating a robust and testable, regenerative research
topic that potentially will lead to their master thesis formulation.
Assessment methods and criteria
Students will have to show how their future thesis projects will embody
regenerative design principles (by design means) and provide a series of
evidences of their design strategies. Students that will be interested in
following one of the suggested thesis tracks in architectural technology
will be asked to prepare a sound written thesis proposal in coordination
with the course leader.
Other information
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2030 agenda goals for sustainable development
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