| dc.description.abstract | In order to curb the substantial environmental footprint of new buildings, innovative approaches in
architecture are needed. The new built environment needs to integrate with its surrounding
environment rather than only becoming a burden on it. Nature presents the best model for designing
efficient, renewable, and waste-free systems. While conventional human systems use excessive
energy and resources, organisms leverage nested and interconnected systems, diversity and
collaborative relationships to adapt to their environment. They also provide a steady internal
environment (homeostasis), similar to what buildings aim to do for their residents (steady
temperature, humidity). As such, nature’s strategies can be a source of design inspiration for climate
adaptive architecture.
Biomimicry, an interdisciplinary approach to design and innovation, aims to solve human challenges
by emulating nature’s strategies that have evolved to be resource-efficient and sustainable. It also
encourages designs that are in harmony with nature. Applying biomimicry in buildings is not a new
concept, but it has gained traction in the past two decades. This study provides an overview of built
or approved examples of biomimicry in the built environment in the 21st century, as described in
scientific literature. Thirteen cases are described, and categorized into three groups based on their
purpose: Heat and light regulation, air regulation, and water regulation. Regulating heat and solar is
crucial for a more energy efficient interior climate control. Air regulation could be done to support
the mechanical stability of buildings, as well as energy production to make them less reliant on the
grid. Water regulation could enable vegetable farming in arid areas, or provide a basis for habitats in
and around buildings.
The cases showcase promising initial steps in the application of biomimetic design in the built
environment, while also highlighting the essential need for strengthening the interdisciplinary links
between biology and (urban) architecture. | |
| dc.subject | Innovative architecture can reduce the environmental impact of buildings by mimicking nature’s mechanisms and systems. Biomimicry applies nature-inspired strategies to design climate-adaptive, resource-efficient structures. This study reviews 13 examples of biomimicry in buildings, categorized by their focus on heat/light, air, or water regulation. These solutions improve energy efficiency, structural stability, and biodiversity integration in buildings. | |
