Kaleigroscope (Hygroscopic Morphogy)

 

*hy · gro · scop · ic (Adj.) Readily absorbing moisture, as from the atmosphere.

*mor · phol · o · gy (n.)  a. The branch of biology that deals with the form and structure of organisms without consideration of function.

Hygroscopic Morphology is a research study focused on the formal and structural changes of a material upon absorbing water molecules from the atmosphere. In this field of research, kinetic movement is particularly investigated as a potential substitute to the artificial mechanical systems employed in the architectural and engineering disciplines. This is referred to as Material Intelligence; material’s inherent properties are researched in an attempt to optimize efficiency in the use of depletable materials.

| Site . Material |

Being the rich natural reserve it is, Valldaura is primarily vast areas of mountain ridges, almost completely covered in green and interestingly growing a long-term cherished biodiversity. For obvious reasons, we chose to experiment with pine wood: First, due to its abundance on site; second, due to the interesting hygroscopic behavior displayed by pine cones. Our experiments confirmed common knowledge concerning the factors influencing movement direction, speed and intensity.

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| Hygroscopic behavior of thin Pine Veneer |

As water molecules are absorbed, wood displays swelling and bends. To enforce the bending, one side of the veneer must be waterproofed or insulated.

| Concept |

Our  first position towards this design project was triggered by many factors. Valldaura labs future project ensured a social/environmental interest. We wanted an installation/pavilion that displayed the hygroscopic behavior of wood as a research outcome. We were also interested in controlling the bending property and hence were keen on working with patterns. But we also understood the challenge of exhibiting hygroscopic performance: the movement must be amplified and it required a somehow “controlled environment”>>

Hygroscopic Kaleidoscope  a.k.a. KALEIGROSCOPE! Kaleigroscope gives the visitors intimate moments with nature, invites nature in, reflecting its colors, hues and light. How does it work? Couple wood with an adhesive reflective film>>

concept

prototype testing

Our prototype works! We then explore the following design options:

1. Morphed Surfaces and Corresponding Extrusions

morphed

This option seems interesting as the extrusion form is directly affected by the surface deformation. However, it felt random. We needed a defined structure to start with. A geodesic dome.

2. Population

population

 

kaleigroscope2

 

 

Introductory Design Studio // When Energy Becomes Form
Theme // Hygroscopic Morpholodgy // Kaleigroscope
Location // Valldaura IAAC Barcelona
Students // Niel Parekh // Stephanie Bashir // Rodion Eremeev // Rodolfo Parolin Hardy

Posted in Niel Jagdish Parekh, Rodion Eremeev, Rodolfo Parolin Hardy, Stephanie Bashir | Comments closed

The crystal rock: A habitat for bioluminescent bacteria

vibrio fischeri
In order to live, grow and glow, the vibrio fischeri, bioluminescent bacteria that we are using for our project, needs to continuously be fed.
But it also needs to live in specific conditions of temperature, PH etc…Our goal is to provide to this bacteria an adequate habitat, that would ideally be self sufficient. This would allow the creation of a continuous diffuse light. Read More »
Posted in Jose Roberto Diaz Braga, Maria Laura Cerda, Michele Braidy, Sviatlana Matushko | Comments closed

Algae bio-powering cells

algae_1170-770x460-e1378397159244

 

Energy is at the centre of contemporary urban landscape development like water has been an important factor for ancient cities establishment and expansion. In pre-industrial times rivers and lakes have been strongly influencing the morphogenesis of cities however presently contemporary energy infrastructures are instead often segregated from the city itself, hidden in places, not considered relevant to an urban life. This form of segregation inherited from modernity (zoning) appears across scales and regimes from the urban to the material, as we can observe from the classic juxtaposition of arrays of solar photovoltaic cells over landscapes as well roofs and facades.alge sa PS fajla

The studio aims at the subverting this paradigm of segregation by envisioning novel bio-technological prototypes whose morphology, materiality and esthetic novelty are emergent qualities of specific flows of energy and information.

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Posted in Maria Agnieszka Czajczynska , Novak Kijac | Comments closed

Hygroscopic Water Collectors

 

hygroscopic snapshot

 Hygroscopic behavior of 1mm thick pieces of linden wood, 5x times sped-up.

(Click image to view video)

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Posted in Uncategorized | Comments closed

Mycotecture GR2: Building from Mushrooms

The goal is researching a new technology of biologic building material production. Mycelium is the growing root like structure of mushrooms and it has been found out in a closed container with cellulose based input mycelium grows and takes the form of the container.

800px-Oyster_mushroom_(Pleurotus_ostreatus)_mycelium_in_petri_dish_on_coffee_grounds Read More »

Posted in Giombattista Areddia, Hristo Kovachev, Ismail Gokhan Catikkas, Renata de Castro Lotto, Uncategorized | Tagged , , , , , , , | Comments closed