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MARS II 03
Extreme climate studio 2017, 3rd year
Sponsored by David Azrieli Foundation
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The Faculty of Architecture & Town Planning
The Technion in collaboration with: McGill University, Montreal Tel Aviv University
Mentors:
Prof. Aaron Sprecher
PhD Arch Tom Shaked with: Sarah Amar-Kroin
Personal contribution: 3D-modeling, algorithmization, renderings
Tools:
Adobe Aftereffects
Rhinoceros 3D Grasshopper
Vray
Adobe Illustrator
Adobe Photoshop
Adobe Lightroom
Adobe Indesign
MARS II is located on Central Axel Heiberg Island, Nunavut, the Canadian High Arctic (approximately 79º26’N, 90º46’W). This area is characterized by cold and dry Arctic climate conditions which render the place extremely difficult to live in –the island is uninhabited except for the seasonal McGill Arctic Research Station (MARS) operated by McGill University.
The proposal represents a prototypical model capable of generating a symbiotic space for living, working, and leisure. The objective of this project is to produce such a synergy both at a functional and experiential level, given the extreme climate conditions at the site.
The project suggests the possibility of having a modular superstructure that functions as a hybrid of self-sufficient elements. These components aim to define multiple spatial orders capable of adapting to a universal context.
The structure is formed by two overlapping programmatic layers that define a spatial relation both externally and within the space itself. MARS II offers a unique condition by which multiple narratives act simultaneously instead of the conventional principles of zoning. Here, the architectural system is structured in a similar way as Aldo van Eyck’s principle of interlocked clusters that define the circulation system and a shared experience.
The continuous circulatory streams along the building are accompanied by multifunctional open spaces with the objective of blurring the boundaries between collectiveness and individuality.
Winning: Faculty Dean Prize
In an effort to turn collaboration into action, its organization is defined by an inner artificial topography that replaces the partitions. This architectural strategy offers an interaction between technical and social aspects of architecture.
The remote location of the site and the technical complexity of the building system call for a strategy in terms of self-sufficiency. Thus, the building skin is equipped with photovoltaic cells that follow a formal definition in order to maximize solar exposure and wind energy provision.
The resulting formal expression of the system shapes the architectural identity of MARS II.
Wind Turbines
Traditional wind turbines capture only 59.3 percent of the energy in wind, a value called the Betz limit.
FloDesign wind-turbine blades are surrounded with a shroud that directs air through the blades and speed it up, which increases power production. The new design generates as much power as a convential wind turbine with blades twice as big in diameter. The smaller blade size and other factors allow the turbines to be packed closer together than convential ones, increasing the amount of power that can be generated per acre of land.
“That is plausible that such a design could double or triple a turbine’s power output”, - Paul Sclavounos, professor of mechanical engeneering at MIT.
London Northgate Spa Complex
The project proposes a spa complex for the residents of London Northgate mensions and includes a pool, a gym and a number of exercise rooms.
Located inside the urban block not far from St. John’s Wood tube station, the plot is surrounded by classic brick-made buildings, typical for London mensions of this prestigious area. The design of the complex’ facade respects its surroundings while giving it a unique modern look, which would fit the public program for the neighborhood.
Freelance work, 2019
Concept and primary planning
REFLECTIONS, AZRIELI GLOBAL STUDIO
After coming back from the tour to Quebec, Canada, Israeli students were asked to recreate their experience in a new and highly individual form using the infrastructure provided by VizLab (visualization laboratory).
As a part of the exercise, eight short movies were created and shown to the Technion‘s main teaching staff and to the administration of the Technion’s Architecture Department. The topics of the movies represented different aspects of the trip, whether it was cultural familiarization and interchange or the “tourist” perspective, nature’s wealth and uniqueness, or urban development and industrialization trends.
“Atmospheric machines” is a conceptual exercise which included learning new tools and prepared the ground for the studio project.
2017, 3rd academic year Extreme climate studio, The Technion, led by Prof. Aaron Sprecher
With: Sarah Amar-Kroin Personal contribution: concept, footage + video editing
