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Solar Decathlon Europe / Part 2

October 12, 2012
Canopea House

The second edition of Solar Decathlon Europe has come to a close in Madrid with the Canopea House winning the competition. Designed by the Rhône-Alpes Team from the Ecole National Supérieure d'Architecture de Grenoble, France, the house has scored highest in Comfort, Architecture, Innovation and Operations.

The second place is for Patio 2.12 from Team Andalucía, a house with an interesting cooling system based on evaporation that has excelled in Energy Efficiency, Balance of Electricity and Communication. 
 
Patio 2.12 is a construction with four prefabricated volumes organized around an enclosed courtyard. Each volume hosts a different function: sleeping, cooking, living and technical. Volumes are internally lined with cork panels from recycled wine corks and externally with clay panels.

The courtyard roof is a triple-glazing with leafy-looking external louvers. The glazing can open to release hot air whereas the louvers are fixed and rotate to close or open position. When closed, their irregular shape and metal finish give a lovely shade to the courtyard. Shame that the overhead-glazing hasn't got sufficient pitch to avoid ponding and nasty stains have grown throughout the glazing.
 
Patio 2.12 Façade


Patio 2.12 Courtyard
 
Patio 2.12's cooling system is smart. It follows the principle of the traditional botijo, the unglazed clay jug used in Southern Spain to keep water. The botijo (pictured below) cools water by evaporation. Once filled and placed in the sun, its porous material allows water to filter through it and to evaporate once in contact with the outside dry air. Evaporation requires thermal energy which is extracted from the water inside the jug, cooling it down up to 10C. The cooling system of the house works the same way. It relies on ceramic hollow cladding panels. Water drops through the panel's cavity and when it evaporates, it cools the cavity. An air draft brings the cool air into the building.


Botijo
 
The Canopea House by the Rhône-Alpes Team is one of the few projects that considers the urban context. The team, concerned by the lack of urban space, has designed a house that can be stacked into towers, thus helping to contain urban sprawl. The "Nanotowers" incorporate features such as farms to grow food and a communal space at the top of the building with a summer kitchen and a laundry room. A buffer zone around the building lowers the heat loss in the winter and protects from the sun in the summer.


Canopea Nanotowers

The Ekó House by Team Brazil is a lovely construction surrounded by bamboo sliding screens. The bamboos are differently spaced in East and West facades. The house has a dry composting toilet and treats it grey water with macrophyte plants.




About
Solar Decathlon Europe 2012 #sde12 / Madrid, 14 - 30 September 2012

Patio 2.12 House by the Universities of Sevilla, Jaén, Granada & Málaga / Spain
Area:    107.13 m2
Est. energy production:     16,378 kWh / year
Est. energy consumption:    2,982 kWh / y
Est. cost:  €500,000

Canopea House by the Ecole Nationale Supérieure d'Architecture de Grenoble / France
Area:    195.9 m2
Est. energy production:     12,733 kWh / year
Est. energy consumption:    6,305 kWh / y
Est. cost:  €700,000

Ekó House by the Universidade Federal de Santa Catarina + Universidade de São Paulo / Brazil
Area:    47.59 m2
Est. energy production:     21,157 kWh / year
Est. energy consumption:     6,836 kWh / y
Est. cost:  €450,000

Solar Decathlon Europe 2014 / France

Photos by PS

Noa Haim's Cardboard Megastructures : Beautiful DIY Architecture

October 09, 2012

9 October 2012

Riveting contribution of the Rotterdam based architect Noa Haim to the Madrid Architecture Week. Spaceship Heart, a structure made with folded cardboard polyhedrons, is one of the many possibilities in which you can combine the modules. Through her project Collective Paper Aesthetics, Haim explores spacial scenarios picking up on Buckminster Fuller's work. A smart project with a potentially high impact in public space.

The possibilities offered by the system are endless. The building blocks are combined in a truss i.e. it is a self-supporting structure and can easily adopt multiple shapes. It could in theory be as big as shown in the drawing below and if the cardboard were to be replaced with a stronger material, it could even support additional floors. Paper though gives a wonderful finish, it's easy to source and can be printed to the user's taste.



The project is conceived as a participatory initiative where people help building the structure. It has also been used as a game for kids. At the CentroCentro Space in Madrid, where Spaceship Heart was exhibited, the visitors were shaping the installation with the many blocks that laid around.

Spaceship Heart is an open source design. Haim has shared how to build the polyhedrons and how to combine them into a structure at the I Love Architecture initiative by Architecture for Humanity and at her web page. This is a wonderful act especially towards design-deprived areas ...lucky enough to have internet and a printer.









About 
Spaceship Heart Building Instructions  & Building Block
NB do not forget to send a picture of the work to the architect!

Collective Paper Aesthetics
Buckminster Fuller

Pictures by PS


Solar Decathlon Europe / Part 1

September 20, 2012

The renewable energy sector officially lives in a time warp. The second edition of the European Solar Decathlon, on show in Madrid, features 19 energy efficient houses that generate their own power. Disappointing though that they do so with superseded technologies. The competition, however, is a great initiative for raising awareness on the need to consume less natural resources and reduce waste generation, and the houses, designed by universities from around the globe, are a good example of efficient design.

What would I have expected? I guess to find examples of truly efficient electricity generation. Solar power is fine but we know it has a very low efficiency rate -10%- and there is a lack of facilities to store it, that's why it has to go hand in hand with the traditional power grid. Not really a breakthrough. I would have loved to see electricity being generated from electromagnetic radiation or via nano materials for instance. A type of energy that is easier to generate and can exist without the grid. There are plenty of institutes and independent researchers exploring the matter and achieving excellent results. Regarding new building materials, what about "atomic" ones such as graphene-based structures, metabolic materials or printed ones? Aren't these more XXI century than timber, paper or glass?

Back to the Villa Solar in Madrid where the Solar Decathlon competition is taking place, the 19 houses are being monitored and will get a score on 10 aspects, ranging from energy efficiency to innovation and functionality. 


The Counter Entropy House from the RWTH Aachen is a project that stands out despite its conservative looks. It has an open floor plan enclosed by cores and a retractable glazing. The oversailing roof carries a curtain to the South and West edges. At the time of my visit the glazing was open and the curtain semi-closed and this created a lovely breeze and shade inside the house. The house is partly made with reused materials: the cladding panels are de-coated and melted CDs, the lamps are bicycle wheels wrapped with tracing paper and the furniture is made with cutouts from timber boards held together with a film. The house control panel, developed by one of the students, gets projected on a table surface. A sensor opposite the user recognizes the commands in the arm movements going towards the projected buttons. The system works with the user's arm movements not with the projection on the table, which has no other function than to help the user memorize the movements.


Counter Entropy House
Counter Entropy House: facade panel made with melted CDs
Counter Entropy House: lamp projecting house control panel on the table below
Counter Entropy House: house control panel projected on table surface and monitored by hand movements
  
The Para Eco-House by the Chinese Tongji University is a small compact volume protected by an outer lattice skin. The house is mainly made with bamboo, uses vacuum insulated panels (VIP) for the walls and has a mist spray system in the terrace. Possibly its most interesting feature is the Western outer wall: a web of differently-sized openings filled with plants and solar cells.


Para Eco-House West wall
Para Eco-House inner West wall
Para Eco-House outer West Wall PV panel

ECO House by the Universitat Politecnica de Catalunya in Spain is a simple construction with great features. It is a lightweight structure clad with corrugated plastic. The rooms are independent timber cubes with exposed plugged-in services. The house uses different types of water: regular tap water, rain and on-site treated grey water. The user decides, depending on function, which one to use. The air cooling is equally interesting. Cold air is pumped from an outdoor, insulated box full with gravel. The box lid opens at night until the gravel cools down, then closes to preserve the low temperature. Sadly, the ventilation system seemed undersized since despite high ceilings and roof opening vents, the temperature in the house was uncomfortably high. Possibly the corrugated plastic skin wasn't helping. 


 Eco House water treatment plant
Eco House interior
Eco House water connection types to the bathroom
Eco House: cooling system with gravel

I got excited to see a rice paddy in front of the Omotenasi House by the Japanese Chiba University and assumed that it was irrigated with grey water but it wasn't. Still, a great idea to grow your own food at home. In this regard, the house has also cultivation screens and a plant factory that uses fiber optics for rapid plant growth. The traditional-looking roof is made with photovoltaic tiles and produces 1.7 times more electricity than a regular PV system. The dark panels in front of the house are for water heating.



The Odoo House by the Budapest University of Technology and Economics has the most striking outdoor space. Allegedly based on Hungarian traditions, the East-West oriented open space is enclosed to the South by a "summer wall"  that includes an outdoor kitchen and a furniture storage that turns into a lounging area. The wall is clad with PV panels to its South face.
Odoo House: Summer Wall South face PV panels
Odoo House: Summer Wall inner face with outdoor kitchen

Other projects include the Canopea House from the Ecole National Supérieure d'Architecture de Grenoble, France.



CEM' House (Casas em Movimento) by the Universidade do Porto, Portugal.


Fold House, Technical University of Denmark.


Ekihouse by the Universidad del País Vasco, Spain.



Check the following post Solar Decathlon Europe / Part 2 to learn about the winners.




About
Solar Decathlon Europe 2012 #sde12 / Madrid, 14 - 30 September 2012

Counter Entropy House by the RWTH Aachen / Germany
Area:    49.1 m2
Est. energy production:     8,886.6 kWh / year
Est. energy consumption:  6,365 kWh / y
Est. cost:  €542,000

Para Eco-House by the Tongji University / China
Area:    128 m2
Est. energy production:   15,857 kWh / year
Est. energy consumption:  4,273 kWh / y
Est. cost:  €287,000

(E)CO House by Universitat Politecnica de Catalunya / Spain
Area:    150 m2
Est. energy production:     5,900 kWh / year
Est. energy consumption:  4,222 kWh / y
Est. cost:  €150,000

Omotenashi House by the Chiba University / Japan
Area:    54.38 m2
Est. energy production:   13,374 kWh / year
Est. energy consumption:  8,302 kWh / y
Est. cost:  €500,000

Photos by PS

Milan Design Week 2012

May 23, 2012

The 2012 edition of the Milan Design Week has seen a shift in the manufacturing processes. 3D printing, open-source software and crowd-funding are emerging as alternatives to traditional furniture production. There were beautiful 3D printed designs and DIY machines that could morph soft materials into improbable shapes. More on this in my Milan Furniture Fair Coverage for Inhabitat.com at the bottom of this page.


Vitra at the Salone. 



Via Tortona, Established & Sons


Via Tortona, Heineken Club


Wonderful spaces



3D printing





The Salone



Ventura Lambrate





About
51st Salone Internazionale del Mobile, Milan 17-22 April 2012 | #SaloneDelMobile

2012 Milan Furniture Fair Coverage for Inhabitat, by PS

Pictures by PS

 
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