Thursday, March 3, 2011

bamboo house at solar decathlon




bamboo house by tongji university at the solar decathlon europe in madrid, spain
image courtesy of design training



the chinese team from tongji university has designed and built 'bamboo house' (aka sunshine inn)
as their official entry into the first european solar decathlon in madrid. made primarily out of bamboo,
the house minimizes CO2 emission levels throughout the whole production phase. the raw material
is also locally cultivated and has a very short and efficient renewable cycle of 5 years.

the house features two curved roofs and a solar-facing wall which are clad with photovoltaic
panels that can generate enough energy to sustain the house, and potentially sell back to the grid.
another highlight of the 75 m2 house is the innovative interior wall covering, which utilizes phase
change materials (such as those used in heat packs) to heat and cool the house.



exterior view of completed bamboo house
image courtesy of design training



detail of PV panels
image courtesy of design training



'bamboo house' at the villa solar
image courtesy of design training



exterior
image courtesy of design training



facade and structure
image courtesy of design training



window detail
image courtesy of design training



exterior
image courtesy of design training



rendering of the entrance and the bamboo treatment
image courtesy of tongji university 



rendering of the exterior PV wall
image courtesy of tongji university



rendering of outdoor space and garden
image courtesy of tongji university

in order to build the house quickly on site, the team pre-fabricated the majority of the house
and prepared the material before shipping to madrid. here are some construction images
from the villa solar and the pre-build stage:



construction phase at the villa solar
image courtesy of javier alonso huerta



image courtesy of javier alonso huerta



pre-build
image courtesy of tongji university



preparation of the bamboo sticks
image courtesy of tongji university



prefab wall segments
image courtesy of tongji university



image courtesy of tongji university



source:http://www.designboom.com/weblog/cat/9/view/10634/bamboo-house-at-solar-decathlon.html

earth - a building material of the future


some of the oldest buildings on the planet are made of earth. currently it is estimated that one
half of the world's population - approximately three billion people on six continents - lives or works
in buildings constructed of earth.

earth is a 100% eco-friendly building material. it is neither manufactured nor transported.
a wall made from raw earth serves as a natural air conditioner, being warm in winter and cool in summer.
when the building is demolished, the earth returns to the soil and can be recycled indefinitely.

largely shunned since the arrival of its close cousin 'concrete' in the 1950s, earth is now back in
fashion as its ecological and aesthetic benefits attract the attention of an increasing numbers of
contemporary architects and eco-builders. industrial sectors devoted to earthen building are
currently emerging as this sustainable material wins over.

the misconceptions associated with earth architecture is that many assume it's only used for housing in
poor rural areas - but there are examples of airports, embassies, hospitals, museums, and factories that are
made of earth. current research efforts are focused on increasing its resistance and processing speed
in order to make it a modern and competitive material.


'ma terre première pour construire demain' (earth today for construction tomorrow)

'ma terre première pour construire demain'
is an exhibition on earth raw as a building material as it
pertains to environmental, economic and aesthetic of today and tomorrow.
the exhibition was produced in collaboration with the research laboratory of the ecole nationale supérieure
d'architecture de grenoble, craterre. ma terre première pour construire demain is co-produced with
four regional agencies as the host in turn until 2013: the flying strasbourg, the science forum villeneuve
d'ascq, the pont du gard and confluence museum in lyon.


the exhibition is divided into 4 main sectors:
earth is made up of grains
experiments with earth
building with earth
building with grains tomorrow


unbaked earth -
earth is a raw material which man has used for thousands of years to build houses, and from which could
arise ways to develop alternatives to industrial materials like cement.



for building purposes, it is preferable to have a solid material, but for the implementation phase,
a fluid material is best. grains possess both of these properties.
in construction, gaps always represent a weakness. this is why every effort is made to stack grains
within materials in a as compact manner as possible
earth is a natural concrete, it is composed of billions and billions of grains which bind together
thanks to water. the resulting clay is always surrounded by a thin layer of water molecules which
it captures in the atmosphere. a clay wall is never dry, even in the desert.
furthermore, clay is electrically charged and creates electrostatic forces which increase the adhesive
power of the grains.


a view into the exhibition : earth's color
image © designboom


where does earth's color come from? 
iron oxides mix with clay to give it this highly variable coloring earth can vary greatly, including
within the same country. for example, in the urban environment, building earth is usually polluted
by debris from former brick and concrete constructions.
forest earth is black because it contains a high proportion of organic material.
also this earth is not suitable for construction.


a view into the exhibition : 'granulometry' technique
image © designboom


earth is made up of grains
that are classified according to their size. the 'granulometry' technique defines them as follows:
coarse: diameter of 2 to 20 cm
gravelly: diameter of 2 mm to 2 cm
sandy: diameter of 60 microns to 2 mm
silty: diameter of 2 microns to 60 microns
clayey: below 2 microns
earth is a ready building material which requires little further processing.
when clay is mixed with water it becomes malleable, plastic or liquid, allowing it to be shaped.
when drying, clay sets and recovers its cohesive properties, and so can bind the soil together.
clayey earth should be free of stones and gravel, a high proportion of sand reduces the risk of cracking.
unusable earth contains insufficient quantities of clay, which is essential for building since it acts as cement.
to obtain a good building material which is strong and easy to use, the proportion of clay in a soil should
be about 15 per cent on average. the sand should be 40 to 80 per cent, the gravel 0 to 40 per cent and the
silt 10 to 25 per cent. if the clay content in a soil is too high, some minerals, such as, sand and gravels,
or fibres, such as, straw or hair, can be added.
generally, a fairly wet mix with higher proportions of clay is used in mouldings and spreading applications,
while a mix with less clay is best suited to compaction in a moist or damp state.

buildings of unstabilised earth, face the risk of erosion 

unless special design precautions are taken to reduce exposure to rain and moisture.
for durability, earth should only be used where it is not prone to water or damp.
optimum designs will depend a lot on the environment, such as the natural drainage and water table; the climate,
for example, rainfall (quantity and intensity) and winds during rains; and on the maintenance practices of the users.
stabilizers and other additives or methods such as good compaction and grain size optimisation can reduce
swelling, shrinkage and cracking, increasing strength and water resistance.

principle techniques of building using unbaked earth
the four main techniques, traditionally used around the world for building with earth are 'pisé' or rammed-earth,
'daub', 'adobe' and 'cob'. 'adobe', rammed-earth and compressed earth blocks are the most widespread earth
construction techniques used today.


- rammed earth :
the granulometric composition of this earth makes it possible to obtain a highly resistant material.
image © designboom


pisé, or rammed earth
is a mixture of earth, sand or gravel and clay, which is kneaded and then compacted.
the earth has to be packed down using a rammer. this pressure is deviated towards the side walls of
the formwork which can split meaning certain precautions must be taken.
if a layer of earth is too thick, it is not properly packed down: the pressure of the rammer is not reaching
the grains at the bottom. a rammed-earth wall therefore corresponds to thin layers of packed earth
which are overlaid.


a view into the exhibition : rammed earth
image © designboom
see video of making



- wattle and daub earth :
this earth is very fine and clayey.mixed with straw or sand, it can be used for building.
image © designboom


'daub' is a mud plaster made by mixing fine earth, straw (or other fibrous material) and lime.
it is used to seal the spaces between wooden sections in walls. the wooden supporting frame is filled
with a daubed lattice or netting woven from vegetable matter. a very clayey earth is used which is mixed
with a straw or other vegetable fibre to prevent shrinkage upon drying.

see video of making


- adobe earth :
this earth can be hand-worked since it contains low proportions of stones and gravel.
image © designboom


'adobe'
is an age-old technique of making bricks from a mixture of clayey earth, straw and water,
which is kneaded and moulded in a wooden frame. the bricks are then dried in the sun.
traditionally, adobes were shaped by hand, but nowadays the use of machines is widespread.
the process of compressing earth blocks has been mechanised and manual or hydraulic presses, or
completely integrated plants can be used. products range from accurately solid shape, cellular and hollow
bricks, to flooring and paving elements.


a view into the exhibition
image © designboom



the great mosque of djenné in mali, a UNESCO world heritage site, is one of the largest earth buildings in the world.

see the making

A woman builds a house with her own hands from Peter Meier on Vimeo.
a woman constructing her house all by her own. she also produces the bricks out of clay by herself.
video © peter meier



- 'cob' erath consisting in shaping lumps of clayey earth and stacking them up to form walls
image © designboom


'cob'
is an ancient building technique.
balls of earth are stacked on top of one another and lightly tapped with hands or feet to
form monolithic walls. the earth is reinforced by the addition of fibres, usually straw from
various types of cereal or other kinds of vegetable fibre, such as grass and twigs.


a view into the exhibition
image © designboom



built entirely by hand, the 'greniers du sahel' cold rooms measure up to 6 metres in height

see the making video


exhibition catalogue

'bâtir en terre', by romain anger and laetitia fontaine was published as part of the exhibition
'ma terre première pour construire demain' (earth today for construction tomorrow).
the book presents the unique heritage of earth construction, from the mythical shibam in yemen,
the 'manhattan of the desert' - to the strange group of hakka houses in china.
the book includes projects from europe and documents the achievements of contemporary architects,
and offers simple and fun experiments to understand the physio-chemical properties of earth.
published by http://www.editions-belin.com
french language only

---
more info on earth architecture

craterre-ensag
the center for the research and application of earth architecture, is part of the school of architecture
of grenoble, france.

http://www.eartharchitecture.org 

terra brasil 2010
the third annual brazilian congress on architecture and earth building, also known as terrabrasil 2010,
will take place in the city of campo grande, in the state of mato grosso do sul (ms), brazil from
august 31st to the september 3rd, 2010. the congress is being organized by the structural and civil
engineering department (dec/ccet) of the federal university of mato grosso do sul, in partnership
with the terrabrasil network (rede terrabrasil).



source:http://www.designboom.com/weblog/cat/9/view/9229/earth-a-building-material-of-the-future.html





Wednesday, March 2, 2011

La taille du grand dépotoir du Pacifique serait très exagérée


Selon une océanographe de l’Université de l’Oregon, la fameuse grande zone d’ordures du Pacifique, qu'on dit aussi grande que deux fois l’État du Texas, serait en réalité 100 fois plus petite. Bien que la quantité de plastique polluant le Pacifique Nord reste préoccupante, il est plus réaliste de réduire les rejets que de nettoyer cet océan.
Depuis quelques années, vidéos à l’appui, il semblait bien qu’une immense surface dans l’océan Pacifique nord soit le lieu d’une concentration inquiétante de déchets en plastique de tout genre. Il s'agit du Great Pacific Garbage Patch, la grande zone d’ordures du Pacifique, également appelée la plaque de déchets du Pacifique Nord. Les estimations les plus alarmantes faisaient état d’une superficie équivalente à deux fois celle du Texas, soit plus du double de celle de la France. Une superficie qui aurait été multipliée par 10 chaque décennie depuis les années 1950. Pire, il y aurait même plus de plastique dans cet océan que de plancton.
« Balivernes ! » clame aujourd’hui l’océanographe Angelicque White de l’Université de l’état de l’Oregon.
Moins de 1 % du Texas
La présence de très nombreux déchets plastiques flottants dans l'océan Pacifique entre la Californie et le Japon est un fait incontestable et il ne fait aucun doute que la quantité de plastique dans les océans du monde est inquiétante. Mais ce genre d'exagération détruit la crédibilité des scientifiques, selon la chercheuse. Elle déclare même : « Nous avons des données qui nous permettent de faire des estimations raisonnables, nous n'avons pas besoin d’en rajouter. Compte tenu de la concentration observée en plastique dans le Pacifique Nord, il est tout simplement inexact de dire que le plastique l'emporte sur le plancton, ou que nous avons observé une augmentation exponentielle de plastique ».
White fonde ses affirmations sur les données disponibles, dont celles ramenées par une campagne océanographique dédiée à l’étude de l'abondance des débris de plastique et à son impact sur les communautés microbiennes. La chercheuse a personnellement pris part à cette expédition organisée par le C-More (Center for Microbial Oceanography: Research and Education).
La dépollution serait dangereuse pour les écosystèmes
Les résultats de ses analyses conduisent à évaluer la superficie de la plaque de déchets du Pacifique Nord à seulement 1 % (tout au plus) de celle du Texas, même en prenant pour base les concentrations en plastique les plus élevées trouvées. L’océanographe donne même l’image suivante : « Si l’on filtrait une surface de l'océan équivalente à celle d'un terrain de football dans les eaux ayant la concentration la plus élevée jamais enregistrée, la quantité de plastique récupérée ne s’étendrait que sur quelques centimètres ».
Il serait donc très couteux de vouloir retirer ce plastique de l’océan Pacifique nord étant donné la surface à traiter et surtout sa faible concentration. Une dépollution serait désastreuse pour la faune et la flore. En effet, le bilan de l’opération serait surtout la suppression de grandes quantités dephytoplancton et zooplancton. Or, comme le rappelle White : « Ces petits organismes sont le cœur de l'océan. Ils sont le fondement de la bonne santé des chaînes alimentaires des océans et ils sont immensément plus abondants que les débris de plastique ».
La meilleure solution pour traiter ce problème semble donc de faire des efforts pour réduire la quantité de plastique rejetée dans les océans. En Méditerranée, l'expédition MED (Méditerranée en danger), montée bénévolement, notamment par des membres de l'Ifremer et des universitaires belges, qui a procédé à des récoltes sur les quinze premiers centimètres d'eau au large des côtes françaises et du nord de l'Italie, a trouvé des microdéchets de plastique dans 90% des sondages. D'après cette étude, qui devrait faire l'objet d'une publication scientifique, à raison de 115.000 déchets par kilomètre carré, l'ensemble de la Méditerranée en porterait 250 milliards. Rappelons qu'en décembre 2010, le Sénat français a repoussé à 2014, au lieu de 2011, la taxe de 20 centimes sur les sacs en plastique distribués en supermarchés.

Le rivage de l'île de Niihau vers Hawaï, montre par endroit une pollution importante témoignant du problème non négligeable des rejets de matière plastique dans le Pacifique. © Polihale-wikipédia


source:http://www.futura-sciences.com/fr/news/t/oceanographie-1/d/la-taille-du-grand-depotoir-du-pacifique-serait-tres-exageree_27164/
   



Study: Most Plastics Leach Hormone-Like Chemicals by Jon Hamilton

http://www.npr.org/2011/03/02/134196209/study-most-plastics-leach-hormone-like-chemicals?sc=fb&cc=fp



Makers of water bottles, including Camelback, now sell products that don't contain BPA, a chemical that can mimic the sex hormone estrogen. But a new study says that even if they don't contain BPA, most plastic products release estrogenic chemicals.
EnlargeDavid McNew/Getty Images
Makers of water bottles, including Camelback, now sell products that don't contain BPA, a chemical that can mimic the sex hormone estrogen. But a new study says that even if they don't contain BPA, most plastic products release estrogenic chemicals.
text size A A A
March 2, 2011
Most plastic products, from sippy cups to food wraps, can release chemicals that act like the sex hormone estrogen, according to a study in Environmental Health Perspectives.
The study found these chemicals even in products that didn't contain BPA, a compound in certain plastics that's been widely criticized because it mimics estrogen.
PlastiPure manufactures water bottles that it says have no estrogenic chemicals.
PlastiPure
PlastiPure manufactures water bottles that it says have no estrogenic chemicals.
Many plastic products are now marketed as BPA-free, and manufacturers have begun substituting other chemicals whose effects aren't as well known.
But it's still unclear whether people are being harmed by BPA or any other so-called estrogenic chemicals in plastics. Most studies of health effects have been done in mice and rats.
The new study doesn't look at health risks. It simply asks whether common plastic products release estrogen-like chemicals other than BPA.
The researchers bought more than 450 plastic items from stores including Walmart and Whole Foods. They chose products designed to come in contact with food — things like baby bottles, deli packaging and flexible bags, says George Bittner, one of the study's authors and a professor of biology at the University of Texas, Austin.
Then CertiChem, a testing company founded by Bittner, chopped up pieces of each product and soaked them in either saltwater or alcohol to see what came out.
The testing showed that more than 70 percent of the products released chemicals that acted like estrogen. And that was before they exposed the stuff to real-world conditions: simulated sunlight, dishwashing and microwaving, Bittner says.

To Fear Or Not To Fear Plastics?

Exactly how BPA affects humans, and how serious its effects are, are still very much up for debate. The U.S. government generally advocates caution and more research, but agencies have issued a range of hesitant warnings. The National Toxicology Program, a division of the National Institutes of Health, says it has "some concern" about potential BPA exposures to the brains and prostate glands of fetuses, infants and children. Other agencies say they have lingering, unresolved "questions" about the chemical.
Those questions largely circle around how prolonged exposure to the chemical in childhood or adulthood could affect reproduction and growth; how low-dose exposure at sensitive developmental stages could affect children and babies later in life; and how parental exposure could affect the next generation. Studies have shown links between BPA and cancer, diabetes, heart disease, and a host of other illnesses.
One major sticking point for scientists is the challenge of drawing conclusions from hundreds of studies, each using different animals (mice and rats among them), doses, and routes of exposure. As the Environmental Protection Agency has noted, "there is controversy about whether effects seen at lower doses in animals are meaningful and relevant to humans." And scientists have also wondered whether rodents are more sensitive to the chemical than us because they metabolize it differently.
Last year, the NIH launched a new round of studies, all with the same methodology, designed to answer the some of the niggling questions and help the government provide clearer guidance than it's been able to so far.
 Eliza Barclay
"Then, you greatly increase the probability that you're going to get chemicals having estrogenic activity released," he says, adding that more than 95 percent of the products tested positive after undergoing this sort of stress.
But what about all those products marketed as BPA-free? That's a claim being made for everything from dog bowls to bento boxes these days.
The team concentrated on BPA-free baby bottles and water bottles, Bittner says, "and all of them released chemicals having estrogenic activity." Sometimes the BPA-free products had even more activity than products known to contain BPA.
The testing didn't show which chemicals are to blame, which is likely to be frustrating to manufacturers.
But Bittner says consumers should be encouraged that at least some plastic products had no estrogen-like activity. He says that shows it is possible to make these products.
Early reaction to the study was mixed. Some scientists wondered about the test's reliability. Others noted that wine and many vegetables also can act like estrogen. And a few observed that Bittner has a financial interest in the testing lab and in a company involved in making plastic products that don't release estrogenic chemicals.
On the other hand, groups that have warned about the potential dangers of BPA in the past seemed to welcome the new research.
"This is really helpful because they took a look at very common products," says Sonya Lunder, a senior analyst at the Environmental Working Group.
But the results suggest that concerns about plastics can't be solved by worried consumers at the checkout counter, Lunder says. It's a problem for government, she says.
"Regulatory agencies need to study the effect of chemicals leaching out of plastic," Lunder says, adding that an EPA program formed more than a decade ago to do this sort of research still hasn't produced many results.
Until scientists come up with more definitive answers, Lunder says, worried consumers can follow the old advice to avoid putting those baby bottles and other plastic products in dishwashers or microwaves.
"We've long cautioned consumers to avoid extreme heat and cooling for plastics, to discard scratched and worn plastics and we feel like this [study] validates one of our many concerns," she says.








source:http://www.npr.org/2011/03/02/134196209/study-most-plastics-leach-hormone-like-chemicals

Tuesday, March 1, 2011

Target, Gap, Walmart, H&M, Patagonia Launch Sustainable Apparel Coalition


Gap, eco-fashion, sustainable fashion, green fashion, ethical fashion, sustainable style
Photo by thinkretail
A consortium of manufacturing and retail giants, non-governmental organizations, academic experts, and the U.S. Environmental Protection Agency are banding together to reduce the social and environmental impacts of apparel and footwear products sold worldwide. The Sustainable Apparel Coalition, announced today, comprises bold-face names such as Adidas, Esprit, Gap,H&MLevi StraussNike, Marks & Spencer, PatagoniaTimberlandTarget, and Walmart. Altruism aside, the organization seeks to address the industry’s sustainability challenges as both a “business imperative and an opportunity,” according to a press release.
Click here to find out more!

Walmart, eco-fashion, sustainable fashion, green fashion, ethical fashion, sustainable style

MASS APPEAL

Although the group has been working informally since early 2010, the Sustainable Apparel Coalition is now ready to beta-test a draft version of an apparel and footwear sustainability index. Based on different efforts to measure and track apparel sustainability, including the Outdoor Industry Association “Eco Index” and Nike’s “Environmental Apparel Design” tools, the metrics will be fully transparent to encourage its broad adoption globally.

The Sustainable Apparel Coalition is beta-testing a draft version of an apparel and footwear sustainability index.

“The largest and most influential corporations in apparel and footwear have voluntarily engaged in this collective effort because they recognize the opportunity to measure and manage theenvironmental and social impacts of their products,” says Rick Ridgeway, coalition chair and vice president of environmental programs at Patagonia. “More importantly, they recognize the threat to the planet and its inhabitants by continuing the model of ‘business as usual.’”
Timberland, eco-fashion, sustainable fashion, green fashion, ethical fashion, sustainable style

VERSION 1.0

Version 1.0 of the Apparel Index, an “indicator”-based tool that will evolve into a metrics-based one, allows companies to evaluate their product’s entire life cycle, including materials, manufacturing, packaging, transportation, use, and disposal. Besides environmental impact categories such as energy and water use, waste, and air emissions, the index also includes social and labor indicators, as well as guidelines and resources for improving performance at every stage.

While the index is designed as a B2B tool, the coalition recognizes the need for a consumer-friendly scoring system.

A work in progress, the index will evolve to include more supply-chain-specific quantitative data to deliver a “truly comprehensive product footprint score,” says the coalition.
While the index is designed as a business-to-business-level tool for internal decision-making, the group is aware of the demand for a consumer-friendly scoring system or a common label in the vein of Energy Star. Because of the complexity of arriving at a single numeric score, along with the short-term priority of driving improvement in the global apparel industry, “no timetable has been set for [the] development of a consumer-facing label,” the organization notes.

FOUNDING MEMBERS

Adidas
Arvind Mills
C&A
Duke University
Environmental Defense Fund
Esprit
Esquel
Gap Inc.
H&M
HanesBrands
Intradeco
JCPenney
Lenzing
Levi Strauss & Co.
Li & Fung
Marks & Spencer
Mountain Equipment Co-op
New Balance
Nike
Nordstrom
Otto Group
Outdoor Industry Association
Patagonia
Pentland Brands
REI
TAL Apparel
Target
Timberland
U.S. Environmental Protection Agency
Verité
VF Corp
Walmart
+ Sustainable Apparel Coalition







source:http://www.ecouterre.com/target-gap-walmart-hm-patagonia-launch-sustainable-apparel-coalition/