Press Release #5 Team Rhône-Alpes

Transcripción

Press Release #5
Team Rhône-Alpes
Deliverable #3
Design Development
PR#3, PM#3, PD#3
workshop documentation
september 14-2011
Deliverable #2
DisseminaAtion Material
model, webpage,
audiovisual 1
april 13-2011
Deliverable #1
Schematic Design
Documentation
PR#1, PM#1, PD#1
preliminary webpage
march 02-2011
Deliverable #4
Construction
Documentation
PR#4, PM#4,
PD#4
february 8-2012
Deliverable #6
Design Adjustments
Documentation
PR#6, PM#6, PD#6
Villa Solar documentation
audiovisual 2, approval documents
august 14-2012
Deliverable #5
Updated Construction
Documentation
PR#5, PM#5, PD#5
may 23-2012
Deliverable #7
As Built Documents
PR#7, PM#7, PD#7
Simulation input
report
november 17-2012
contents
solar decathlon europe 2012
an international student competition
solar decathlon europe 2012 // An international student competition..........................................................3
an european event // A new version of the american contest............................................................................3
the ten criteria of the competition // Different notation systems..................................................................4
20 international teams selected // From 15 countries all over the world.......................................................4
the team rhône-alpes // A multidisciplinary team...........................................................................................5
strong regional backup // By scientific institutions and research labs...........................................................6
competition schedule // Count down is running................................................................................................7
partnerships & sponsors // The project is supported by public and private sectors organizations..............8
>public sponsors // Financial support..................................................................................................8
>scientific and intellectual support // Scientific and intellectual support......................................8
>private sponsors // Financial and material support..........................................................................9
the armadillo box® // A sustainable housing awarded during the competition 2010.................................12
context // The french context............................................................................................................................14
context // The Rhône-Alpine territory...............................................................................................................14
canopea® // The nanotower concept..................................................................................................................16
canopea® // Nanotowers in real contexts.........................................................................................................17
canopea® // An urban ecosystem......................................................................................................................18
prototype canopea® // The top of the nanotower............................................................................................24
constructive strategy // Following the footsteps of the Armadillo Box®.....................................................26
thermal strategy // Working with efficient materials and changing façades...............................................28
interior design // Evolving spaces......................................................................................................................29
the solar energy. The principle is to encourage teams
of students in architecture and building engineering,
helped by teachers and researchers of universities from
the whole world, to conceive and realize a prototype
of a passive housing using the solar energy as unique
source of energy. The prototypes are built in 5 days on
the National Mall of Washington DC and are exposed
to the public during 10 days. During these days, the
prototypes are judged on 10 criteria. Based on that, the
most performing house is selected. Through the years,
the Solar Decathlon has become an important meeting
of the media, gathering more than 300,000 visitors.
The Solar Decathlon is an international student
competition taking place every two years. This
competition was created in 2002 by the Department of
Energy of the American government in order to develop
the transmission of the knowledge and the research
in the field of the renewable energies, in particular
an european event
a new version of the american contest
The Spanish government contracted an agreement with
the American government to organize the European
version of the Solar Decathlon. This version takes place
every two years, alternately with the American contest.
The first edition of the Solar Decathlon Europe (SDE)
took place in June 2010 in Madrid. The next one will
be held in September 2012 in Madrid and in ParisVersailles in 2014. The purpose of this competition
is to allow students to discover and learn how to use
renewable energies and to rise awareness among the
general public about this new energies and thus help
the solar technologies to enter the market more quickly.
- appendices who's who? // Scientific committee.................................................................................................................32
who's who? // Steering committee...................................................................................................................33
contacts // .........................................................................................................................................................44
Team Rhône Alpes - Solar Decathlon Europe 2012 - Press kit
2
This event also proves the possibility of building good
quality housing, which preserves the environment at
an industrial level, without letting apart notions of
comfort, aestheticism and quality of life. Following its
participation in 2010 edition, and an honorable 4th place
in the general ranking (with four prizes in architecture,
engineering, innovation and energy balance), the Team
Rhône-Alpes has been selected among the twenty
universities allowed to enter the 2012 Solar Decathlon
Europe competition.
VILLAGE SOLAR
3
the ten criteria of the competition
the team rhône-alpes
different notation systems
a multidisciplinary team
There are three types of scoring mechanisms in the
competition:
also be done. The scoring is based on the approach to the
goal predetermined in the contests.
1. Task Completion Scoring [Measured]
The teams will obtain points for successfully completing
the requested tasks. Points will be awarded as a function
of “closeness to completion”.
3. Points awarded by jury
Expert jurors will award points according to the
assessment evaluation criteria and guidelines developed
by SDE.
2. Monitored performance Scoring [Measured]
During the competition week, the house will be
continuously monitored and specific measurements will
The team with the highest total points at the end of the
competition wins.
1) Architecture
120pts
2) Engineering & construction
80pts
3) Energy efficiency
100pts
4) Electrical energy balance
120pts
5) Comfort conditions
120pts
6) Housing functioning
80pts
7) Communication & social awareness
80pts
8) Industrialization & market viability
80pts
9) Innovation
80pts
10) Sustainability
100pts
TOTAL
1000pts
Jurys
ENSAG
20 international teams selected
from 15 countries all over the world
Solar Decathlon Europe 2012 teams will represent
Brazil, China, Denmark, Egypt, France, Germany,
Hungary, Italy, Japan, Norway, the Netherlands,
Portugal, Romania, Spain, and the United Kingdom.
1 team, 3 fields of competences, more than 20 partners
and around 100 students are working together to create
an innovative and eco-friendly housing: it is the Team
Rhône-Alpes, one of the 20 international teams selected
to compete for the Solar Decathlon Europe. The creation
of the Team, in 2009, comes from the partnership
developed between the Ecole nationale supérieure
d’architecture de Grenoble (National school of
architecture of Grenoble, ENSAG), the Institut national
de l’énergie solaire (National solar energy institute,
Detailed list of participants visible at:
http://www.sdeurope.org/?page_id=779
TRA
Ecole nationale supérieure Eau, Energie,
Environnement (ENSE3) from Institut Polytechnique
de Grenoble (Grenoble INP), is in charge of energy
management and PV installation engineering.
Ecole nationale supérieure d’architecture de Lyon
(ENSAL) participates in the design and construction
process in a design studio program shared with ENSAG.
IUT1 - Grenoble électrique et informatique
industrielle (GEII) from University Joseph Fourier, is in
charge of electrical equipment and appliances technical
installation.
Haute-Ecole d’ingénierie et de gestion du Canton
de Vaud (Heigh-Vd) is in charge of sustainability
analysis of the project (carbon balance, grey energy,
environmental impact).
SDE 2012 PARTNERS
4
A set of other institutions of the Rhône-Alpes region,
all well-known for their expertise in their own fields,
completes this team:
Ecole
nationale
supérieure
d’architecture
de Grenoble (ENSAG) is in charge of design and
construction of the SDE 2012 prototype. ENSAG is the
project coordinator and manager.
Grenoble Ecole de Management (GEM) is in charge
of industrialization and market viability studies. GEM
also participates in the communication campaign in
relationship with INES.
INES) and the Grands Ateliers de l’Isle d’Abeau (Great
workshops of Isle d’Abeau, GAIA).
Polytech Annecy-Chambéry, from University of
Savoie, participates in the structural and building
physics engineering.
Université de Genève (UNIGE) is in charge of the
conception of the passive phase difference.
Ecole nationale des travaux publics de l’Etat
(ENTPE) carries out researches on natural construction
materials and lighting atmosphere control.
5
“Thanks to this in-vivo experience, the Team Rhône-Alpes
is at the heart of the richness and touches the issues of
a multidisciplinary organization. Indeed, professional
cultures, sensibilities, rhythm of work and tools are
sometimes completely different. Permanent adjustments are
necessary to create a common vision between all the different
stakeholders of the project. This common vision and culture,
build thanks to an everyday work, allow each and everyone
to bring his/her best to the project” says Pascal Rollet, Chief
Architect of the project.
As the next generation of professionals, students get the
opportunity to experience this hard process of sharing
knowledge, which is necessary to the innovation.
Moreover, members of the Team Rhône-Alpes will be able
Le Laboratoire d’optimisation de la conception et
ingénierie de l’environnement (LOCIE), Polytech’
Annecy-Chambéry research lab, brings expertise in
dynamic thermal simulation studies and building
sciences.
G2ELab covers a wide spectrum of expertise in the field
Electrical Engineering like : electrical energy, materials,
innovative processes and systems, modeling and design
methods and software...
L’équipe de recherche de GEM developes theoretical
researches on management of innovation, technology
and information.
Le Département de Génie Civil, research lab of ENTPE,
is specialized in natural materials characterization and
artificial lighting technologies for housing.
to bring a new vision of an innovative and eco-friendly
housing out of the frame of only the competition.
strong regional backup
by scientific institutions and research labs
Academic research laboratories and scientific and
technical platforms support the Team. They bring
expertise in the fields of earth construction, solar
technologies, atmosphere control, natural materials
characterization and high performance buildings
envelope. They work on positive energy solutions for
sustainable housing which will be required by French
law in 2020. They are major actors of Rhône-Alpes R&D
for building industry.Rhône-Alpes will be able to bring a
new vision of an innovative and eco-friendly housing out
of the frame of only the competition.
AECC, research unity «LABEX» of ENSAG in which
CRATerre is the principal component. It is a research
lab, specialized in earth construction and helps to
develop sustainable and affordable technics based on the
use of raw local materials.
L’Institut F.-A. Forel, research lab of the University
of Genève (UNIGE) specialized in conception of passive
thermal systems.
Les Grands Ateliers de l’Isle
d’Abeau (GAIA) constitute the
technical platform where the
SDE 2012 prototype will be built
in 2012. They represent the first
component of the future Cité de
la Construction Durable (CCD)
initiated by French Government
to
develop
research
and
experimentation for sustainable
architecture.
L’Institut
national
de
l’énergie solaire (INES) brings
scientific and technical support
on solar (PV, thermal and
passive in housing) and storage
technologies. INES is also in
charge of industrial partnership
coordination and institutional
relationships.
Le Centre scientifique et
technique du bâtiment (CSTB)
in Grenoble, brings general
scientific support concerning
positive energy building design
and technical solutions according
to new RT2012 and RT2020
French regulation.
competition schedule
count down is running
CRESSON, ENSAG/CNRS research lab, is specialized in
ambiances control and brings expertise in acoustic and
ambiances perception.
Laboratoire d’énergétique solaire du bâtiment
(LESBAT), Heig-vd research lab, participates in TDS
works and brings expertise in environmental impact
studies with ECOBAT software.
6
March 2-2011: schematic design documentation
May 4-2011: dissemination materials (model, movie,
website, communication plan)
September
14-2011:
design
development
documentation
December 2011 to January 2012: scale 1:1 model
construction in GAIA
February 8-2012: construction documentation
March to June: prototype construction in GAIA
May 23-2012: updated construction documentation
July and august 2012: tests and competition
preparation in GAIA
August 14-2012: design adjustments documentation
September 2012: disassembly and transport from
France to Spain
September
2012:
competition
in
Madrid
October 2012: itinerant prototype exhibition in France
2013:
reassembly
at
INES,
in
Chambéry
7
partnerships and sponsors
private sponsors
the project is supported by public and private sectors organizations
financial and material support
To date, More than 20 companies and institutions
accepted to help, directly or indirectly, the Team
Rhône-Alpes and its prototype Canopea® that we
are designing for the competition at Madrid and the
itinerant exhibition in France que nous préparons
pour la compétition de Madrid. On one hand they
are partners of the 2010 project “Armadillo Box®”
who decided to renew their suppor and engagement
with the Team Rhône-Alpes for the second edition
of the Solar Decathlon Europe. And on the other
hand, they are new structures willing to integrate
the network of excellence around the sustainable
housing being constructed.
There are three types of Team Rhône-Alpes partners:
-Financial partners who support us in our global
commitments. Depending of their skills, they help
us in spreading the values and communication
materials of the project.
-Material partners provide the Team the material we
need to build the Canopea prototype. Meaningfull
dialogue for both sides are made about their
products.
-Others partners bring us a scientific and intellectual
support.
public sponsors
Organizer
Diamond partners
Gold partners
Silver partners
financial support
Bronze partners
intellectual sponsors
As in 2010, Total with Tenesol, a subsidiary of SunPower (held at 66% by
Total) is the main partner of the Team Rhône-Alpes. The group contributes
to the achievement of the Canopea® project funding to the realization of the
prototype and supplying innovative photovoltaic panels to the pavilion (TE
Lumex Design), tailor-made in Toulouse. These modules are made up of very
high-output crystalline silicon cells between two panels of tempered glass. This innovative solution allows filtering a part
of the light in the collective floor, thanks to the transparency of the modules, while ensuring a perfect watertightness.
They thus bring real aesthetic value to the architectural achievement by reproducing a true canopy at the top of the
nanotours. Finally, they guarantee both protection and solar production. Jean-Yves
DACLIN, photovoltaic solar Director of gas & new energies supervision from Total
S.A. testified: «The Total Group, with especially SunPower and Tenesol, figure among
the world leaders of the solar industry. We are proud to be partner again of the Team
Rhône-Alpes and to contribute to the promotion of the most innovative technological
solutions in the photovoltaic sector. To support the ambition of the young talents of
tomorrow and to participate in the international competition Solar Decathlon also
allows us to educate a wide audience to the concrete issues of solar, in a pedagogical
approach that is dear to us. »
scientific and intellectual support
8
9
Schneider Electric participates financially in the project
and accompanies it on one hand by training students of
the Team through training in their design office, and on
the other hand by helping the technical development of
innovative solutions. Schneider Electric also provides
electrical distribution equipment and automation for
the prototype (electrical cabinets, appliances, inverters,
electrical protection...).
EDF participates financially and intellectually in the
project.
Bouygues Immobilier participates financially in the
project and brings its expertise and assistance to the
Team.
Somfy participates financially in the project and
provides the engines of the blinds.
Dimos provides a wide range of products for the safety
of the building.
Vicat provides concrete furniture and passageways.
Systherm accompanies the Team on the climate and
energy design and the equipment installation on the
site.
Bubendorff participates financially in the project and
provides the shutters Activ’Home®.
Solaire 2G provides the innovative solar panels 2-in-1,
both photovoltaic and thermal.
SMABTP participates financially in the project and
brings its expertise in housing insurance.
Samse participates financially in the project and
provides work clothing, tools, screws etc.
Vinci Construction participes financially in the
project and educates a student of the Team through a
professional training. Vinci Construction helps also to
coordinate the construction of the prototype.
Energissimo! brings its expertise and helps the Team.
Serge Ferrari provides technical textiles of occultation.
Léon Grosse participates in the coordination of the
project and providing technical support to the Team.
Interpane provides lamellas of the top-floor.
Ducerf provides cladding and floor covering.
Nemetschek provides 3D design softwares for
architecture and engineering of the project and train
students of the Team Rhône-Alpes for the use of this
software.
Hawa provides guiding rails for the mobile furniture.
La Banque Populaire participates financially in the
project.
Metsäwood provides Kerto walls and Kerto Ripa wood
floors (complex wood-insulator).
Labaronne Citaf provides flexible tanks for the storage
of water.
Eco6Thèmes proposes to edit a game on sustainable
development in the colours of the Canopea® project to
raise public awareness to the values of the Team RhôneAlpes.
ISOL Products provides thermal insulation.
IPEA helps in the search for potential partners in the
sectors of equipment and furnishing.
Cuisinella provides the equipping of the kitchen and
the bathroom, and hosts two students for the technical
development of the kitchen in their premises.
KaRo Systèmes provides the tubes of the radiant
ceilings.
Porextherm provides vacuum insulation.
UXP brings the hub to pilot the Pavilion and the
electrical network, and develops a software tool for
communication and the provision of information in the
hub.
Akterre provides the ceiling earth panels.
Studer provides inverter-chargers.
CarlStahl brings the railings and bracing of the Pavilion.
SARL Bouchet provides the metal structure.
Soprema provides airtightness materials.
Rexel participates financially in the project and provides
electrical equipment (lighting, cables…).
ConstruirAcier helps in the search for potential
partners in the steel sector.
Pro Clima® brings vapour and rain barriers.
Nilan provides the compact machine providing heating,
cooling and ventilation and adjusts it to the needs of the
Team Rhône-Alpes. Nilan helps also technically in the
development of the project.
Chaos Group et ParaGraph provide 3D computer
graphics solutions and training to software.
André Menuiseries brings the triple dazing wood
woodwork type SmartWin.
Vesta System provides energy efficiency softwares for
the design and management of energy systems of the
project and form students of the Team Rhône-Alpes
through trainings to develop energy efficiency software
Archiwizard et Raycréatis provide software of 3D
thermal energy simulation to achieve the architectural
project design and train students of the Team RhôneAlpes for using this software.
Qualitel helps in the evaluation and certification of the
Pavilion.
Uponor provides materials of plumbing (multilayer
tubes, joints…).
10
IFM provides temperature sensors and flow meters.
11
the armadillo box®
a sustainable housing awarded during the competition 2010
During the 2010 edition of the Solar Decathlon Europe,
the Team Rhône-Alpes got the 4th place of the competition
with its solar housing prototype, the Armadillo Box®,
against the 16 other teams competing. The project also
got the 2nd price in terms of architecture, the 2nd place in
innovation, the 3rd place in engineering and building and
the 3rd place in comfort. More than 100 000 visitors got
the chance to appreciate the prototype Armadillo Box®
on the site of the competition in Madrid, in June 2010.
The architectural design of the Armadillo Box® is
innovative. The house is no longer a living built in a mass
at the end of a painstaking assembly; it consists of three
elements, each with its own functionality, its production
system and its economy. A revolutionary design that
allows to integrate the various resources of the French
construction while promoting local constructive cultures
such as the technologies most advanced in the field of
energy.
-’’Skin’’: the water-tight and air-tight thermal envelope.
It is the low-tech and low-cost part of the project. It is
intended to be self-built with naural, local cheap and
easy to handle materials.
The three elements of the Armadillo Box® are:
This intelligent decomposition, from the marriage
of industrial technologies with simple and economic
constructive systems, was stored and reinterpreted in
the 2012 project.
-’’Core’’: the technical core prefabricated and
industrialized integrating the kitchen, bathroom,
machinery and fluids.
-’’Shell’’: the protective shield and energy collector, it
is the high-tech element of the project. It protects the
thermal envelope from climatic changes and collects the
solar energy.
The Team Rhône-Alpes
during Solar Decathlon Europe 2010
Why Armadillo Box®? The Armadillo is the animal symbol
of this project of housing limiting energy consumption.
The house is inspired by its protective shell and its slow
metabolism, that’s save energy and regulate its internal
temperature. It adapts to different climates to regulate
its internal temperature by cooling the hot blood with
cold blood from the legs.
12
Visit of Armadillo Box® by
the general public during the
competition
13
context
the french context
Our project results from a wide analysis of the French
urban, social, economic, technological and energetic
context.
First of all, it is based on the fact that the population
growth induces a very important “suburbanization”
phenomenon around existing cities. Historic centres
being saturated, and the economic pressure getting
higher, middle and lower classes are moving towards
the periphery in order to find places to live. An
important part of these people, imitated by well-atease upper-middle and high classes, follow the same
movement in order to achieve their dream of owning
a house (like 86% of French people) while keeping
an urban lifestyle (a work into the city) commuting
everyday.
This phenomenon, INSEE (National Institute of
Statistics and Economic Studies), noted that between
1954 and 1999, the French urban population almost
doubled from 24 million up to 44.8 million. During
this period the population of urban centres stagnated
while the suburban population grew very impressively
from 3 million in 1975 to 9.5 million in 1999.
Suburbanisation is clearly the most important factor
responsible for the global «urban growth». Today 70%
of the French population lives in urban areas.
the rhône-alpine territory
Grenoble
This phenomenon is clearly noticeable in the RhôneAlpes region located in the South-East of France.
Valleys between Lyon, Grenoble and Chambéry – the
three biggest urban areas in Rhône, Isère and Savoie
– are filling up. For example, between 1975 and 2000,
Grenoble urban area increased by 88% while the
population grew only by 18%!
Geophysical and industrial characteristics of the
Rhône-alpine territory challenge the future.
Surrounded by mountains, ran through by rivers,
Grenoble
punctuated with large lakes, the Rhône-alpine
corridor imposes strong physical constraints that
create a scarcity of available land free to build. This
rarefaction of living space is reflected both in the
quite high density of urban space, resulting in the
construction of highrise - like “Les Trois Tours” (the
Three Towers) in “Île Verte” district, built in the 1960s
in Grenoble - and an exodus of many families out of
the urban zones, in order to live closer to nature in
larger individual spaces.
Ile verte tower
14
Indeed, 86% of French people dream about having his
own house with her qualities (360° of visual freedom
with a gorgeous view on the landscape, possibility
of walking around the “ home”, presence of natural
vegetation and greenery that create a sense of natural
environment, have dependencies out of the house...).
More, a scarcity of available land free to build because
of these strong physical constraintsleads to the
explosion of the cost of land.
As a result, much of the population now lives far away
from the centers of activity, a consequence of urban
sprawl so important today.
This specific context has also determined the history
of Rhône-Alpes region. With the industrial revolution
and the development of water-powered electricity
produced by dams and forced ducts, the region has
developed a strong industrial tradition in the sectors
of paper industry, metallurgy, cement industry,
electric and electronic components, pharmacy, textile,
…
This dynamic economic activity, in this specific
geophysical environment, with people expressing a
high level of ecological concerns (17.8% of votes for
the Green Party for 2010 regional elections, 26.51%
in Grenoble) is resulting in a lifestyle based of a lot of
daily commuting.
This phenomenon of “suburbanization” and the
location of the attractive center of industries, leads
people to commute every day to get to his workplace.
These factors generate a lot of pollution (and therefore
a large consumption of energy) as well as traffic jams
at the entrance and the exit of large urban centres.
It induces an excessive consumption of gas and a
high level of carbon dioxide pollution. Rhône-Alpes
therefore faces a serious inconsistency: in order to
live a privileged relationship with an overwhelming
nature, the inhabitants of this area increase local
pollution by giving way to urban sprawl. Hoping for
peacefulness in the countryside they end up with daily
stress of traffic jams where individuals grow aggressive
towards others and fill themselves with bitterness and
anger.
So today, this desire for living closer to nature,
combined with the need for reconciliation
induced by industrial activities and research,
put the local population in an approach at odds
with their environmental awareness (the RhôneAlpes population is very focused on sustainable
development). Social stress appears in populations
that are not economically able to access to good living
conditions.
It is in this context that cities grow gradually and
the valleys are quickly clogged. Infrastructure and
networks are also growing.
The architectural concept developed by our team was
born from this general observation combined with
national analysis of the local environment Rhônalpin
and its complexity (natural resources, geography and
urban economics, lifestyles of the inhabitants and
their different cultures) .
The questions that architects and engineers of our
team will attempt to answer are as follows:
-How to design collective housing that provide some
level of comfort with minimum energy expenditure
and consumption of natural resources?
-What kind of architecture can help people to live
together in a dense urban environment, taking
advantage of pooling services, culture and energy,
while keeping the detached house qualities ?
Congestion
15
canopea®
canopea®
the nanotower concept
nanotowers in real contexts
Urban sprawl
Nanotower
Lyon
Lyon - Carré de Soie
Team Rhône-Alpes has had the opportunity to
develop the Canopea® concept on two real urban sites
currently under restructuration: «Carré de Soie» in the
suburb of Lyon, and «Presqu’île» in Grenoble. These
two urban developments constitute major challenges
for Rhône-Alpes region. They are located in the most
populated metropolitan areas:
-
Lyon: 2 142 732 inhabitants (2009).
-
Grenoble: with 664 832 inhabitants (2009).
Nanotower Network
Considering this worrying conclusion, Team RhôneAlpes for Solar Decathlon Europe 2012 wants to
address the issue of sustainable and affordable
housing in a dense urban environment. The answer
that we have chosen to explore is the Nanotower.
The Nanotower is a series of individual homes stacked
in a small tower. Thus, this concept permits to share
scarce and expensive land and have common spaces.
Elevators, stairways, walkways, meeting places in the
air, elevated gardens, and vertical farms interconnect
several Nanotowers. Nanotowers are all connected to
the city; transit networks, services, and shops... On
the top floor, a common space enables inhabitants
to socialize around a playground for kids, a summer
kitchen for barbecue, a sport event TV retransmission
or a common laundry.
The team proposes to develop this architectural
concept into an urban ecosystem, with “physiological
connections” between buildings operating today
at the scale of a district, tomorrow at the scale of a
city, in a close future at the scale of a territory. Team
Rhône-Alpes proposal is based on the assumption
that «the linking of different elements allows
obtaining a better energetic optimum than the sum
of the individual optimum». We already pointed that
each building, each activity, each facility, each factory
has specific environmental and energy characteristics
that we can call a “signature”. Our idea is to analyse
each actors’ signature to identify what its exact needs
are according to the different period of time and how
it could contribute to the community by cooperating
with its neighbours; we have moved from a system of
efficient buildings but isolated to a performance are at
the territorial level (pooled energy between buildings)
These two large urban planning projects are meant to:
- Fight against urban sprawl.
- Enhance the attractiveness of the cities by creating
dynamic new districts.
- Promote consideration of new ways of living,
building, moving, according to the imperatives of
sustainable development.
“Carré de Soie” and “Grenoble-Presqu’île” are both
offering a perfect frame to fit Canopea® in. The
conjunction of sustainable development political
goals and economical needs open opportunities for
daring urban planning and innovative architectural
projects.
For the competition Solar Decathlon Europe 2012, the
Team Rhône Alpes fits the Nanotower concept into
the GIANT Presqu’île project.
GIANT urban project (Grenoble Innovation for
Advanced New Technologies) aims at reorganizing
the Grenoble Peninsula to create a new scientific hightech campus combined with new living area of the city.
Located at the meeting point of Isère and Drac rivers
this peninsula occupies the bottom of the Isère Valley
placed in between the Chartreuse and the Vercors
mountain massifs. The territory represents 1/6 of
Grenoble’s surface.
Today, this big technological district offers a very
poor quality of life for thousands of researchers,
academics and employees who work on the site.
Despite the proximity of the main railroad station
neighbourhood, the Peninsula is not well connected
to the city centre. The challenge is to create a new
district mixing industries, research institutes and
universities, promoting social interaction between
students, researchers and future residents. More, this
site promotes soft mobility (walking, cycling) and
new ways of mobility (car sharing) and a diversity of
services provided (shops, gyms, schools, bike paths,
park ...).
Grenoble - Presqu’île
16
17
canopea®
an urban ecosystem
Restructuring the Peninsula is an example of an
urban ecosystem because it is part of the “ECOCITÉ”
National Sustainable City Plan, launched in 2011
by French Ministry of Ecology, Environment,
Sustainable Development, Transport and Housing.
The French Government encourages the development
of innovative urban programs addressing the
issue of large-scale policy based on interconnected
buildings set in an urban ecosystem pooling energies
(TEPOS). This generation 2 is the evolution of the
first generation of “ECOQUARTIERS” that were based
only on energy efficient buildings (BEPOS, BBC, HQE)
operating independently like in “De Bonne Quarter”
located in Grenoble city historic centre.
The Canopea® project is integrated in the ecosystem
of the Grenoble Peninsula in which all elements are
inter-connected to share, mutualise, and optimise
the functions, the services and the equipment, and
limiting energy losses.
STORAGE
MOBILITY
PEAK SHAVING
ELECTRIC GRID
SmartGrids
THERMAL GRID
rid
ec
El
G
ric
t
Lo
wa w
te tem
r
th per
er at
m ur
al e
lo
op
The urban ecosystem offers a mobility package based
on adapted transport means rather than individual
vehicles. People who need to move in a 5 km
perimeter can easily access to public transportation
systems such as buses and tramways. Light electric
vehicles (scooters, segways, i-real) and bicycles are
also available for residents who want to reach places
located out of public transport range. For those who
need to move in a larger perimeter of 15 km to 40
km and need to transport goods, electric shared car
rental are stored in a nearby silo parking. This parking
is built above ground level in order to avoid expensive
underground structures (Grenoble soils are facing the
presence of a high water table). These vehicles work
Electricity produced by PV installations are charged
in part with Nanotowers’ roof – is stored in vehicles’
batteries in order to reduce the consumption on the
network.
So
cia
lN
et
w
ok
INFORMATION SYSTEM
INTERFACE
Mo
5 km
bil
ity
On the top floor of the tower, the services are shared
between people: washing machine, summer kitchen,
gym, relaxation area. Using the tablet, you can reserve
a time slot for the washing machine and register for
cultural activities specific to the nanotower.
P
SILO
MOBILITY
HOME
MANAGEMENT
COOP
SHARED SPACES
From the tablet, you can control some features of the
house, opening shutters or choose light atmospheres.
Thus it is a real interactive tool of social management
to constitute a community of inhabitants. It allows
someone to communicate with other inhabitants of the
Nanotowers, but also of the neighborhood.
P
Nanotower urban ecosystem
SILO
TEMPORAIRE
The connections in the ecosystem are happening
at several levels: smart grids, mobility, social life,
managed by home automations systems.
The “smart grid” is a “smart” distribution network that
uses computer technology to maximize production
and distribution, improve the link between the supply
and demand, between producers and consumers and
especially ensure the network security because of the
presence of decentralized and distributed generation
sources.
Canopea® Project deals with two principal types of
smart grid:
-A heating and cooling grid that manages the thermal
exchanges of the urban ecosystem.
-An electric smart grid managing electrical energy of
varied productions and consumptions.
18
...
RELAIS
100 km and +
...
...
...
Tablet
...
These transports are connected by a network of
home automation via a tablet in the housing. This
tablet gives train schedules, subway, bus, but also
bicycles available. We can book tickets or access to car
sharing in the Silo parking. Tablets can also provide
information on cultural events such as movie times
and upcoming shows in the neighborhood.
THEATER
VERTICAL
FARMS
HOUSING
CAFE WITH A
CABARET
The Nanotowers are not just buildings.
It’s a support for a richer life in dense cultural
environment.
19
Three students shared apartment
Studio apartment
Two bedroom apartment
One/Two bedroom apartment
Floor Plan
District Section
Urban Section
20
21
Canopea® in Presqu’île: an urban ecosystem
Canopea® Project in Grenoble
Presqu’île
The prototype Canopea®: the two
top-floors of a nanotower
22
23
canopea® prototype
the top of the nanotower
Our project for Solar Decathlon 2012 displayed the top
of a Nanotower and explains how it interacts with other
buildings and city infrastructures located all around.
The project is called Canopea® because the upper floor
of the nanotower works like the rain forest’s canopy
which representing 80% of the tree foliage. This part
collects 95% of solar energy and 30% of rain water. It
composes an ecosystem above the ground with a very
rich biodiversity. CANOPEA also meets specific aspects
of the cultural relationship between French people
and nature. A recent social survey has shown that the
Germans love the dark deep forest when the English
prefer controlled “wilderness”. As far as French people,
it seems that they love, above all, “belvederes”. They have
a favourite relationship to landscape.
The nanotower allow to approach this dream by
employing this preference in the project.
Shematic Plan
Ground floor plan
-The groundfloor of the prototype includes a one/two
bedroom apartment, composed of three load bearing
boxes. Each represents one function of the house: a
technical core, one bedroom and an evolutive space.
The boxes are layed out in such way that they generate
a flexible central living space which can be extended
outdoor.
24
Roof plan
First floor plan
-The first floor represents the collective exterior space of
the nanotower. It is protected by several passive systems
in order to admit appropriation following the seasons.
Smart roofing generates energy by solar panels. It also
allows having a natural lighting and enjoyable shady
spaces, giving the impression of being under the forest
canopy.
25
constructive strategy
following the footsteps of the armadillo box®
Interior view of the common
space
COREcontaining all
SKIN performance
SHELLhigh tech part
CORE : central block
SHELL : the second
SKIN : the general
technical and complex equipments
of the project which supports the
envelope of the house which
and which can be produced
photovoltaic system and the lateral
can be built on site by a little
industrially, in a factory and in any
blinds to filter sunlight and and to
qualification workforce. It contains
country. This high tech component
regulate the weather. This can be
the temperate areas.
will beLE
installed
as
one
single
piece
prefabricated
some local
PROJET 2012 REPREND LE PRINCIPE DEVELOPPE DANS L’EDITION 2010,
LE COREentirely
- SKIN -by
SHELL
on the building site after having
companies.
been transported by truck.
View of the bedroom
Interior view of an housing
from the terrace
Project Blow Up
26
27
thermal strategy
interior design
working with efficient materials and changing façades
evolving spaces
Thermal strategies have been thought according to the
inhabitants practices. Many life scenarios are possible
and the Team Rhône-Alpes gives an important place to
passive strategies.
In winter, a performent thermal envelop creates a
conditioned space. The slab of the house can stock solar
energy to redistribute it to the entire house.
In summer, solar protections avoid the overheating of the
house. Management of natural ventilation considering
daily thermal mass allows to regulate interior comfort.
Passive strategy
Supply air passes first through an air shifter and then is
conditionned through an association of a counter-flow
exchanger and an air-air heat pump which heats the
air in winter and refreshed it in summer. Heating and
cooling are insured by radiative earth panels composing
the ceiling. Furthermore, earth walls give inertia to the
housing allowing a good control of temperature and
humidity.
The roof composed of photovoltaic and hybrid panels
insures the waterprofness of the common floor.
The installation of 10 KWp is made up of PV bi-glass
panels manufactured to measure (84m²) and of hybrid
panels PV/T (16m²). The hydraulic system of the PV/T
is coupled with the compact machine, and allows the
production and the storage of hot water (ECS, heating)
the day as well as the production of cold water during the
night by radiative cooling. Storage makes it possible to
re-use this water through the radiant walls (dephasing).
The housing is provided with an airtight envelope, built
with high-performance walls, thin insulating and triple
glazed windows. The openings are protected by lamelae
with adjustable blade which ensures a good protection
while allowing a natural pass through ventilation. The
outer house envelope of the project is equipped with the
louvers solar protection which stops the solar incident
radiation and protect the living spaces from overheating.
In winter, sliding walls of glass make possible to create a
second protective skin in front of the large bay windows.
A loggia expands the interior space of living and provides
a complementary acoustic protection.
Active strategy
Heating, cooling, ventilation and domestic hot water are
produced by compact machines equipped with a waterwater heat pump and an air-air heat pump.
Each accommodation of the nanotower provides a
space and some architectural qualities for a family.
Four directions, with external extensions and vegetated
spaces, allow an actual appropriation of space as in a real
house. Housing is designed for a couple, with pleasant
interior living spaces that can extend to outside by a
large convertible balcony loggia or winter garden. The
kitchen is open on living space which offer a plan free
in order to maximize peripheral vision on the landscape.
Kitchen and evolutive space
Living Room
Interior design has been jointly designed by students of
architecture and the students of the «master in design for
the architecture» (DPEA) of the National superior school
of architecture of Grenoble (ENSAG) in collaboration
with engineers of Polytech’ Annecy-Chambéry
(University of Savoie) and the technicians of the IUT of
28
electrical engineering (University Joseph Fourier). This
crosscutting work mixes thus a functional and aesthetic
approach and a vision focused on the human scale, the
comfort, the form and the use of materials. These uses
were particularly taken into account following market
and feasibility studies by students of GEM.
29
The project focuses on space scalability needs of the
future inhabitants. Mobile furniture can afford to have
an office or delineate a guest room. It can be pushed
against the wall to completely clear the space. In the
long term, if the couple wishes to have a child, the
mobile furniture can also delineate an extra room.
Kitchen, mobile furniture and room
The top floor of the nanotower is a common space that
can accommodate many activities. Can do laundry, enjoy
barbecues in the summer kitchen. Can hold a meeting,
celebrate a family event or between neighbours. Children
can play safely.
appendices
-
View of the shared floor
30
31
who's who?
steering committee
scientific committee
Pascal ROLLET
Architect
Professor at ENSAG
Faculty Advisor
In order to advise the academical program and the SDE
project, a scientific commitee has been set up and will
meet three times in 2011 and three times in 2012.
The committee members are :
Jean-Michel KNOP
Architect-urban planner
of the State
Director of ENSAG
Patrice DOAT
Architect
Professor at ENSAG
Earth construction
experimentations
Nathalie MEZUREUX
Architect-urban planner
of the State
Director of ENSAL
Michel-André DURAND
GAIA Director
Olivier BALAY
Architect
Professor at ENSAL
Ambiances
Vincent MANGEMATIN
Professor at GEM
Managment of Innovation
Alain MAUGARD, Chairman
Engineer of Ponts & Chaussées. After fifteen years as President of Centre Scientifique et Technique
du Bâtiment (CSTB), Mr Maugard is now member of the General Council for Environment and
President of the « Risks, Security & Safety » section.
Vincent JACQUES LE SEIGNEUR
INES General Secretary
Communication and partnerships
coordination
Daniel LINCOT, Chemist
French specialist of photovoltaïc effect. Director of Electrochemistry and Analytical Chemistry
Laboratory (LECA UMR 7575 CNRS/ ENSCP/UPMC), at Ecole Nationale Supérieure de Chimie de
Paris (ENSCP). Adjunct Director of Research and Development Institute on Photovoltaïc Energy
(IRDEP UMR 7174 CNRS/EDF/ENSCP).
Henri VAN DAMME, Physicist
Director of research at LCPC.
Professor at Ecole Supérieure de Physique et de Chimie Industrielles de la ville de Paris since 1999.
He is a specialist of very high performance concrete. Works with CRAterre on the « Matière en
Grains » program.
Stéphane PLOIX
Professor at ENSE3
Energy and electricity management
Yves LEMBEYE
Professor at GEII (University
oseph Fourier)
Electrical Systems
Marie-Hélène CONTAL, Architect
She currently works at Institut Français d’Architecture.
She is in charge of the Global Award Competition organized by the Cité du Patrimoine et de
l’Architecture (CAPA – Paris).
Pascal PERROTIN
Professor at Polytech’ AnnecyChambéry (University of Savoie)
Building Sciences
Daniel QUENARD
Head of Physics and Characterization of Materials Division of CSTB
Laurent CHICOINEAU
CCSTI Grenoble Director
University Stendhal Professor
Scientific communication
Real JANTZEN
Former special concellor of the President at Cité des Sciences et de l’Industrie, Paris. He is a
specialist in scientific popularization.
32
33
ENSAG faculty team members
GEM faculty team members
www.grenoble.archi.fr
60 avenue de Constantine - BP 2636
38036 Grenoble cedex 2 - France
T : +33 (0)4 76 69 83 00 - F : +33 (0)4 76 69 83 40
www.em-grenoble.com
12 rue Pierre Sémard - BP 127
38003 Grenoble Cedex 0 - France
T : +33 (0)4 76 70 60 60 - F : +33 (0)4 76 70 60 99
Pascal ROLLET
Architect - SDE Faculty Advisor
Professor of Architecture
AE&CC Research Laboratory co-director
[email protected]
Thomas JUSSELME
Ecodesign Engineer
Visiting Professor of Building Sciences
[email protected]
Romain ANGER
Building Physics Engineer (INSA Lyon)
PhD in progress at CRAterre and INSA
[email protected]
Vincent MANGEMATIN
Professor of Management
[email protected]
Amélie BOUTINOT
PhD in progress at GEM
Lecturer in Management
Team Rhône-Alpes communication contact
[email protected]
Patrice DOAT
Architect
Professor of Building Sciences
CRAterre Scientific Director
[email protected]
Olivier BAVEREL
Structural Engineer
Assistant Professor of Building Sciences
[email protected]
Laetitia FONTAINE
Building Physics Engineer (INSA Lyon)
PhD in progress at CRAterre and INSA
[email protected]
Mélanie PERRUCHIONE
Communication
[email protected]
Caroline GAUTHIER
Marketing & Sustainable Development
[email protected]
Nicolas DUBUS
Architect
Visiting Professor of Architecture
[email protected]
Philippe GARNIER
Architect
Visiting Professor of Architecture
[email protected]
Walter SIMONE
Computer graphics renderings
Lecturer in computer sciences
[email protected]
Hubert GUILLAUD
Architect
Professor of Building Sciences (HDR)
AE&CC Research Laboratory co-director
[email protected]
Suzannah O’CARROLL
Associate Professor of Language for
Architecture (English)
[email protected]
François VITOUX
Architect
Assistant Professor. Interior design
[email protected]
Anne-Monique BARDAGOT
Ethnologist
Assistant Professor of Sociology
[email protected]
Annie TARDIVON
Landscape Architect
Visiting Professor of Landscape
Architecture and Environmental
Planning
[email protected]
Milena STEFANOVA
Architect
Assistant Professor. Interior Design
[email protected]
Stéphane SADOUX
Urban Planner
Assistant Professor of Urban Planning
[email protected]
Jean-Christophe FLUHR
Energetic Engineer
Lecturer in Building Physics
[email protected]
Guillaume PRADELLE
Architect
Lecturer in Architecture
[email protected]
Hugo HOUBEN
Engineer-Researcher CRAterre
[email protected]
Laurent TOCHON
Energetic Engineer
Lecturer in Building Physics
[email protected]
Sébastien FREITAS
Architect
Lecturer in Architecture
[email protected]
Anne COSTE
Architect
Professor of Theory and History of
Architecture (HDR).
«Cultures Constructives» Laboratory
Scientific Director
[email protected]
Maxime BONNEVIE
Architect - SDE Project Manager
[email protected]
Laura SPERANDIO
Public Relation
[email protected]
Polytech faculty team members
www.polytech.univ-savoie.fr
BP 80439
74944 Annecy Le Vieux Cedex - France
T : +33 (0)4 50 09 66 00 - F : +33 (0)4 50 09 66 49
Étienne WURTZ
Building Physics Engineer
Professor of Thermal Physics
CNRS Research Director
[email protected]
Pascal PERROTIN
Structural Engineer
Assistant Professor in Building Sciences
[email protected]
ENSE3 faculty team members
www. ense3.grenoble-inp.fr
Université Joseph Fourier - BP 53
38041 Grenoble Cedex 9 - France
T : +33 (0)4 76 51 46 00 - F : +33 (0)4 76 51 48 48
Stéphane PLOIX
Energy Management Engineer
Professor at ENSE3 and researcher et
INPG
[email protected]
ENSAL faculty team members
www.lyon.archi.fr
3, rue Maurice Audin
69512 Vaulx-en-Velin cedex - France
T : +33 (0)4 78 79 50 50 - F : +33 (0)4 78 80 40 68
Stendhal University - CST faculty team members
Nathalie MEZUREUX
Director
[email protected]
Martine HEYDE
Head of Teaching Department
[email protected]
Olivier BALAŸ
Professor
[email protected]
Jean-François AGIER
General Secretary
[email protected]
Luc BOUSQUET
Research and Partnership Department
[email protected]
David COMTE
Communication
[email protected]
Project Manual #4 - Team Rhône Alpes - Solar Decathlon Europe 2012
www.u-grenoble3.fr
Université Stendhal – Grenoble 3 - BP 25
38040 Grenoble Cedex 9
T : +33 (0)4 76 82 43 00
Laurent CHICOINEAU
Responsable of Science, technic and
communication master
[email protected]
34
31
Joëlle Bourgin
Professor
[email protected]
35
32
GEII faculty team members
Les Grands Ateliers de l’Isle d’Abeau team members
www-iut.ujf-grenoble.fr/geii
Domaine Universitaire - 151, rue de la Papeterie
38400 Saint-Martin-d’Hères - France
T :. +33 (0)4 76 82 53 00
[email protected]
Boulevard de Villefontaine
38 092 Villefontaine - France
T : +33 (0)4 74 96 88 70 - F : +33 (0)4 74 96 88 71
Yves LEMBEYE
[email protected]
Pierre CANAT
[email protected]
Jean-Luc AMALBERTI
[email protected]
Daniel HILAIRE
[email protected]
Jonathan ARANGI
[email protected]
Michel-André DURAND
Director
michel-andre.durand@lesgrandsateliers.
Orlane BECHET
Finances
[email protected]
Roland MATHIEU
Technical Support
[email protected]
Bruno VINCENT
Experimentations Coordination
[email protected]
Françoise AUBRY
Secretary
[email protected]
Maurice NICOLAS
Technical Support
[email protected]
Joël GOURGAND
Communication
[email protected]
Les Compagnons du Tour de France team members
www.compagnons.org
15 avenue de Grugliasco
38130 Echirolles - France
T : +33 (0)4 76 23 06 19 - F : +33 (0)4 76 22 73 49
François ROZAY
Wood carpentry Training Officer
F.C.M.B.
[email protected]
INES team members
www.ines-solaire.com
Parc technologique de Savoie Technolac - 50 av. du Lac Léman, bâtiment Lynx - BP 25
73375 - Le Bourget du Lac cedex
T : +33 (0)4 79 26 55 91 - F : +33 (0)4 79 25 36 90
Jean-Christophe VERNAY
Head of Compagnons du Tour de France
Training Program in Rhône-Alpes Area
F.C.M.B.
[email protected]
CSTB team members
www.cstb.fr
24 rue Joseph Fourier
38400 St Martin d’Hères - France
T : +33 (0)4 76 76 25 25 - F : +33 (0)4 76 44 20 46
Daniel QUENARD
Head of Physics and Caracterization of
Materials Division
[email protected]
Julien HANS
Head of Environment Division
[email protected]
Lætitia ARANTES
PhD in progress at CSTB
ENSAG/CSTB joint research program on
«energetic behaviour of Core-Skin-Shell
design for highrise buildings»
[email protected]
Robert COPÉ
Former Director of CSTB Research
[email protected]
Yves MARCOUX
Housing and Transportation
Convergence Program Manager
[email protected]
Alexandra LEBERT
ELODIE Program Manager
[email protected]
Vincent JACQUES-LE-SEIGNEUR
General Secretary
[email protected]
Jean-Pierre JOLY
Director
[email protected]
Pascal GANTET
Partnership and sponsoring
[email protected]
Philippe PAPILLON
Solar thermal systems
[email protected]
Olivier FLECHON
Integration of solar systems in buildings
[email protected]
Anaïs SCHNEIDER
Communication
anais.schneider @ines-solaire.org
Françoise BURGUN
Head of Integration of solar systems in
buildings Program
[email protected]
Cathy BARTHELEMY
Integration of solar systems in buildings
[email protected]
Estelle BONHOMME
Communication & PR
[email protected]
Jean-Louis SIX
Head of Smart Building Program - CEA
[email protected]
Laurie MAGAT
Secretary and Finances
[email protected]
ENTPE team members
HEIG-VD team members
www.entpe.fr
3, rue Maurice Audin
69518 Vaulx en Velin Cedex
T : +33 (0)4 72 04 70 70 - F : +33 (0)4 72 04 62 54
www.heig-vd.ch
Route de Cheseaux 1
1401 Yverdon - Swiss
T : +41 24 557 63 30 - F : +41 24 557 64 04
Laurent ARNAUD
Professor of Civil Engineering
Stéphane CITHERLET
Professor of Buildings Energetics
LESBAT researcher
36
33
Didier FAVRE
Ph.D student at Heig-vd
37
34
UNIGE team members
UNIGE team members
ENSAG & ENSAL master students
www.unige.ch
www.unige.ch
24 rue
du Général-Dufour
rueGenève
du Général-Dufour
CH - 24
1211
4
CH
1211
Genève
4 - F : +41 (0)22 - 379 11 34
T : +41 (0)22 - 379
71 11
T : +41 (0)22 - 379 71 11 - F : +41 (0)22 - 379 11 34
Master 2 - 2011-2012 - Project Canopea
Guillaume BESSIERES
[email protected]
ENSAG
Damien DEMEURE
[email protected]
ENSAG
Benjamin LE NAOUR
[email protected]
ENSAG
Caroline BLANC
[email protected]
ENSAG
Fanny JACQUET
[email protected]
ENSAG
Lydie LAHITETTE-LAROQUE
[email protected]
ENSAG
François GRIMAL
[email protected]
ENSAG
Antoine CHAVANNE
[email protected]
ENSAG
Hanyu LI
[email protected]
ENSAG
Natalia EON DUVAL
[email protected]
ENSAG
Carole FOURNIER
[email protected]
ENSAG
Marielle MARTIN
[email protected]
ENSAG
Hugo RIGARD
[email protected]
ENSAG
Estelle DELAHAY - PANCHOUT
[email protected]
ENSAG
Amine MEKKI-BERRADA
[email protected]
ENSAG
Pierre DALLAPORTA
[email protected]
ENSAL
Cécile ERMEL
[email protected]
ENSAL
Maximilien DUMONT
[email protected]
ENSAL
Timothée DIETZ
[email protected]
ENSAL
Timur ERSEN
[email protected]
ENSAL
Pierre HOLLMULLER
Researcher
Pierre HOLLMULLER
[email protected]
Researcher
[email protected]
ENSAG administration
ENSAG administration
60 avenue
de Constantine - BP 2636
avenue de
Constantine
- BP 2636
3803660Grenoble
cedex
2 - France
38036
- France
T : +33
(0)4Grenoble
76 69 83 cedex
00 - F :2 +33
(0)4 76 69 83 40
T : +33 (0)4 76 69 83 00 - F : +33 (0)4 76 69 83 40
Jean-Michel KNOP
DirectorJean-Michel KNOP
[email protected]
Director
[email protected]
Lucie SCOTET
General Lucie
Secretary
SCOTET
[email protected]
General Secretary
Philippe LEQUENNE
Head of Philippe
Studies Department
LEQUENNE
[email protected]
Head of Studies Department
[email protected]
Brigitte CHAMPSAVOIR
Head of Brigitte
Communication
Department
CHAMPSAVOIR
[email protected]
Head of Communication Department
[email protected]
Danièle RUFFIN
Studies Department
- International
Danièle RUFFIN
Affairs Studies Department - International
[email protected]
Affairs
Stephane PANTALEO
Communication
- Webmaster
Stephane
PANTALEO
[email protected]
Communication - Webmaster
Martine HALOTIER
Studies Department
- Master, PFE and
Martine HALOTIER
internship
Studies Department - Master, PFE and
[email protected]
internship
Lucien GERE
Technical
Support
Lucien
GERE
[email protected]
Technical Support
Colette IOAN
Studies Department
Colette IOAN- HMOnp, DSA,
DPEA Studies Department - HMOnp, DSA,
[email protected]
DPEA
José FARIA
Technical
Support
José
FARIA
[email protected]
Technical Support
Christiane PANZARELLA
Lecturers
Administration
Christiane
PANZARELLA
[email protected]
Lecturers Administration
Alain LOUET
GAIA Coordination
Alain LOUET
[email protected]
GAIA Coordination
Paolo SCIARAPPA
Technical
Support
Paolo
SCIARAPPA
[email protected]
Technical Support
Laurence ROUSSEAU-DUBOURG
FinancesLaurence
Department
ROUSSEAU-DUBOURG
laurence.rousseau-dubourg@grenoble.
Finances Department
archi.fr laurence.rousseau-dubourg@grenoble.
Frederic NOUGIER
Computer
and Network
Resources
Frederic
NOUGIER
[email protected]
Computer and Network Resources
Hélène CASALTA
Research,
Developments
Hélène
CASALTA et Partnership
[email protected]
Research, Developments et Partnership
Sylvia BARDOS
FinancesSylvia
Department
BARDOS
[email protected]
Finances Department
Mathieu TARDIEU
Computer
and Network
Resources
Mathieu
TARDIEU
[email protected]
Nathalie MARIE-LOUISE
ResearchNathalie
Department
Assistant
MARIE-LOUISE
[email protected]
Research Department Assistant
Anne-Lyse HUBERT
FinancesAnne-Lyse
Department
HUBERT
[email protected]
Finances Department
Martin KUNSTLER
Computer
and Network
Resources
Martin
KUNSTLER
[email protected]
Franck BICHINDARITZ
Technical
Support
Responsible
Franck
BICHINDARITZ
[email protected]
Technical Support Responsible
Isabelle ESCANDE
FinancesIsabelle
Department
ESCANDE
[email protected]
Finances Department
Inna PETRENKO
Computer
andPETRENKO
Network Resources
Inna
[email protected]
Simone FERRET
FinancesSimone
Department
Responsible
FERRET
[email protected]
Finances Department Responsible
[email protected]
Françoise PONCET
Director’s
Secretary
Françoise
PONCET
[email protected]
Director’s Secretary
[email protected]
Sandrine BRAMKI
Payments
and Social
Security
Sandrine
BRAMKI
[email protected]
Payments and Social Security
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
ENSAG HMO Architects
[email protected]
HMO - 2011-2012
archi.fr
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Christophe DE TRICAUD
[email protected]
ENSAG
[email protected]
Aurélien MESSA
[email protected]
ENSAG
[email protected]
[email protected]
36
[email protected]
35
38
35
39
GEM master students
Polytech master students
Master 1&2 - 2011-2012 - Indusrialization & market viability
Master 2 - 2011-2012 - Experimentation & Design
Building sciences
Chloé HINAULT
[email protected]
Gabriel BLAISE
[email protected]
Julien RINGOT
[email protected]
Julie REAL
[email protected]
Céline GEHIER
[email protected]
Charlotte FOURNIER - BIDOZ
charlotte.fournier-bidoz@grenoble-em.
com
Lauren CONSTANT
[email protected]
Mélodie DE WAELE
[email protected]
Romain BAZILE
[email protected]
Vincent JUIF
[email protected]
Guilhem LESSAIRE
[email protected]
Romain MAGLIONE
[email protected]
ENSE3 master students
GEII DUT students
Master 1 - 2011-2012 - Experimentation & Design
Energy management & electric systems
DUT - 2011-2012 - Experimentation & Design
Electric systems design & installation
Antoine CURDY
[email protected]
Hervé LAZARRO
[email protected]
Mehdi HACHANI
[email protected]
Ryad BEGHIDJA
[email protected]
Quentin BOCH
[email protected]
Maëlle KABIR-QUERREC
[email protected]
Mathieu RAMOND
[email protected]
Heiroti DAUPHIN
[email protected]
Timothy KRUGER
[email protected]
Arthur RIGO
[email protected]
Elise GOUJAUD
[email protected]
Jessica LEO
[email protected]
Clemence PUZIN
[email protected]
Jérémi FARAVELON
[email protected]
Guillaume MORVAN
[email protected]
Romain BRETIERE
[email protected]
Geoffray HOUTMANN
[email protected]
Anthony CRINIERE
[email protected]
Laurent GIRAUD
[email protected]
Julien PICHOT
[email protected]
Walid BENGARALI
[email protected]
CST master students
Abdoulaye GUEYE
[email protected]
Sophian M’RAD
[email protected]
Martin CARRE
[email protected]
Geoffray COLLET
[email protected]
Sebastien QUEYREL
[email protected]
Jeremy CHEVALIER
[email protected]
Master 1 - 2011-2012 - Scientific Communication
Maud BONRAISIN
[email protected]
Amélie Coulet
[email protected]
Julie LHUILLIER
[email protected]
Héloïse BOUILLARD
[email protected]
Tristan DE LEO
[email protected]
Sophie NEUDERT
[email protected]
Ariane CHOLLET
[email protected]
Antoine LE GAL
[email protected]
Rémy PADILLA
[email protected]
Phillipe PASSEBON
[email protected]
Julie SUEL
[email protected]
Alix THUILLIER
[email protected]
Aymerick SAURAT
[email protected]
Mathieu GINET
[email protected]
37
40
41
38
Picture credits: P. Avavian, JM Francillon, ENSAG, INES, DOE Solar Decathlon, Solar Decathlon Europe, gite-la-source.com, X
contacts:
web site
www.solardecathlon.fr/ in French, English and Spanish
social networks
Page «CANOPEA - Solar Decathon Europe 2012 - Team Rhône-Alpes»
Profile «@TeamRhoneAlpes»
Group «CANOPEA - Solar Decathlon Europe 2012 - Team Rhône-Alpes»
pictures
You can receive high-definition pictures of the project by sending an email at:
Benjamin LE NAOUR
Grenoble national school of Architecture (ENSAG)
Mail: [email protected]
Phone: +33 (0)6 85 31 07 55
We also have a more detailed press release available in french that can be downloaded in our website.
42

Press Release #5 Team Rhône-Alpes

Transcripción

Documentos relacionados

amano msm - Amano McGann

Folleto SunDisc sepiembre 2010

Baptized in fire to shine in hell.