Developed by Vitali, new Microsoft Innovation Campus was presented by the Cristian Vitali and the architects, Flores Prats from Barcelona. One of the most advanced buildings in the region, in line with Microsoft leadership in technology.
Microsoft Innovation Campus in Milan, presented in WOF Green Barcelona 2011
1.
2. Three generations of passion and experience in construction at the service of Private and Public clients. A leader in
the sectors of: infrastructure and mobility, real estate development, producing aggregates for construction and
special demolition, environmental protection.
Innovation Campus
3. ENVIRONMENTAL SUSTAINABILITY
ABOVE ALL ELSE
1) Operating in full respect of the most evolved
environmental rules means saving the planet and
guaranteeing a future for generations to come.
2) Those building great structures on very large areas
must carefully consider environmental sustainability
aspects.
3) The energy efficiency of projects and
constructions must be quantifiable and certifiable
according to precise international standards.
4) Environmental performance, the integration of
constructions and the valorisation of the landscape
must be continually monitored from the planning of
works through to their realisation and management.
4. INNOVATION CAMPUS KEYWORDS
STRATEGIC
DESIGN
LOCATION ENERGY SAVING
ARCHITECTURE
ACCESSIBILITY
INNOVATION GREEN AND
LANDSCAPE
ENVIRONMENTALLY
WORK AND LIFE INTEGRATION
COMPATIBLE
FUNCTIONALITY QUALITY AND
AND FLEXIBLE SPACES DURABILITY OF
EFFICIENCY CONSTRUCTION
6. Located in municipality of Peschiera
Borromeo is just 7 km from the
centre of Milan and 2 minutes from
Milano Linate Airport.
The transport network facilitates
accessibility and the development of
trade relations.
INNOVATION CAMPUS
Linate Airport Accessibility
Paris 1h e 20 min.
Barcelona 1h e 40 min.
London 1h e 45 min.
7. HEADQUARTER
BASILISCO
Infrastructure and road system Travel Times
2011
Uscita Forlanini/
Vimercate
Linate/SP 15b
EST BY PASS SP 15 b – SP 14
– Via San Bovio
DISTANCE AND TIME TAKEN…………25 Km - 30/60 minutes
S.P. 13
Vimercate Carugate Exit Pioltello
S.P. 121 First tract
EST BY-PASS SP 121 SP103-SP 14-
T.E.M. Via San Bovio
DISTANCE AND TIME TAKEN …………25 Km - 38/60 minutes
Vimercate Agrate Exit Melzo
BRE.BE.MI. EST BY-PASS SP 13 SP103-SP 14-
Via San Bovio
DISTANCE AND TIME TAKEN …………27 Km - 38/60 minutes
2012
Vimercate Agrate Esit Melzo
ATM Overground line 73 INNOVATION CAMPUS
EST BY-PASS SP 13 SP103-SP 14-
Via San Bovio
DISTANCE AND TIME TAKEN …………27 Km - 25/45 minutes
2013 FIRST T.E.M. TRACT
Uscita
Vimercate Agrate Exit Caponago SP 103-SP14
EST BY-PASS A4 TEM SP103-SP 14-
Second tract Via San Bovio
T.E.M. DISTANCE AND TIME TAKEN …………31 Km - 20/30 minutes
2015 T.E.M. COMPLETION
Caponago
Vimercate Agrate Exit Exit SP 103-SP14
EST BY-PASS A4 TEM SP103-SP 14-
Via San Bovio
DISTANCE AND TIME TAKEN …………31 Km - 20/30 minutes
8. Railway Infrastructure System Travel Times
Sesto FS Mi Porta Garib. Segrate
10 min. 15 min.
Line S9 Line S5
Every 10 min. Every 15 min.
TRAVEL TIME……………………………………. 25 minutes
Monza Bettola
- Planned-
Sesto FS Mi Porta Venezia Segrate
15 min. 12 min.
Bignami Gessate Line M1 Line S5
- Under costruction - Every 5 min. Every 10 min.
Cologno Nord
TRAVEL TIME ……………………………….……. 27 minutes
RHO Fiera Milano Maciachini
Sesto FS
Cologno Nord Mi Porta Garib. Segrate
Pioltello 15 min. 15 min.
Line M2 Line S5
MI P.ta Garibaldi Every 5 min. Every 15 min.
Segrate TRAVEL TIME ……………………………………. 30 minutes
Lotto Fiera Milano City
Mi P.ta Venezia San Siro - Lotto Mi Porta Venezia Segrate
Linate Airport
12 min. 12 min.
Bisceglie Line M1 Line S5
Mi P.ta Vittoria INNOVATION CAMPUS Every 5 min. Every 15 min.
San Cristoforo FS
Mi Rogoredo TRAVEL TIME ……………………………………. 24 minutes
Peschiera Borromeo
Bisceglie Mi Porta Venezia Segrate
Abbiategrasso San Donato M.se
18 min. 12 min.
Paullo Line M1 Line S5
Every 5 min. Every 15 min.
- Planned -
Assago Milanofiori TRAVEL TIME ……………………………………. 30 minutes
Mi Rogoredo Mi Porta Vittoria Segrate
6 min. 9 min.
Lines S Line S5
Every 10 min. Every 15 min.
TRAVEL TIME …………………………..…………. 15 minutes
2015 LINE MM4 LINATE AIRPORT
10. MONDADORI H.Q. IDROSCALO Park
3M H.Q.
MIRAZZANO Castle
IBM H.Q. Peschiera Golf Club
Innovation Technology
A NEW SILICON VALLEY
Distinguished and strong possible partnership a green area of over 10.000.000 sq.m
proximity to
Media, Partner, Clients company image with multinational leaders with sport and leisure facilities
11. Basket-ball, soccer, tennis and volley pitches
Building A Building B
Service Road
Service Access
Hub
Indoor parking spaces Fitness Restaurant
Asilo
Building D
Main Entrance
Building C
Park of “fontanili”
Service Road
Outdoor Park
Agricultural Park
Exit
50.000 sq.m of open space office 30.000 sq.m of indoor parking spaces 70.000 sq.m Giardini ricreativi
10.000.000 sq.m of green area 4 Indipendent access ways
15. Choice of layout
S/V Indicates the ratio between the dispersing surface and the volume. Among possible shapes, the court layout is
the one which guarantees the least thermal loss
DP The court layout has the smallest distance between furthest points. This makes for higher working
efficiency and lower building management costs.
16. Structural typology – Section of typical floor
4,5 m
4m
3m
Plant engineering flexibility 4 m of net internal height allow for a wide choice in plant engineering solutions
Efficient natural airing single opening façade modules favour natural air circulation to all work stations
Efficient lighting the 3 m net height of glass façade walls guarantee a correct natural illumination
Employment efficiency the 20 m breadth of floors afford maximum employment efficiency in terms of
square metres/person
17. Efficiency of the Floor Plan
Employment capacity
The Security exits and floor services have
been designed big enough to guarantee a
330-person employment capacity per floor,
equal to a workstation every 10 m2.
Spatial efficiency
Technical spaces and hygienic services are
localised in the corners so as to avoid a waste
of working spaces
Structural flexibility
Ensures the possibility of disposing of both open
plan offices and director offices, meeting rooms,
lounges and relaxation areas, mainframe and
storage areas...
Optimal natural illumination
The architectural court plan and glass façades
allow for a perfect distribution of light on the
20 m work floor
Effective access systems
These connect the buildings with each other and
their external position saves room for work
24. Sustainability of site
+70% dedicated to green
spaces
Water management
+40% saving in drinking
water consumption
Energy and atmosphere
+30% saving on cost
of necessary energy
Resources and materials
+30% of product used are
from recycled materials
Internal air quality
+30% than standard
ventilation air change
25. Sustainability of the site
Sustainable construction site management –
We take measures to avoid raising dust, dispersing earth outside the work site
and we use sound barriers so as not to disturb nearby inhabited and green
areas, safeguarding the health of neighbours and preserving natural
habitats in green areas.
Green area – the carefully planning of spaces, the restoration of
the Gambarone fountain, the closeness to the two parks: Parco Agricolo
Sud Milan and the Parco dell’Idroscalo make of this site an area of great
environmental value.
Alternative means of transport – More than 5% of
our parking places have been set aside for low emission cars and those with
alternative fuel. A cycle path, bicycle racks and dedicated changing rooms and
showers encourage the use of bicycles to reach the complex from nearby
areas.
Public transport access – Within 400 m from the entrance
to the complex are 2 bus lines + 1 bus on demand, which connect the site to
the Railway networkand to Linate Airport.
26. Water managment
Rain water collection – Rain water is filtered and
collected in tanks and is used for flushing toilets and watering the green
areas.
Careful planning of green areas – the planning
of the green areas has taken account of the water requirements of the
various plant species, so indigenous species with least need for water
were chosen.
Certified taps – the installation of Leed certified timed taps
and toilets with dual flush buttons has allowed for a noteworthy saving of
water use in the building.
27. Energy and atmosphere
Efficient envelope – the façades of all the buildings are state of
the art technology in the reduction of thermal energy loss.
Integrated sun-breakers avoid took much thermal energy accumulating in the
indoor areas of the buildings and thus avoiding the excessive use of air
conditioning during summer.
Solar and photovoltaic panels – Solar and
photovoltaic panels are installed on the roofs of the buildings supplying hot
water ad clean electricity, avoiding the use of fossil fuels which are
expensive and damaging to the environment.
Remote heating – A centralised remote heating plant allows for
greater energy efficiency, lower environmental impact and a smaller
carbon footprint CO2 compared to localised boilers and heaters
Using the water table for cooling – our wells fetch
underground water channelling it into the chillers for cooling in summer
28. Resources and materials
Recycled material – the choice of construction materials fell on
all products with the highest amount of recycled materials. Choosing this
type of material avoids the continuous impoverishment of raw materials present
in the natural environment.
Regional materials – more than 70% of products installed in
construction are from recycled raw materials, or those extracted and processed
within 800 Km of the site. This favours the local economy and reduces
pollution due to long product transportation.
.
Certified wood – most of the wood used in building is FSC
certified and comes from sustainably managed forests.
Ricycling of construction waste – Thanks to
separate waste collection and the careful management of the site, more than
81% of the waste generated during construction was recycled.
29. Internal air quality
Improved ventilation – the amount of ventilation was brought
to 30% beyond the standards required for perfect air replenishment
improving the health and comfort of dwellers.
Greater thermal comfort – Thanks to independent
temperature settings for areas and halls the best thermal comfort is guaranteed
for all users of the complex and for all areas in the buildings.
Internal air quality managment – During
construction, measures were taken to provide the best possible indoor air
quality, protecting and sealing off all conducts to mechanical areas, avoiding
fumes in closed areas and protecting them from dust, sawdust and possible
pollutants.
Low VOC materials – During the works only low VOC
chemicals were used. Paint, silicone and glue in traditional construction are
responsible for releasing organic compounds into the atmosphere which are
damaging to human health, causing allergies and breathing problems as well
as being damaging to the environment. Thanks to the use of low VOC
materials the highest health standards are guaranteed for indoor areas.