C+SD
Studio
Associate Prof. Associate Prof.
Luca Maria Francesco Fabris Rajendra Singh Adhikari
Recovering Nature in Milano, Porto di Mare. A Green Olympic Village for Milano - Cortina 2026
G.06 Putu Febry Kusuma Leonardo Zorz Wai Sum Yuen Izabella Nalchajyan
CONTENTS
Milan and Olympics Porto di Mare The Vision The Strategy The Masterplan In Search of Idea The Volume Concept The Siteplan The Groundfloor Residential Unit. Plan Residential Unit. Elevations Residential Unit. Sections Residential Unit. Perspective Section Residential Unit. Details Residential Unit. HVAC Commercial Unit. Plans Commercial Unit. Sections and Elevations Commercial Unit. Details Commercial Unit. HVAC The Views
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MILAN AND THE OLYMPICS
The Milano Cortina 2026 Candidature will contribute to a golden decade of Olympic and Paralympic sport, placing Milano Cortina alongside other leading international cities, to help reposition the Games in modern society. The selection of the venues is fully aligned with the ambition of northern Italy to become a world-class hub of excellence for winter sports. The Games will showcase the quality of the selected sports infrastructure and help to invest in renovating/ upgrading those venues that need investments. The Games will also be conducive to greater cooperation in the entire Alpine macro-region, to improve the attractiveness of the mountains as a place to live and reverse the trend of depopulation. Finally, the Games are a unique opportunity to showcase Italy’s design style that has seen the “Made in Italy” brand become synonymous with excellence all over the world. The International Olympic Committee works closely with local organisers for almost a decade to stage an edition of the Olympic Games. Olympic Agenda 2020 has improved the level of service provided to future host cities while reducing costs. Milano Cortina wants to build on its strong environmental credentials and use the Games to help accelerate sustainability plans. The Master Plan has already been conceived to minimise the environmental impact, thanks to the wide use of existing infrastructures. The Strategic Environmental Assessment for the Milano Cortina 2026 Olympic Winter Games will ensure that environmental considerations are taken on board, with a coherent stakeholder engagement programme. The legacy vision is to use the “power of the Games” as a catalyst to deliver our long-term strategic plans, identifying four priority themes: sport, social, economic and environmental topics. A Sustainability and Legacy Permanent Forum will be immediately established to coordinate all the organisations with responsibilities for legacy delivery, through a comprehensive legacy programme, with quantified indicators and clear monitoring and evaluation. Generation 2026 will play sports regularly, recycle three quarters of the waste they produce, use sustainable means of transportation only, use sport to understand cultural diversity, and grow in a more inclusive and integrated society.
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The official logo of Winter Olympic Games 2026 to be held in Milan
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PORTO DI MARE
“Porto di Mare” is an area located between the boundary of the consolidated city and the Vettabbia Park, inside the South Agricultural Park, near the Abbey of Chiaravalle and lapped by the Cammino dei Monaci, which connects Milan to the Via Francigena. Its name has remained in memory of a project never realized that involved the construction of a river port as a landing place for the navigable canal MilanCremona-Po, also never concluded to connect Milan to the Adriatic Sea. Now the area has been managed by the Municipality of Milan to the “Italia Nostra” Association for 5 years and the work done by volunteers and experts of the CFU (Urban Forestry Center) is changing its appearance. Paradoxically, its abandonment has made ‘Porto di Mare’ a place of proliferation of biodiversity and now has taken on the appearance of a naturalistic wetland… In short, a possible urban park that still carries within it the signs of its difficult history. Porto di Mare’s abandoned green area has a total surface of 65 hectares and is included in South Milan Agricultural Park. The area borders with Cassinis Park and former night club Roses Park area to the north, with artisanal settlements bounded by San Dionigi street to the southwest, with Sant’Arialdo street to the south-east and with Autostrada del Sole motorway junction to the north-east. The area is almost entirely fenced except for northern side bordering with Cassinis Park and a passage opened in correspondence with the motorway bridge crossing Sant’Arialdo street and adjacent Rogoredo rail park. From Cassinis Park parking area and from Porto di Mare MM3 subway station it is possible to access the area by a path connecting to a footpath internal to Porto di Mare area. The only vehicular access is located in correspondence with the barrier along the central span of fence on the border with Sant’Arialdo street. The degradation and social issues which have been characterizing significantly the area are being gradually worked out through the commitment of the local community, the citizens and the volunteers, the CFU - Centro Forestazione Urbana (Center for Urban Forestation), Italia Nostra and public administration. The area provides nowadays valuable conditions. The long abandonment allowed the development of new natural habitats with presence of an interesting fauna and a well-established flora, characterized by woods on the former dump hill and a meadow of willows and poplars, named “il pratone” (the big lawn) developed around a bigwetland created by the upwelling of groundwater.
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The view from Porto di Mare, photograph
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THE VISION
Made for Porto di Mare, our proposal includes sustainable performance analysis during the decision-making process of the project, aiming to illustrate with it how new developments can embrace environmentalist principles. The project would transform the site into a model for sustainable way of living and accommodate the future residents for the Winter Olympics 2026 in an entirely timber construction. Our proposal merges traditional Milanese urban and rural typologies to create a hybrid that balances the city and its natural surroundings. For deciding to build in the natural landscape in Porto di Mare comes with a commitment to balance people with nature. Specifically, this means that our new district will incorporate natural habitats that encourage richer growth for plants and animals, “With the rural village as an archetype, we’re creating a city where biodiversity and active recreation define a sustainable pact between people and nature.” Our goal was entirely clear – we know we have a responsibility to take great care of the community’s plant and animal residents, while at the same time building a sustainable neighborhood within this setting. We have a strong focus on developing the Porto di Mare masterplan on natural, local terms.
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First sketch, hand drawing
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THE STRATEGY
“Like the traditional rural village, the Porto di Mare masterplan stands for itself within an open natural landscape. This gives an opportunity to create a setting that is uniquely sensitive to sustainability and natural priorities,” As young professionals “We see a potential to build a new city that speaks to the sensibilities of younger generations, to create a home for people seeking a solution on how to live in better harmony with nature. For us, Porto di Mare is a proof of concept that this can indeed be done.” Designing a district of wooden housing is a part of a commitment “to provide climate-conscious development in housing.” Our timber-construction proposal aims to reduce the carbon impact of the development. The buildings are constructed from solid timber in order to radically reduce CO2 emissions, positively affect the indoor climate, and enhance the interior quality of life. Apartments have been positioned for an optimal balance between light and shade, while environmentally conscious features such as rooftop photovoltaic panels, and stormwater collection seek to reduce the scheme’s carbon footprint.
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Schemes representing the implementation of strategical manipulations
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THE MASTER PLAN
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Master plan
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IN SEARCH OF IDEA
Sketches, hand drawing 14
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THE VOLUME CONCEPT
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Conceptual scheme
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THE SITEPLAN
0 2
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Site Plan
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16
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THE GROUNDFLOOR
0 2
8
16
Ground Floor
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RESIDENTIAL UNIT. PLAN
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RESIDENTIAL UNIT. ELEVATIONS
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25
26
27
28
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RESIDENTIAL UNIT. SECTIONS
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31
32
33
34
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RESIDENTIAL UNIT. PERSPECTIVE SECTION
References 1. Roof Layers
3. Deck Layers
5. Deck Layers
Charred Timber Cladding 142 mm Roof Rafters 60mm Water Proof Membrane EPS Insulation 100mm Heat Resistant Membrane CLT Wood Roof 150 mm
Wooden Deck Floor 20 mm Floor Structure 30mm Insulation Layer Membrane Layer 30 mm CLT Wood Floor 150 mm
Thick Wooden Deck Floor 50 mm Rafters and Deck Beams 50 mm Waterproof Membrane and Pipe Irrigation System 50 mm CLT Wood Floor 150 mm
U- Value 0.224 W/m ²K
U- Value 0.25 W/m ²K
2. Exterior - Interior Layers (350mm)
4. Sliding Panel Shading Device
6. Ground Floor G
Wood Cladding Exterior 20 mm Rafters 60 mm Waterproof Membrane Layer EPS Insulation 120 mm
Wood structure inside the panel Policarbonate Panels 16 mm
Concrete Carpet 4 mm Reinforced Concrete Screed 100 mm Steam Barrier, polyethylene film Compacted Gravel
U- Value 0.233 W/m ²K
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U- Value 0.25 W/m ²K
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2
3
5
5
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Residential Building
Technical Perspective Section
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RESIDENTIAL UNIT. DETAILS
30mm Roof Plinth
Wooden Roof Shingles Rigid Roof Insulation Layer Fixed Louvre Beam - Wall Bolt Joint Louvre Metal Support Adjustable Louvre
Wood Beam Concrete Pond CLT Wood Floor Gypsum Board Plafond
Roof - Wall Detail
Glass Parapet
CLT Wood Floor Wood Beam Wood Column
Metal Structural Base
Water Pump Concrete Pond Base Earth Layer
Floor - Wall Detail Partial Section 1
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Roof Layers Steel Plate Roof Exterior Roof Rafters 60mm Water Proof Membrane EPS Insulation 100mm Heat Resistant Membrane CLT Wood Roof 150 mm 15mm Glass Parapet
U-Value 0.224 W/m 2K
Wood Beam
Wood Beam
300 x 300 Wood Column
Metal Plate Holder
Metal Plate Holder
300 x 300 Wood Column
Bolt Joint
Bolt Joint
Column - Slab Detail
Planted I-Beam
Water Table Control Pump Water Outlet
RC Structural Footing Concrete Pond Membrane Layer 30mm CLT Wood Floor 150 mm Suspended Ceiling
Water Proof Membrane RC Foot Plate Foundation
Exterior - Interior Layers (350mm) Wood Cladding Exterior 20 mm Cladding Rafters Horizontal and Vertical 60mm Waterproof Membrane Layer EPS Insulation 120 mm CLT Wood Panel Wall 150mm (Load Bearing Load)
Earth Base
U-Value 0.233 W/m 2K
Foudation Detail
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Wooden Roof Shingles Rigid Roof Insulation Layer CLT Wood Gypsum Board Plafond
Low-e Double Glazing Sliding Door
CLT Wood Gypsum Board Plafond
CLT Wood Wall Thermal Layer Exterior Rafter 30 x 30mm 20mm Plywood
Column - Roof Detail
Poly-carbonate Facade Skn
Base Earth Layer
Partial Section 2
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Floor - Wall Detail
Exterior - Interior Layers (350mm) Wood Cladding Exterior 20 mm Cladding Rafters Horizontal and Vertical 60mm Waterproof Membrane Layer EPS Insulation 120 mm CLT Wood Panel Wall 150mm (Load Bearing Load)
Roof Layers Steel Plate Roof Exterior Roof Rafters 60mm Water Proof Membrane EPS Insulation 100mm Heat Resistant Membrane CLT Wood Roof 150 mm
U-Value 0.233 W/m 2K Thick Wooden Deck 50mm Rafters and Deck Beams 50mm Waterproof Membrane and Pipe Irrigation System 50mm CLT Wood Floor 150mm
U-Value 0.224 W/m 2K
Wooden Deck Floor 20mm Hollow - Elevated Floor with Radiant Heating 100mm Membrane Layer 30mm CLT Wood Floor 150 mm
Suspended Ceiling
U-Value 0.25 W/m 2K Exterior - Interior Layers (350mm) Wood Cladding Exterior 20 mm
Double Facade Skin with Polycarbonate Surface
Waterproof Membrane Layer EPS Insulation 120 mm U-Value 0.233 W/m 2K
Floor - Wall Detail
Glass Sliding Door Thick Wooden Deck 50mm Rafters and Deck Beams 50mm Waterproof Membrane and Pipe Irrigation System 50mm CLT Wood Floor 150mm
Wooden Deck Floor 20mm
Ground Finish Waterproof Membrane and Pipe Irrigation System 50mm
Membrane Layer 30mm CLT Wood Floor 150 mm U-Value 0.25 W/m 2K Suspended Ceiling Exterior - Interior Layers (350mm) Wood Cladding Exterior 20 mm Waterproof Membrane Layer EPS Insulation 120 mm U-Value 0.233 W/m 2K
Earth Base
Foudation Detail
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Wooden Roof Shingles 30mm Roof Plinth Rigid Roof Insulation Layer
CLT Wood Wall Thermal Layer Exterior Rafter 30 x 30mm 20mm Plywood
Glass Parapet Fixed Louvre Wood Vinyl Tiles
CLT Wood Floor Wood Beam
Roof - Wall Detail
Wood Beam
Wood Column
Metal Structural Base
Concrete Foundation
Structural Footing
Partial Section 3
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Floor - Wall Detail
Roof Layers Steel Plate Roof Exterior Roof Rafters 60mm Water Proof Membrane EPS Insulation 100mm Heat Resistant Membrane CLT Wood Roof 150 mm
Glass Sliding Door
U-Value 0.224 W/m 2K
Wooden Deck Floor 20mm Hollow - Elevated Floor with Radiant Heating 100mm Membrane Layer 30mm CLT Wood Floor 150 mm U-Value 0.25 W/m 2K
Wood Beam
Thick Wooden Deck 50mm Rafters and Deck Beams 50mm Waterproof Membrane and Pipe Irrigation System 50mm CLT Wood Floor 150mm
Fixed Fins
Metal Plate Holder Wood Beam Bolt Joint
Cantilever Detail
Planted I-Beam
20mm Glass Parapet
Ground Finish Waterproof Membrane and Pipe Irrigation System 50mm
Thick Wooden Deck 50mm Rafters and Deck Beams 50mm Waterproof Membrane and Pipe Irrigation System 50mm CLT Wood Floor 150mm
RC Foot Plate Foundation
Wood Beam
RC Structural Footing
Earth Base
Foudation Detail
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RESIDENTIAL UNIT. HVAC
LANDSCAPE WATERING
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GROUND WATER TANK
GROUND WATER TANK
LANDSCAPE WATERING
ROOF PV PANELS
SOLAR THERMAL PANELS
PHOTOVOLTAIC PANELS
AC/DC
AC/DC
Battery
Battery
PV SYSTEM
VERTICAL LOOPS
PV SYSTEM
VERTICAL LOOPS
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COMMERCIAL UNIT. PLANS
A-A
D-D
E-E
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B-B
C-C
0 1
3
6
First Floor
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A-A
D-D
E-E
A-A
D-D
E-E
A-A
D-D
E-E
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B-B
C-C
0
1
3
6
Ground Floor
B-B
C-C
0
1
3
6
First Floor
B-B
C-C
0
1
3
6
Second Floor
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A-A
D-D
E-E
50
B-B
C-C
0
1
3
6
Third Floor
0
1
3
6
Roof Plan
0 1
3
6
South-East Elevation
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COMMERCIAL UNIT. SECTIONS AND ELEVATIONS
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53
0 1
3
6
Section C-C
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0 1
3
6
Section B-B
0 1
Sec
0 1
3
6
North-West Elevation
0 1
3
6
Section A-A
0 1
3
0 1
6
3
6
South-West Elevation
North-East Elevation
0 1
3
6
Section D-D
0 1
3
6
6
Section E-E
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COMMERCIAL UNIT. DETAILS
EPS Insulation Screw CLT Wood Wall 150mm
Window Frame
Double Facade Frame with Polycarbonate Skin
Radiant heat floor Floor Membrane Layer CLT Wood Floor 150mm L Steel Connection with Bolt Wood Cladding Exterior Finish
Roof - Wall Detail
Curtain Wall Base Wood Cladding Floor L Joint Bolt EPS Insulation 100mm Wood Cladding Wall
Shop-Front Aluminum Frame
Radiant Heating System Reinforced Concrete Sloof Concrete Plate Floor RC Foot Plate Foundation
Floor - Wall Detail Partial Section 1 56
Roof Layers Steel Plate Roof Exterior Roof Rafters 60mm Water Proof Membrane EPS Insulation 100mm Heat Resistant Membrane CLT Wood Roof 150 mm
Aluminum Mullion 50x150mm Low E Glass U-Value 0.7 W/m2K
U-Value 0.224 W/m2K
Wooden Deck Floor 20mm Hollow - Elevated Floor with Radiant Heating 100mm Membrane Layer 30mm CLT Wood Floor 150 mm U-Value 0.25 W/m2K
Exterior - Interior Layers (350mm) Wood Cladding Exterior 20 mm Cladding Rafters Horizontal and Vertical 60mm Waterproof Membrane Layer EPS Insulation 120 mm CLT Wood Panel Wall 150mm (Load Bearing Load) U-Value 0.233 W/m2K
Thick Wooden Deck 50mm Rafters and Deck Beams 50mm Waterproof Membrane and Pipe Irrigation System 50mm CLT Wood Floor 150mm
Cantilever Detail
Radiant Heating System CLT Wood Frame Base RC Building Base Sloof 600 x 600 mm M36 Bolt Joint
Concrete Plate Floor 300mm
CLT Wood Panel Wall 150mm Fine Sand 100mm EPS Insulation 120mm
RC Foot Plate Foundation Depth 1000mm
Waterproof Membrane Layer Earth
Wood Cladding Exterior Finishing
Double Facade Skin with Polycarbonate Surface
RC Foot Plate Base 500mm
Foudation Detail
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COMMERCIAL UNIT. DETAILS
CLT Wood Roof 350mm Roof - Wall Bolted Joint Connection
CLT Wood Wall 350mm
Functional Interior
CLT Wood Interior Floor 350mm
Wall - Floor Detail
Roof - Wall Detail
Glass Door
CLT Wood - Wall Screwed
CLT Wood Floor Interior 300mm
CLT Wood Wall 350mm
Base Floor 400mm
CLT Wall - Footplate Joint
Reinforced Concrte Footplae Foundation
Floor - Wall Detail
Partial Section 2 58
Roof Layers 350mm
Floor Layers 300mm Wood Deck 20mm Elevated Floor 100mm Insulation 30mm CLT Wood 150 mm
Steel Roof 10mm Rafter/Joist 60mm Heat Insulation Sheet EPS Insulation 100mm Membrane 30mm CLT Wood 150 mm
U-Value 0.25 W/m2K Floor Layers 300mm Wood Deck 20mm Wood Structure 80mm Insulation 30mm CLT Wood Slab Floor 150mm
U-Value 0.224 W/m2K
Wall Layers (350mm) Wood Cladding 20 mm Wood Rafter/Joist 60mm Waterproof Membrane EPS Insulation 120 mm CLT Wood 150mm (Load Bearing)
Waterproof Membrane
CLT Wood Wall 350mm
U-Value 0.233 W/m2K
Floor - Wall Detail 2
CLT Wall to Footplate
Wooden Deck 20mm Elevated Floor w/ Radiant Heating 100mm Insulation 30mm CLT Wood 150 mm
Floor Layer (400mm) Wood Deck 20mm Elevated Floor 100mm Insulation 30 mm Concrete Slab 300mm
U-Value 0.25 W/m2K
Exterior - Interior Layers (350mm) Wood Cladding Exterior 20 mm Cladding Rafters Horizontal and Vertical 60mm Waterproof Membrane Layer EPS Insulation 120 mm CLT Wood Panel Wall 150mm (Load Bearing Load)
Reinforced Concrete Foot Plate 1500 x 1500 x 1000 mm Foot Thickness = 500mm
U-Value 0.233 W/m2K
Wall - Foundation Detail
59
COMMERCIAL UNIT. DETAILS
NW Partial Facade
Internal Facade 1
CLT Column 300x300mm
Service Space 600mm Internal Facade
Mullion 50 x 150mm
Partial Floor Plan 60
Internal F
NW Partial Facade 2
Internal Facade Section 2
CLT Wood Wall 350mm
Shop-Front Curtain Wall Mullion 50x150mm Curtain Wall Facade Polycarbonate Panel
Facade 2
Partial Floor Plan 2 61
COMMERCIAL UNIT. HVAC
HEAT DISTRIBUTION WATER-WATER
ELECTRICAL BATTERIES
LOOP PUMP HEAT EXCHANGE
VERTICAL LOOP
ROOF PV PANELS
ROOF PV PANELS
SOLAR THERMAL PANEL
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PV PANELS AC/DC INVERTER
SOLAR THERMAL PANEL
OUTLETS
GROUND WATER TANK
FAN COIL UNIT RADIANT HEATING FLOOR
SOLAR THERMAL PANEL
SOLAR THERMAL PANEL
LS ROOF PV PANELS
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THE VIEWS
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