2032 OLYMPIC VILLAGE Buenos Aires TEAM Ã&#x; PRESENTS
PART 1
DIAGNOSTIC
BUENOS AIRES
WHY?
DIAGNOSTIC
TERRITORY
DIAGNOSTIC
TERRITORY
DIAGNOSTIC
TERRITORY
DIAGNOSTIC
PR O B LE M S TO TAC K LE Housing
Transportation
Unemployment
Clean the environment
Gentrification
DIAGNOSTIC
- Potential for improving the public transportation system and integration - Wind and solar energy potential - Improving the living conditions - Decreasing the informal housing - Decrease the carbon footprint - Limited space
- Poor public transportation system - Limited public green spaces - Large carbon footprint - Limited space - Poverty?
- Pollution - Un-security - Inequality - Lack of public services - Unstable economy
THREATS
OPPORTUNITIES
- Capital City - Largest City - Top tourist destination - Weather - River -Existing facilities for the stadium and other sport facilities -Already hosted big events such as 2018 Youth Olympics and World Cup
WEAKNESSES
STRENGHTS
SWOT ANALYSIS
DIAGNOSTIC
SDG
DIAGNOSTIC
OUR GOAL
ÂŤ We aim to build a sustainable, accessible, inclusive and car-free neighborhood. By joining forces with the local population and by using renewable energy systems, we create a space wider than just an Olympic village. Âť
DIAGNOSTIC
PART 2
PROJECT
STAK E H O LD E R S Power / Interest Diagram Stakeholders For the Olympic of 2038
Power / Interest Diagram Stakeholders For the Olympic of 2038
City Government
City Government
Government Olympic Committee Community House Keepers
Architects Engineers Investors
Private/local entities (hotels, restaurants, shops)
Investors
INTEREST
INTEREST
Local Staff
Public transportation companies
Private/local entities (hotels, restaurants, shops)
Government
Public transportation companies Olympic Committee
Athletes, Athletes’ families, Staff, Journalist Urban Planners
Logistic companies (waste management/ delivery companies/water management)
POWER
Other Entities (schools, businesses, universities, hospitals)
Urban Planners
Logistic companies (waste management/ delivery companies/water management)
POWER
DIAGNOSTIC
LO CATI O N
PROJECT
MAS T E R P LAN Project Area TO CENTER TO OLYMPIC PARK
0
0.1
0.2
0.5 (km)
PROJECT
MAS T E R P LAN Project Area TO CENTER TO OLYMPIC PARK
0
0.1
0.2
0.5 (km)
PROJECT
R I V E R R E V ITALI ZATI O N
Before revitalization
After revitalization
PROJECT
3 D M O D E LI ZATI O N Project Area
PROJECT
TRAN S PO RTATI O N SYSTE M Transportation Network
In addition : Emergency vehicles Delivery via drones
PROJECT
PART 3
TECHNICAL
MANAGEMENT Waste management • •
Soil contamination solved by treating waste across the river Recycling plastic from current waste by fusing with aggregates/ soil to make the pavement of the pedestrian space
Water Management • • • • •
Water-efficient buildings Choice of efficient sanitary products Urine separating toilet, and recyclability of water waste Implement pumping systems to use the river water for microirrigation system Natural water purification of the river
Energy Management • • • • • •
Energy efficient street lights Energy generating pavement Wind trees Solar panels on building roofs/windows/ facade Good insulated building (with ecological insulation: mycelium, cork, straw..) Importance of limiting overheating, by solar protection and natural ventilation
TECHNICAL
I N N O VATI O N Local material use
X2
Natu
RELEASE HEAT AT NIGHT
n ilatio t n e ral V
STORE HEAT IN THE DAY
TECHNICAL
I N N O VATI O N Circular water system
Toiture végétalisée EP EG EU
EP ER ED
EP: eaux de pluie EG: eaux grises ER: eaux recyclées ED : eaux de distribution Rétention d’eau Dispositif économe en eau Réservoir pour temporisation Citerne stockage Dispositif infiltration
TECHNICAL
I N N O VATI O N Potential Implemented systems
TECHNICAL
PART 3
CONCLUSION
LEGACY
FOR WHO?
PROBLEMS TACKLED
WHAT WILL STAY?
CONCLUSION
THANK YOU
Buenos Aires
TEAM BETA PRESENTS