Algae!
Eco-industrial park as Responsive Urban Frameworks Site Analysis.
Urban Grid in South Boston and New York
Relationship between Highway ,Industrail area, Green park
270’
54’
270’
54’
640’
510’
60’
320’ 510’
60’ 24’
310’ 180’
200’
190’
64’
Public transportation system and Marine Industrial Park
85’ 65’
464’
64’ 200’
800’
Building typology High Tech Headquater+ Lab
80’
800’ Small and Medium Enterprises
80’
800’ Row House
Road heirarchy
Exhibition Factory+Office
Apartment
Studio+ Residential
Concept
Index.
Eco-Industrial Park
Density of industry
PRODUCT
BY PRODUCT
Company A
Company B
BY PRODUCT
BY PRODUCT PRODUCT
PRODUCT Company D
PRODUCT
BY PRODUCT
PRODUCT
Company C
Algae Cycle
ocean with algae
Algae Wetland Purification
Algae Biochemical Product
Algae Biomass
Algae
Algae Electricity Fish Farming Biodiesel Production
Vertical Farming
Accessibility of ocean
Livestock Food Manufacture and Distribution
Biofuels
Biogas Generator Smart
Gas-Fired CHP
OMEGA System Offshore Membrane Enclosure for Growing Algae
Feild of Industrai Road and freight The OMEGA system consists of large plastic bags with inserts of forward-osmosis membranes that grow freshwater algae in processed wastewater by photosynthesis. Using energy from the sun, the algae absorb carbon dioxide from the atmosphere and nutrients from the wastewater to produce biomass and oxygen. As the algae grow, the nutrients are contained in the enclosures, while the cleansed freshwater is released into the surrounding ocean through the forward-osmosis membranes. “The OMEGA technology has transformational powers. It can convert sewage and carbon dioxide into abundant and inexpensive fuels,” said Matthew Atwood, president and founder of Algae Systems. “The technology is simple and scalable enough to create an inexpensive, local energy supply that also creates jobs to sustain it.” When deployed in contaminated and “dead zone” coastal areas, this system may help remediate these zones by removing and utilizing the nutrients that cause them. The forward-osmosis membranes use relatively small amounts of external energy compared to the conventional methods of harvesting algae, which have an energy intensive de-watering process.
Renewable-Energy
Feilld of Public Transportation ocean power
algae power
biogas power
rainwater recycle
industrial reclaimed water
urban farming
recreational park
Water-Recycle
gray water treatment Green Infrastructure
flood detention pond
step 1. Algae pond ratio( distance of coast line)
step 2. Building coverage ratio (distance to park) High
Low
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.7
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.6
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.5
covergae ratio: 0.3
covergae ratio: 0.3
covergae ratio: 0.3
covergae ratio: 0.3
covergae ratio: 0.3
covergae ratio: 0.3
covergae ratio: 0.3
covergae ratio: 0.3
Low
High
step 3. Building typology ( industrial infrastructure) STEP 4. FAR ( Public Transportation system)
Local industry
Housing
Headquater+Lab
Local industry
Housing
covergae ratio: 0.7
(0,0,0)
(0,0,1)
(0,0,2)
covergae ratio: 0.7
(4,0,0)
(4,0,1)
(4,0,2)
covergae ratio: 0.6
(0,1,0)
(0,1,1)
(0,1,2)
covergae ratio: 0.6
(4,1,0)
(4,1,1)
(4,1,2)
covergae ratio: 0.5
(0,2,0)
(0,2,1)
(0,2,2)
covergae ratio: 0.5
(4,2,0)
(4,2,1)
(4,2,2)
covergae ratio: 0.3
(0,3,0)
(0,3,1)
(0,3,2)
covergae ratio: 0.3
(4,3,0)
(4,3,1)
(4,3,2)
covergae ratio: 0.7
(1,0,0)
(1,0,1)
(1,0,2)
covergae ratio: 0.7
(5,0,0)
(5,0,1)
(5,0,2)
covergae ratio: 0.6
(1,1,0)
(1,1,1)
(1,1,2)
covergae ratio: 0.6
(5,1,0)
(5,1,1)
(5,1,2)
covergae ratio: 0.5
(1,2,0)
(1,2,1)
(1,2,2)
covergae ratio: 0.5
(5,2,0)
(5,2,1)
(5,2,2)
covergae ratio: 0.3
(1,3,0)
(1,3,1)
(1,3,2)
covergae ratio: 0.3
(5,3,0)
(5,3,1)
(5,3,2)
covergae ratio: 0.7
(2,0,0)
(2,0,1)
(2,0,2)
covergae ratio: 0.7
covergae ratio: 0.6
(2,1,0)
(2,1,1)
(2,1,2)
covergae ratio: 0.6
covergae ratio: 0.5
(2,2,0)
(2,2,1)
(2,2,2)
covergae ratio: 0.5
covergae ratio: 0.3
(2,3,0)
(2,3,1)
(2,3,2)
covergae ratio: 0.3
covergae ratio: 0.7
(3,0,0)
(3,0,1)
(3,0,2)
covergae ratio: 0.6
(3,1,0)
(3,1,1)
(3,1,2)
covergae ratio: 0.5
(3,2,0)
(3,2,1)
(3,2,2)
covergae ratio: 0.3
(3,3,0)
(3,3,1)
(3,3,2)
Headquater+Lab
(6,0,0)
(6,0,1)
(6,0,2)
(6,1,0)
(6,1,1)
(6,1,2)
(6,2,0)
(6,2,1)
(6,2,2)
(6,3,0)
(6,3,1)
(6,3,2)
covergae ratio: 0.7
(7,0,0)
(7,0,1)
covergae ratio: 0.6
(7,1,0)
covergae ratio: 0.5
(7,2,0)
(7,2,1)
(7,2,2)
covergae ratio: 0.3
(7,3,0)
(7,3,1)
(7,3,2)
(7,1,1)
(7,0,2)
(7,1,2)
Intergration of urban space
Urban Catalyst: Ecological civil structure Revival urban the value and meaning of open space path(boulevards, streets) nodes (squares, park,civil buildings ) create image of city in waterfront Sequence of waterfront
Plaza:
1. Civic life( temporary market, celebration, festival and performance) 2. Enclosure by civil buildings 3. Identity and Genius Loci 4. Public living room
Connection of civil space Design Strategy Connection of road and Green
Green Infrastructure as armature Civil structure and social space
Interwine alley, geen, square
ZOOM IN
Alage pond as civil structure Connect building and open space
Lab Office Lab Office
Comercial
Exhibition
Parking
Parking
Section of International Headquater + Innovation center
Housing Office
Comercial Parking
Section of Local Company + Apartment
Comercial Parking
Parking