Upload
horace-willis
View
222
Download
3
Tags:
Embed Size (px)
Citation preview
Land Use & Mobility
Energy System
Water System
Information System
Conventional view of achieving environmental quality (market approach) – Kuznets curve – but
what about time lags, threshold effects, irreversible changes?
Skip 20th C. Approaches
Energy
Energy
WaterWater
Food
Materials
Materials
Reduced HEAT
C - Neutral
Zero Net Waste Water
Zero Net Waste Water
Zero Net Biomass Waste
Zero Net Waste
Zero Net Waste
Future
Increased Value Added:•Economic output•Wealth •Quality of Life
• Diminished Inputs & Outputs of Energy & Materials
• Coupled & Cyclic Flows
Chicago, Illinois
USA
North American Great Lakes:
• Total population – 34 M
• 20% of global freshwater supply.
• Largest continuous freshwater mass.– Highly vulnerable:
– Spatial constraints.
– Urban/industrial centers.
– Shipping
1900 – Reverse the flow
of the Chicago River
Source: UrbanLab
Design IdeaDesign Idea
Indicates the location of the Eco-boulevards Source: UrbanLab
UrbanLabUrbanLab’’s Vision: Growing s Vision: Growing WaterWater
Source: UrbanLab
• Biomimicry
• Decentralization, distributed
• Integrated systems
• Reduced water & energy use
• Renewable energy
Guiding Principles:Guiding Principles:
•Closed-loop
•Reduction of synthetic chemicals
•High density
•Couple energy + water + land use
“Living Machine” Wastewater Treatment
Lake Michiga
n
Membrane Filtration Drinking Water
Treatment
Dual Water System
Water to Water: Reengineering the Water to Water: Reengineering the ““NatureNature”” of Chicago of Chicago’’s Water Cycle for 2107s Water Cycle for 2107
“Living Machine” Wastewater Treatment
Lake Michiga
n
Membrane Filtration Drinking Water
Treatment
Dual Water System
Water to Water: Reengineering the Water to Water: Reengineering the ““NatureNature”” of Chicago of Chicago’’s Water Cycle for 2107s Water Cycle for 2107
Membrane Potable Water TreatmentMembrane Potable Water Treatment
• 20 decentralized treatment stations near Lake Michigan for freshwater withdrawal
• Tiered treatment train combining micro-, ultra-, and nanofiltration
• Achieves superior water quality by removing:
• Standard pathogens (E.Coli, giardia, cryptosporidium, viruses…)
• Colloids and nanoparticles
• Synthetic organic compounds including endocrine disrupting chemicals
Micro
0.1μ
Ultra
0.01μ
Nano
0.001μ
Coarse
1.0μ
• High turbidity from storms in Lake Michigan can clog membranes
• When sensors detect elevated turbidity:
• Cationic polymer coagulant added
• Coarse microfiltration system brought online
• Retentate and backwash flows discharged to wastewater treatment
UV
• Pathogen protection ensured through in-line UV stations located throughout distribution system
• Biochip sensors detect pathogen presence and activate UV
• UV LEDs provide high energy efficiency
• No chlorine residual required
• Avoids disinfection by-product formation
Decentralized UV DisinfectionDecentralized UV Disinfection
S S C