Comprehensive Study Guide: Living in The Sustainable City, Dubai
Project Overview and Philosophy
- Project Name: The Sustainable City.
- Location: Dubai, United Arab Emirates (UAE).
- Primary Goal: To achieve a Net Zero Energy development and serve as a model for future energy and transport solutions.
- Key Principles:
- Reduction of energy intensity through design.
- Integration of social, economic, and environmental sustainability.
- "Future Ready" approach: preparing for climate change and reducing human footprints by involving the community.
Passive Design and Architectural Strategies
- Villa Orientation: All villas are designed to be north-orienting.
- Purpose: To maximize shade and avoid direct sunlight.
- Economic Impact: Significantly reduces air conditioning costs and subsequent carbon emissions.
- Roof and Building Envelope:
- UV Reflective Paint: Used on exteriors to deflect sunlight and reduce thermal heat gain.
- Thermal Performance: Windows and roofs are engineered with high thermal values to maintain internal temperatures.
- Architectural Integration: Solar panels are not treated as unsightly additions but are integrated into the architecture of the roofs and parking structures.
Water Resource Management and Treatment Systems
- Stream Separation: The city separates incoming water into two distinct streams: Black Water and Gray Water.
- Gray Water Treatment:
- Sources include washbasins, showers, and washing machines.
- Treatment occurs on-site within the community in an underground plant to avoid odors and aesthetic issues (0 odors reported).
- Storage and Use: Treated gray water is stored in lakes/ponds and pumped through the farm to irrigate the landscape.
- Passive Biofiltration:
- The city utilizes "Biofilters" such as Papyrus plants (traditionally used in Egypt for paper).
- These plants are soaked in the water to provide nutrient uptake, improving water quality further as it moves through the system.
- Cooling Applications: Treated gray water is used to keep cooling pads moist in the biodomes.
- Sewage Effluent: Other landscaping is irrigated using treated sewage affluent.
Solar Energy Infrastructure
- Grid Connectivity: The city is grid-connected, allowing it to feed solar energy into the main grid and tap back into it as needed.
- Capacity and Scale:
- Total Goal: 10MWp (Megawatt Peak) installed capacity.
- Total Panels: Approximately 40,000 Photovoltaic (PV) panels targeted.
- Current Progress: 26,000 panels installed at the time of filming.
- Daily Production: The system can produce 10MWh (Megawatt hours) of solar energy per day.
- Solar Car Parks:
- 3MW of the total energy capacity comes from solar panels installed on car park shading.
- This energy specifically powers city services, including the cooling pads, farm operations, street lights, and water features.
- Maintenance: Panels are dry-cleaned to maintain efficiency.
Economic and Social Sustainability Model
- Service and Maintenance Fees: Residents (both owners and tenants) pay 0 service fees and 0 maintenance fees.
- Revenue Model:
- The city includes a "Mixed Use" area (The Plaza) at the entrance with 15,000m2 of rental space.
- This space is only for rent, generating revenue for the developer.
- A portion of this rental income is used to offset all community costs: street sweeping, panel cleaning, landscaping, security, and mosque maintenance.
- Property Ownership: Property is available as "Freehold," allowing for both purchase and rental options.
- Community Spaces: Residential clusters are completely car-free, providing safe, communal spaces for children and social interaction.
Agricultural Framework and Biodome Technology
- Urban Farming: A farm runs the entire length of the city.
- Productive Landscaping: The city balances amenity and utility. Trees include:
- Date Palms: Pollinated in spring and harvested in August.
- Fruit Trees: Avocado, papaya, pomegranate, mulberry, and fig trees (scattered to benefit from the palm shade).
- Community Gardening: Residents manage farming areas for approximately 6 months of the year during cooler climates.
- Biodomes: The city contains 11 biodomes for food production.
- Crops: Experimentation with 40 types of herbs and vegetables including leek, parsley, mint, basil, chicory, spinach, coriander, cherry tomatoes, and lettuce.
- Passive Cooling System (Fan and Pad):
- A "Desert Technology" used for over 40 years.
- Mechanism: Large fans blow air out, creating negative pressure that pulls air in through corrugated cardboard pads.
- Cooling Effect: Pads are kept moist with treated gray water. Evaporative cooling can drop temperatures from 45∘C to approximately 30∘C.
- Energy: The fans are powered by solar energy from the car parks.
- Comparative Statistics:
- Global Average Carbon Emission: ≈7 metric tons of CO2 per person per year.
- Sustainable City Average: ≈3 to 3.1 metric tons of CO2 per person per year.
- This figure includes the impact of residents commuting outside the city.
- Waste Management: Recycling stations are distributed throughout the city at a ratio of 9 stations for every 90 villas.
- Circular Economy: Construction waste from "Phase 1" (such as wood pallets) was repurposed to create community furniture, including benches, picnic tables, and large decorative chairs.
Transportation and Mobility
- Internal Mobility: The city is designed for electric buggies, bicycles, and jogging tracks. Cars are restricted to the periphery (solar car parks).
- Electric Vehicle (EV) Incentives:
- Direct provision of charging stations.
- Cash Subsidy: As part of the sales contract, villa owners receive an incentive of up to ∈10,000 (approximately 40,000AED) toward the purchase of their first Electric Vehicle.
Questions & Discussion
- Robert Llewellyn: Asked about the temperature difference between seasons.
- Response: In January, it is 25∘C, but in mid-summer (June-September), it reaches 45∘C with high humidity. The design accounts for this by providing outdoor usability for 8 months of the year.
- Robert Llewellyn: Noted the community pool as a contentious point in sustainability.
- Response: The pool is a closed system that is filtered and only topped up to replace evaporation. It uses an environmentally friendly treatment system and is essential for social sustainability in the Middle East climate.
- Robert Llewellyn: Inquired about the public perception of the project.
- Response: Initially, there was significant skepticism from bankers and the public (post-financial crisis). However, the completion of Phase 1 demonstrated that sustainable development is not more expensive if planned correctly from the start. "An afterthought is expensive," but integrated technology is economically viable.