Syllabus Edition
First teaching 2024
First exams 2026
Urban Planning (DP IB Environmental Systems & Societies (ESS))
Revision Note
Written by: Alistair Marjot
Reviewed by: Bridgette Barrett
Sustainable Urban Systems
Importance of urban planning
Urban planning is the process of designing how land and buildings in a city are used to meet the needs of the population
It focuses on the best way to organise urban space to meet the physical, environmental, commercial, industrial, and social needs of all residents
Effective urban planning ensures that cities grow in an organised and efficient way
This is to prevent issues like overcrowding, pollution, and inadequate infrastructure
Modern urban planning aims to create sustainable urban systems that balance the needs of the population with environmental protection
In this context, sustainability means designing cities so they work well and fairly for people today, while also making sure they can meet the needs of future generations
Factors in sustainable urban planning
Quality and affordable housing:
Ensuring housing is available and affordable to all income levels is key for sustainable development
Integrated public transport systems:
A well-connected, reliable, and environmentally-friendly public transport system reduces the need for cars and lowers pollution
For example, Copenhagen, Denmark, has reduced car use by focusing on bicycle lanes and public transport
Green spaces:
Parks, forests, and other green areas improve air quality, provide recreational spaces, and contribute to the well-being of residents
For example, Brasilia, the capital of Brazil, was designed with a very large linear park running down its centre, promoting a balance between urban development and nature
Security and safety:
Creating safe neighbourhoods with reduced crime rates and effective emergency services
Good lighting, surveillance, and safe public spaces contribute to a secure urban environment
Education and employment:
Providing access to schools, universities, and job opportunities is essential for sustainable cities
Urban systems must plan for education and employment to keep the population economically active
Renewable energy and resources:
Sustainable cities aim to use renewable energy sources like solar or wind power to reduce reliance on fossil fuels
For example, San Francisco, USA, has invested in electric vehicle (EV) charging stations to encourage the use of cleaner energy for transportation
Reuse and recycling of waste:
Sustainable cities focus on reducing waste, reusing materials, and promoting recycling to minimise environmental impact
For example, in Singapore, waste-to-energy plants help recycle waste while producing energy for the city
Energy efficiency:
Buildings in sustainable cities are designed to use energy efficiently, reducing waste and lowering energy costs
Green buildings incorporate insulation, solar panels, and other technologies to minimise energy consumption
Water conservation:
Cities must plan for efficient water use and ensure water conservation practices.
For example, Dubai uses grey water to irrigate its green spaces, conserving fresh water resources
Community involvement:
Successful urban planning involves the local community in decision-making processes
This ensures that the needs and ideas of residents are considered
Examiner Tips and Tricks
Don’t confuse urban planning goals: try to separate the social, economic, and environmental aspects of sustainability. For example, green spaces address environmental concerns, while affordable housing tackles social issues.
Ecological Urban Planning
What is ecological urban planning?
Ecological urban planning treats the city as an ecosystem
This type of urban planning considers the interactions between living (biotic) and non-living (abiotic) components
It focuses on:
Creating balance between urban development and the natural environment
Ensuring cities are sustainable, resilient, and healthy for both humans and wildlife
Key components of ecological urban planning
Urban ecology
Urban ecology integrates green spaces and natural habitats into city design
This includes parks, allotments, ponds, canals, and other areas that provide habitats for wildlife and improve air quality
Urban farming
Urban farming refers to growing food within cities
This is often done in unused or repurposed spaces
This Includes activities like beekeeping, horticulture, aquaculture, and city farms
For example, New York City has community gardens and rooftop farms that supply fresh produce to local residents
Biophilic design
Biophilic design brings nature into the built environment by incorporating natural elements into architecture
This includes living green walls, rooftop gardens, water features, and the use of natural light
For example, the Bosco Verticale (meaning vertical forest) in Milan, Italy, is a complex of two residential skyscrapers covered in trees and plants, improving air quality and biodiversity
Resilience planning
Resilience planning focuses on designing cities to withstand and adapt to environmental challenges like climate change
This may involve:
Vertical farming to produce food in limited urban spaces
Buildings on stilts to protect from flooding in flood-prone areas
In flood-prone areas, such as the Netherlands, some homes are built to float on water, adjusting to rising and falling water levels
Using natural elements like green roofs and permeable pavements to manage stormwater and reduce flooding
Regenerative architecture
Regenerative architecture aims to not only reduce environmental harm but actively improve the environment
Building skins that clean the air:
Some buildings are designed with special materials or coatings on their exterior walls (known as building skins)
These filter and remove pollutants (e.g. nitrogen oxides) from the air, improving air quality around the building
Renewable energy sources:
Many regenerative buildings use solar panels, wind turbines, or bio-digesters to generate more energy than they consume
They are then able to contribute clean energy back to the energy grid
Bio-digesters:
These systems use organic waste (like food or agricultural waste) to produce biogas
This can be used as a renewable energy source for heating or electricity
They also create natural fertiliser as a by-product
Rainwater capture systems:
Buildings can collect rainwater to be reused for non-drinking purposes, e.g. irrigation or flushing toilets
This reduces the demand on local water supplies
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