Circular construction
Circular construction, the application of the circular economy to the construction industry, aims to close building material loops by reusing, sharing, leasing, repairing, refurbishing, upcycling or recycling rather than continuing the traditional take-make-consume-dispose process. It is about considering how to maximise the lifespan and reusability of entire buildings or materials at the very start of the design process.
|
The circular economy is an alternative approach to how we design, make, use and dispose of things. Instead of the traditional linear model of take, make, use and throw away, it promotes systems in which resources are kept in use for as long as possible, waste is designed out, and materials are recovered and regenerated at the end of their life. The idea is built on the recognition that the world’s resources are finite, and that economic growth and social development must be achieved without depleting natural systems or creating unsustainable levels of waste.
For the construction industry, the circular economy is particularly relevant. Construction is one of the largest consumers of raw materials and accounts for a significant share of waste generation and carbon emissions. Every year, millions of tonnes of materials such as steel, concrete, timber and glass are extracted, manufactured and transported to build new homes, infrastructure and commercial developments. At the other end of the cycle, demolition and refurbishment produce huge volumes of waste, much of which is either discarded or recycled into lower-value products. This approach is costly, environmentally damaging, and places pressure on already strained supply chains.
Circular economy thinking seeks to change this picture. It means designing buildings and infrastructure with longevity, adaptability and future reuse in mind. Materials should be chosen not only for their performance but also for their ability to be reused or recycled. Increasingly, designers and contractors are using digital tools such as Building Information Modelling (BIM) and material passports to record the properties and location of products, ensuring that they can be recovered and reintroduced into new projects when a building reaches the end of its useful life. Offsite and modular construction also play an important role by making it easier to assemble and disassemble buildings, reducing waste and enabling components to be reused.
The benefits of this approach go far beyond reducing waste. By extending the life of buildings and reusing materials at their highest value, the circular economy reduces the demand for virgin resources and lowers carbon emissions associated with extraction and processing. It encourages innovation in business models, creating new opportunities around refurbishment, leasing, repair and materials recovery. It also helps strengthen the resilience of the construction sector by reducing reliance on imports and making better use of domestic resources.
The UK has set ambitious targets for achieving net zero carbon emissions by 2050, and meeting these goals will require a fundamental shift in the way construction operates. The circular economy offers a practical framework for doing so, but it will require collaboration across the industry. Clients, designers, contractors, suppliers and policymakers all have a role to play in embedding these principles into the way projects are conceived, procured, delivered and deconstructed. Investment in skills, technology and infrastructure will also be necessary to scale up solutions and make circular practices mainstream.
For those involved in the built environment, understanding the circular economy is not just an academic exercise. It represents a real opportunity to rethink the way buildings are designed and delivered, to reduce environmental impact, and to create long-term value for businesses, communities and the planet. By shifting towards circular models, the UK construction industry can play a leading role in building a more sustainable, efficient and resilient future.
[edit] Related articles on Designing Buildings
- Circular economy case studies
- Building transformation: concepts and definitions
- A social, circular economy
- Construction waste
- Cradle-to-grave
- Design for deconstruction
- Embodied energy
- Life cycle assessment
- Reduce, reuse, recycle
- Site waste management plan SWMP
- Sustainable materials for construction
- Whole-life costs for buildings WLC
- Wood and the Circular Economy
About the wiki
You can use and contribute to the wiki in different ways.
[edit] Engaging with the wiki
You can:
- Contribute to existing articles
- Create articles
- Share articles through social media and other channels
[edit] Add your own content
To contribute to or create an article, you can follow these steps:
- Register as a user
- Read through the editorial policy and guidance on writing and contributing to articles
- See the detailed help page on tips on writing wiki articles
- Try editing a test article
- If editing an article, select 'Edit this article' underneath the article title
- If creating a new article, select 'Create an article'. In the 'Select categories' area, expand the 'Industry context' list and tag 'Circular economy' to add your article to this wiki
[edit] Who is this wiki for?
The articles contain information on implementing circular economy approaches in construction that could be relevant to:
- Architects
- Construction contractors
- Designers
- Developers, owners, investors
- Engineers
- Landowners
- Manufacturers and supplier
- Universities and research
- Urban planners