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In 2020 total human-made mass, weighing 1154Gt, overtook total living matter. 98% of it is in the built environment.
Construction consumes around 50Gt of minerals, 1Gt of metals and 265Mt of timber worldwide each year.
"Becoming circular is fundamentally aligned with efficiency, creating competitive advantage, stimulating innovation and opening new revenue streams."
Annually, worldwide, creating and upgrading the built environment also generates spectacular volumes of waste: 2.2Gt from construction and demolition, and 100Gt from mining minerals and metals. Add to that 11.2Gt of municipal solid waste and 360Gt of wastewater we collectively generate living within the built environment.
Our consumption of resources and production of waste are driving climate change, biodiversity loss and social inequality. And, within a generation, the built environment is forecast to double in size; total global waste production will grow by half.
The built environment is at the heart of an existential challenge. Together, we can address it. Work with us to develop the circular economy: rethinking resources and waste for a sustainable future.
Currently the built environment value chain is focused principally on construction. The circular economy is about recognising and conserving the value of resources, with the aim of achieving the smallest negative and the greatest positive environmental, social and economic impacts.
In the built environment the circular economy is concerned with two principal ‘waste’ streams: Wastes arising from the physical processes of creating, caring for and demolishing buildings and infrastructure. And wastes generated by us and our use of the built environment, such as wastewater, solid waste and heat. It treats all waste as resources.
Many natural resources are irreplaceable. We therefore need to care what happens to them from the moment they are extracted – including their transportation and processing into construction materials and products, their incorporation into buildings and infrastructure, the use, maintenance and repair of those assets, their eventual removal, and the treatment of the arising ‘wastes’.
Circularity involves keeping materials in use by sharing, leasing, adapting, reusing, repairing, refurbishing, reclaiming, remanufacturing and lastly recycling. When resources are remanufactured and recycled, a key goal is to retain – or at least minimise loss of – performance and value between first, second and tertiary uses.
Wastewater and organic solid waste are nutrient and energy rich, and for as long human society exists they will be in constant supply. Circularity involves recognising, harnessing and maximising the value that can be obtained: by treating these streams as resources for energy generation and industrial and agricultural production.
We must become circular to meet future socioeconomic needs while restoring biodiversity and strengthening stressed natural systems, cutting carbon emissions, and improving outcomes for society.
Becoming circular also creates new business opportunities. It is fundamentally aligned with efficiency, enabling early movers to achieve more with less and gain competitive advantage from doing so. And creating the circular economy requires innovation and enterprise, enabling organisations across the whole built environment value chain, and new entrants, to develop new revenue streams.
The circular economy requires the built environment value chain to adapt, treating materials and assets differently and developing new skill sets to do so.
There’s opportunity to create new businesses, perform roles and provide services that haven’t been imagined yet, and to connect between different economic sectors. Organisations across the value chain will transact differently in the circular economy. We need commercial models that incentivise innovation, reward outcomes, and share risk and reward fairly.
Global demand for materials, resource scarcity in the natural environment, growing awareness of the true cost and value of materials, and an improved understanding of materials currently embedded in the built environment and in use… combined, these factors encourage and enable:
Why are we putting O&M as step number one?
In mature economies, new construction adds an estimated 0.5% per year to the value of the built environment. Seen another way, 99.5% of our buildings and infrastructure already exist.
Therefore, thinking and practice to create the circular economy should start with buildings and infrastructure in use. The best way to avoid waste is to keep existing assets and the resources embedded within them working, providing services and delivering value.
New approaches to organisational and spatial planning are both essential. Organisations right across the built environment value chain, from major clients to small suppliers, must specify circularity as a fundamental outcome – for themselves and for those they transact with. And they must arrange themselves so that materials can be traded and exchanged with maximum retained performance and value.
You’re probably familiar with DfMA – design for manufacture and assembly. The circular economy requires design for a much wider range of stages and activities including manufacture, assembly, adaptation, repurposing, repair and disassembly – design for ‘X’ or DfX.
Developing the circular economy calls for new commercial approaches and relationships right across the value chain. Tender criteria and bid evaluation need to be aligned with the circular economy, with appropriate scoring, contracts and commercial incentives. Greening procurement requires clear vision and effective leadership, workforce upskilling, appropriate standards and performance metrics, and robust governance.
As the circular economy grows and becomes more sophisticated, with ever greater numbers of organisations connected into it and trading in resources, the economic, social and environmental benefits will multiply in number and value.
As the rethink takes hold, we will begin to view the built environment not just in terms of buildings, assets, networks, systems and the services they provide, but in terms of resources. We need to begin tracking materials embodied in the built environment, with a view to recovering and using them in new projects. And we need to quantify and find uses for the organic solids.
Digital twins will be essential for both, enabling organisations across the whole supply chain to assess resource availability, and match resources to needs, for example by:
Digitalisation is also fundamental to the development and scaling of practical tools to deliver the circular economy such as 3D printing, offsite construction, on-site production lines, modular design and DfX.
People are change agents. Their choices and behaviour, desired outcomes and objectives, determination and drive matter. Developing the circular economy calls for new skillsets, and provides professionals with the chance to develop them, creating opportunity for career development – even career reinvention.
Training, education and reskilling are required. For individuals and organisations, the investment will support transformation of the built environment, its creation and management, for the benefit of all.
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