truss parameters, such as type, dimensions, and other product data.
Undertake a pre-demolition audit to understand the potential for reuse on the existing site.Use this information to develop sustainable construction design solutions..
Understand the potential reuse of buildings or building components locally, including the need to transport and store materials.. Balance cut and fill to reduce off-site waste and new material brought to construction sites.. Use lean design principles to reduce the amount of material overall.This will also reduce the embodied carbon..Consider design for deconstruction at the start of the design process rather than try to retrofit it into the design part way through.. Be clear on the potential flexibility that is needed by the proposed occupants and consider what future flexibility could be included with minimal additional materials, allowing the building to be adaptable and future-fit..
Embrace digital design to have more understanding and control over the design decisions and material quantities.. Use recycled materials wherever possible and adapt project aspirations to suit..Develop clear and concise operation and maintenance (O&M) information to enable the future building to be well maintained and have the potential to be reused or recycled as valuable components in the future..
Consider each layer of a building, with a different strategy for each which responds to the life expectancy of each layer..
Conclusion: driving greater sustainability.In Germany, specific regulations about the use of recovered heat are coming into force.
There is a great opportunity to use the recovered heat from DCs.However, there are significant problems in exploiting this, and there are country and regional variations in how schemes can work..
In northern Europe, there is a precedent in community heating schemes, whereas in the UK this has never been common.There are no established bodies or groups who can or will take the responsibility for installing and running these schemes.