Digital design of building structures for optimised cost and carbon performance

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Title
Digital design of building structures for optimised cost and carbon performance

CoPED ID
8bb5a82b-62be-462c-97d0-eb0ddad5fe52

Status
Closed


Value
£417,866

Start Date
Sept. 30, 2018

End Date
Feb. 28, 2021

Description

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"The construction sector has been identified as a major contributor to global environmental changes resulting from human activities. Recognising relationships between material use, carbon and cost efficiencies has been a major challenge for engineering practitioners and researchers since the link between carbon emissions and climate change was established. Whilst in use carbon emissions has been reduced through more stringent regulations embodied carbon assessment is in its infancy. Currently, structural engineering design practices focus primarily on cost minimisation, but with increasing concerns about the sustainability of buildings, structural engineers have also begun to investigate how the optimisation of structural systems at the design stage could influence the overall life-cycle performance of buildings.

This proposal builds on a prototype developed as part of a previous Innovate UK project. This prototype allows structural engineers to improve the material efficiency of steel-framed buildings, reducing their cost and embodied carbon emissions by 10-40% through a rigorous optimisation analysis and the selection of the best early design schemes. Using that prototype as the starting point, the current proposal aims to extend this new design practice to the optimisation of other commonly used structural typologies, in particular reinforced concrete frames, which could lead to similar improvements and allow comparison between the most common structural typologies.

The previous study identified that focusing efforts on gaining efficiencies at early scheme design offered the greatest potential for performance improvements, as well as minimising costs and the risks. To achieve this objective, the project will develop a novel technology solution into a software application that can quickly analyse different structural materials (concrete, steel, timber), construction technologies (floor types) and other design parameters such as applied loads or foundation types to find the most carbon efficient structural configuration - but without compromising total costs. In addition to the potential cost and embodied carbon savings that can be directly delivered by the new technology, significant productivity improvements in design generally are to be expected due to the automated nature of the proposed novel design and verification procedure.

Overall, this proposal aims to challenge current practice, enable better integration across disciplines, and deliver solutions optimised in terms of current and likely future drivers, particularly resource use, embodied carbon and cost."

Price & Myers LEAD_ORG
University of Cambridge PARTICIPANT_ORG
Price & Myers PARTICIPANT_ORG

Ben Gholam PM_PER
Ben Gholam PM_PER

Subjects by relevance
  1. Emissions
  2. Climate changes
  3. Costs
  4. Construction
  5. Environmental effects
  6. Greenhouse gases
  7. Optimisation
  8. Timber construction
  9. Decrease (active)
  10. Sustainable development
  11. Structural design
  12. Carbon
  13. Design (artistic creation)
  14. Environmental changes
  15. Structural engineering
  16. Concrete structures
  17. Life cycle analysis

Extracted key phrases
  1. Structural engineering design practice
  2. Digital design
  3. Carbon efficient structural configuration
  4. Use carbon emission
  5. Good early design scheme
  6. New design practice
  7. Early scheme design
  8. Carbon performance
  9. Novel design
  10. Design stage
  11. Design parameter
  12. Cost efficiency
  13. Carbon assessment
  14. Carbon saving
  15. Potential cost

Related Pages

UKRI project entry

UK Project Locations