IES developed a digital twin of a social housing block in Dublin and assessed the whole-life carbon impact of four retrofit strategies over three time periods aligned with national targets for 2030, 2050 and beyond.
Using its world-leading digital twin technology, IES carried out modelling of three residential blocks located on Lower Dominick Street, Dublin. It assessed the full carbon impact and efficiency of four renovation strategies, over three different time periods, to regenerate the vacant buildings built in 1962. The strategies align with the council’s climate targets for 2030, 2050 and beyond.
The project took a whole-life carbon approach, taking-into-account both embodied and operational carbon. Consideration of embodied carbon, which is the emissions associated with construction and materials throughout the whole life-cycle of a building, is a critical part of sustainable building analysis that is regrettably often overlooked.
The digital twin models were used to identify which strategy, from shallow retrofit to demolition and rebuild, would result in the biggest reduction in whole-life carbon emissions. In order to determine the strategy that would lower emissions most significantly, the main sources of energy consumption were identified by calibrating data from existing energy bills of the social housing site.
The strategies were as follows:
Each strategy consisted of a package of energy efficiency measures. IES’ core Virtual Environment (VE) software was used to understand the impact on energy usage and operational carbon of each measure through dynamic, physics-based simulations. This allowed them to understand which strategy would bring the biggest reduction in operational emissions, which, as expected, was Strategy 4.
In order to understand the whole-life cycle impact of the interventions, the integration between the VE and OneClickLCA was used to calculate the embodied carbon associated with each intervention. Once this was added to the operational emissions, and estimated at different life periods (20, 40 and 60 years), Strategy 3 outperformed Strategy 4 due to the high embodied carbon associated with a full renovation, as it can be seen in the Figure below.
Strategy 3 (Deep Retrofit) was hence selected as the best option to optimize the whole-life carbon of the building over all life-cycle periods assessed. The full results are included in the Dublin City Council Climate Resilient Housing Report, which highlights that over a 60-year life period, each residential block can achieve around an 85% reduction in cumulative emissions by carrying out a deep retrofit. As a result of the study, Dublin City Council can make evidence-backed decisions when developing the most optimal whole-life carbon regeneration strategy for the refurbishment of ageing social housing buildings.
The project was funded by the Department of Public Expenditure and Reform’s Public Sector Innovation Fund, with IES and DCC in partnership winning the contract to create the digital twin. The results of the project will help Dublin City Council to meet emissions reduction targets, retrofitting targets for social housing, and housing delivery targets. As more targets are imposed by the government to mitigate climate change, new systems must be developed to assess the strategies for derelict buildings.
Following its success, it’s hoped that the study can be scaled to other sites across Dublin and beyond to estimate the carbon impact of renovation projects.
“This project has demonstrated the results that can be achieved through working collaboratively, exchanging knowledge to drive innovation and meet targets. IES’s digital twin technology has enabled us to confirm the importance of retrofitting to reduce our emissions and we hope that the results can be utilised to inform future projects.”
Sabrina Dekker, Climate Change Co-ordinator , Dublin City Council
Anonymised project outputs can be accessed via the links below:
Decarbonisation Roadmap Dashboard
Interactive City Model