Abstract
Numerous local authorities are committed to constructing buildings to net-zero carbon emissions performance, and have declared carbon emergency, striving to reach carbon neutrality well before 2050. However, buildings in the UK are currently being designed and constructed to current building regulations which do not require net-zero performance, and these buildings will last well beyond 2050. This paper presents a case study of a housing development in Hertfordshire, UK, where a structured approach for achieving net-zero carbon performance homes was developed. The methodology was based on dynamic simulation modelling to design buildings which achieve net-zero operational emissions, and an industry standard inventory of carbon and energy database was used to evaluate embodied emissions in building materials. The approach comprised of developing dynamic simulation models to investigate the improvement in energy performance of the development through fabric-first approach, focusing on building envelope design prior to introducing renewable energy systems, in order to achieve operational net-zero carbon performance. Carbon emissions (operational and embodied) were investigated to assess the appropriateness of the deployed strategies. Dynamic simulation results combined with embodied emissions analysis illustrated that, by combining embodied and operational emissions, a net-zero carbon performance would be achievable by the 2050 target only if alternative building materials based on photosynthetic bio-composites are used. This analysis also highlighted the limitations of conventional retrofit interventions carried out 10 years after the construction as they resulted in increased embodied carbon emissions, thus lengthening the time period well beyond the 2050 target for achieving net-zero carbon performance. As the use of conventional materials appeared to delay the achievement of net-zero emissions by several decades, the only way to achieve net-zero targets before 2050 is to design new buildings to be carbon negative from the operational point of view and to use photosynthetic materials for their construction.
Highlights
BackgroundThe current regulations for UK housing construction do not require the new buildings to be designed and built to net-zero emissions.we are in a challenging situation where new buildings, which will last well beyond 2050, are being designed and built to far lower standards than net-zero
This paper has presented a case study where net-zero carbon performance was achieved through 100% reduction of operational carbon emissions, and gradual reduction of embodied emissions based on negative operational emissions over several decades
With net-zero operational carbon emissions set as a target and improving the thermal insulation envelope between each simulation run, this was achieved by the set of parameters shown in Table 2, combined with renewable energy systems as shown in the same table
Summary
BackgroundThe current regulations for UK housing construction do not require the new buildings to be designed and built to net-zero emissions.we are in a challenging situation where new buildings, which will last well beyond 2050, are being designed and built to far lower standards than net-zero. Some initiatives are starting to emerge, including the RIBA’s climate change plan (RIBA, 2019) or the UK Architects Declare Climate and Biodiversity Emergency (Architects Declare, 2019) to encourage the profession and wider construction industry to achieve net zero whole life carbon for all new and retrofitted buildings by 2030. As these plans are in initial stages and will need time to be implemented across the building industry, we are still far from achieving the expected results as set out through fourth and fifth carbon budgets (EAC, 2021) using conventional aproaches. A structured and science-led approach is required to take the carbon emissions under control in the built environment sector
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