With the aim of conserving fuel and power, the Government’s new Approved Document L, (a key stepping stone to the more rigorous Future Homes Standard 2025), will start to make a difference to the environment and reduce fuel bills. New homes, where planning permission is submitted from June 15th onwards, must produce around 31% reduction in current standards for operational energy in the building.
Operational energy encompasses both building fabric, and technology (renewables). New SAP 10.2 methodology applies, which combines the building fabric U values (heat loss over surface area) and the PSI values (heat loss through the junction). The operational energy comparison diagram below outlines both current and future operational energy RIBA standards & Passivhaus.
The best way to conserve fuel and power is to use very little in the first place, and this is mainly achievable through the thermal efficiency of the building fabric. As the owner of a SIPs home built in 2020 puts it: “It was a total revelation to move into such a beautiful home in the Highlands of Scotland that effectively doesn’t need heating. This makes it a comfortable house to live in as it also means there are no rapid fluctuations of heat.” The home meets, if not exceeds, Passivhaus standards as do many SIPs-built properties.
The legislation applies to all new homes including self-build, and improvements to existing homes whether planning permission is required or not. See the Part L table below for how increasingly rigorous standards will play out.
Table 1 | 2013 regs | Part L June 2022 | |
---|---|---|---|
U values walls | SAP Notional Dwelling | 0.18 | 0.18 |
New homes | 0.3 | 0.26 | |
Extensions | 0.28 | 0.18 | |
U values roofs | SAP Notional Dwelling | 0.13 | 0.13 |
New homes | 0.2 | 0.16 | |
Extensions | 0.16/0.18 | 0.15 | |
U values floors | SAP Notional Dwelling | 0.13 | 0.13 |
New homes | 0.25 | 0.18 | |
Extensions | 0.22 | 0.18 |
Right now, the biggest hurdle between the old and new regulations will impact those designing home extensions and alterations, and looking at the reduction in operational energy afforded by using a more effective building fabric is a good place to start.
Trevor Clements, Head of Business Development at Hertfordshire Building Control put it this way, during the BBA Future Home Standards webinar in November 2021: “There may be a few of you out there who are involved in extensions & alterations to dwellings, where it’s a bit more than a tweak…walls from 0.28 to 0.18 (SAP rating)… it will be interesting to see how designers and industry hit that standard with your traditional cavity walls, brick and block. Are we going to be seeing more use of high efficiency insulation…because that’s going to be a huge cavity if you are going to be using mineral fibre or fibre glass bats to achieve that mark?”
As one of the UK’s leading manufacturers of insulated panels, Hemsec is talking to an increasing number of architects and designers who need to deliver on these SAP ratings cost-effectively, as well as those designing for fast-track building projects.
The company has the widest range of SIP sizes available anywhere in the UK, which means U values to suit walls, specific U values to suit roofs and U values to suit floors.
The further the design and specified construction methods go towards future standards now, the better future-proofed the property. It gives developers the wherewithal to offer their customers lower fuel bills now, and a built-in resale value for the future.
But it is not just lower U values where SIPs score. With larger cavities now required for brick and block insulation, internal space will be eaten up, and so the case for SIPs - relatively narrow structural panels with built-in insulation – becomes more compelling than ever, especially in relatively small spaces.
To attain a U value of .18, there is a gain of nearly 1m2 additional floor space when using SIPs instead of brick and block, in this 7m x 4m home extension example:
With a need for extra cavity insulation to meet the new standards, the total thickness of a brick and block wall is 393mm, made up of bricks 102.5mm; cavity filled with 150mm insulation; 100mm block; 25mm space created by dot and dab, 1 x plasterboard 12.5mm and 3mm skim.
It’s important to note that, according to the NHBC, some developers are already trialling 225mm cavities in readiness for the Future Homes Standard 2025. This would give a total thickness of 468mm on the above calculations, which is 125.5 mm thicker than SIPs.
The total thickness of a SIPs wall: 150mm SIP; bricks 102.5mm; cavity 60mm; breather membrane 2mm; 2 x plasterboard 25mm and 3mm skim
The example above uses a 150mm SIP. If a 200mm SIP were used, the U value would increase to 0.13, which reaches Passivhaus standard (0.1) with just the building fabric alone.
At these levels, the property is warmer in winter and cooler in the summer with barely any heating or cooling required.
Other considerations for the supply chain on the road to carbon net zero
Change is rarely easy, and the UK construction industry has resisted it for many years. In comparison with other countries in Europe, and worldwide such as the USA, we could be seen to be lagging. Now that the government is enforcing change in order to save the planet, it’s time to move forward, and designing with SIPs will ease the burden.
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