The Blog were forwarded this review of the latest Homebond Manual by Joseph Little architect on 12th November 2014. For original please click here. For more info on the author please click on his website here: Our Team | Joseph Little Architects
This article was published in Aug-Sept 2012 (issue 12, volume 5) in Construct Ireland’s last edition (the magazine then rebranded as Passive House Plus). It was therefore prompted purely by disappointment at how little had been revised and how inadequately the impact of new common types of construction and the complexity of Part L(2011) compliance were represented. The implementation of onerous amendments to Building Control Regulations and Homebond’s provision of Assigned Certifier services since then has brought the question of the value of this edition of the Manual into even starker relief. Article to follow:
The latest Homebond House Building Manual: a critique
By Joseph Little
The Homebond House Building Manual had the distinction of being called the ‘bible’ for many building during the boom. It was a commonly-used reference book, even for many builders and architects who never built housing estates and therefore had little need of a Homebond guarantee. One might design a construction detail of a dwelling differently, but one did it with an awareness of what the manual showed. It gave the insurance scheme great credibility and standing. This architect remembers reluctantly getting involved with an external wall insulation self-build project in rural Ireland in 2006 (far beyond his normal travel distance) because the local engineers wouldn’t build anything that wasn’t in the Homebond manual. The 6th edition came out just after TGD L(2008) and the new seventh edition has just hit the shelves, some months after the latest TGD L.
A sea change in knowledge and standards
Significantly the latest edition is the first since the boom. The Construction Industry Federation and Homebond (like the rest of the industry) have had time to think about the lack of construction quality that was such a hallmark of mass housing built in the boom, and how to do it better. The mediocre Acceptable Construction Details (ACDs)  came out after the manual’s sixth edition, as did a remarkable series of papers (focusing on the ‘performance gap’) from Leeds Metropolitan University based on their study of the construction of the Stamford Brook housing estate near Manchester (which resulted in changes to UK building regulations). The passive house movement and ethos has also gained ground – indeed FÁS and MosArt recently created the world’s first Passive house builder’s course in Finglas in 2011, as many Construct Ireland readers will be aware. Finally there have been countless papers and exemplar projects in the UK, Ireland and further afield showing how mainstream housing construction can and should change. This writer, who owns a well-thumbed copy of the fifth edition, was therefore genuinely excited to part with €80 in Easons and sit down with the new manual to see if it encapsulated some of this sea change and would regain the place it had earned during the period of the 1991-2005 regulations. Sadly, as you will see, it has not.
The fifth edition related to TGD L(2005) and to energy efficiency standards for new dwellings more than 60% poorer than they are since December 2011. Think of all the industries where a 6% change would result in root and branch changes. A 60% change is seismic and demands a full re-evaluation and profound change and re-education on all sides. However the best way to explain the contents of the new book is that the building culture and technology of 2005 has been re-presented, dressed-up in the latest backstop values.
The section on airtightness is welcome but it is not integrated into the rest of the book. Detail after detail in the seventh edition is identical to the fifth: many, if not most, feature bad thermal bridges that could be easily resolved, such as can be seen in figure one. Incredibly, drawings show 100-100-100 cavity walls with 50mm partial-fill insulation, discredited hollow block with internal wall insulation, floor joists built into walls and duplex housing conditions that have been known to run with condensation. Details such as back sills and pressed metal lintels – which were relegated to what I consider the ‘sin bin’ of appendix two of the ACDs due to their unacceptable thermal bridge impact – are presented here as good practice. There are no external insulation details shown, no full-fill wide cavities, no ‘warm stud’ approaches to timber-frame or joists, no closed panels or SIPs and no under slab insulation.
Figure one: outdated details Extracts from the seventh edition of the Homebond House Building Manual
It may be argued that the (mostly) re-used graphics show key concepts and designers and builders are expected to extrapolate from these, but why should they if they bought a new book? How does that help limit risk and deliver high quality buildings?
It may also be argued that the manual is fundamentally about avoiding settlement, cracks and leaks – not about the use of insulation – but this is also unacceptable. As energy efficiency standards rise and rise insulation and structure cannot be separated. They impact upon each other continuously and the solutions used must be integrated. Architecture students in college are taught that if you haven’t drawn it you haven’t thought about it. If the authors of the manual had drawn a wide cavity they would have seen that the window frame is too narrow to act as a fire-rated cavity closer. They would then have had the opportunity to discuss acceptable and non-acceptable cavity closers, and propose methods of holding the window in place: all practical issues builders need to know about. They would also have had the chance to talk about blown bead insulation and low thermal bridging cavity ties.
By not showing under slab insulation or external wall insulation the opportunity to discuss the structural implications of insulation continuity was lost. New details could have shown how thermal and structural continuity is possible with AAC or Foamglas blocks. Showing woodfibre sarking boards on a warm roof buildup could have given a chance to discuss the types of fixings necessary as well as the practical advantages for roofers, besides the reduction in repeat thermal bridges and improved decrement delay.
EPC & U-values
Builders and designers need practical guidance on what U-values are acceptable.
The average maximum U-values (also known as ‘backstop’ U-values) in table one of TGD L in 2005 were better than the values most housing estate builders used – the overall heat loss method of proving compliance allowed relaxations, such as from 0.27 to 0.37 W/m2K in the case of walls. In the 2011 update table one backstop values have become far more onerous – for instance the backstop is now 0.21 W/m2K for walls – yet to ensure compliance building fabric components should be designed and built to a far higher standard again – close to 0.14 W/m2K. This is a world apart from Boom-time values, as figure two makes graphically clear. This is because compliance with the whole-dwelling energy performance coefficient (EPC) value (calculated in DEAP) has been driving building fabric performance since TGD L(2008). Complying with backstop values is a second – and typically much easier – target.
Of course it is possible to build a wall to 2012 0.21 W/m2K but – without opting for an absurdly large renewable energy system – this would then almost certainly necessitate large levels of compensation in all other elements, resulting in a compliant but unnecessarily expensive dwelling. The best and most sustainable way to achieve compliance is always to minimise energy demand first through use of simple, ‘dumb’ technology that does not need a power source and has low maintenance requirement: i.e. appropriate, well-designed, well-applied insulation! This approach is often called a ‘fabric first focus’.
Figure 2 – the progression of wall U-values since 2005 Extract from Building Fabric Design, an RIAI CPD event
The new manual gives a caveat at the bottom of page 469 without further explanation that “one or more of the backstop minimum performance levels outlined above may need to be exceeded”. Elsewhere it warns that “by using the back stop value above, overall compliance with TGD L(2011) may not be achieved”. But it’s not a case that “one or more” value may need to be exceeded – in practical terms all of them should be! To not stress or explain such a crucial and complex issue is unacceptable.
In contrast the Department of the Environment’s own Regulatory Impact Analysis (RIA) document – which was published in summer 2010 when the latest changes to TGD L were out to consultation – made exactly this point very clearly. Amongst other features it shows a useful chart of nine house types listing the key performance characteristics needed for each to merely comply. Despite every backstop values being exceeded in all cases – for everything from heating systems to thermal bridging to airtightness, not just U-values – each of the nine dwellings just reach the maximum permitted EPC of 0.4. This author believes that much of the Industry doesn’t yet understand this regulatory change. Sadly the seventh edition will not help.
The text & taking a position
The manual’s text has been revised to a greater extent than its details but it repeats much of the dry explanations found in TGD L. Unlike the government, Homebond has the ability to be selective; to take a strong position; and to rule-out or promote practices, or forms of construction and technology.
Indeed the manual does this in several places, such as in relation to fire or the construction of foundations or walls, but not when it comes to thermal performance. For instance, a builder may wish to build with internally insulated hollow blocks, and may find some guidance on this in TGD L, but the manual has the chance to educate the builder and show why this is a sub-standard form of construction and what other forms will serve the buyer or client better. If the manual were re-written with this approach it could become a voice for change and higher standards which – after 60% increases in standards of and a disastrous crash in construction – we all need.
This author feels that this edition will inadvertently encourage non-compliant construction. It may also increase the risk of claims against Homebond insurance itself. If the manual is intended to be used by those seeking related insurance, and is promoted as up-to-date and reliable and yet is not, it surely becomes a risk to its authors.
To ensure that the performance gap between required standards and the reality on Irish building sites that has been such a feature of the Boom starts narrowing, instead of widening further, we suggest this manual is either withdrawn and extensively revised, or the industry turns to new, more relevant, sources of guidance and training.
Construct Ireland wrote to Homebond prior to going to print to offer a right of reply to many of the points raised in the above article. A spokesperson said “We note your comments […] & will pass them to our technical department for review,” adding that the review “will not be complete before your deadline”. Construct Ireland has offered Homebond the chance to respond via the Construct Ireland website and awaits the organisation’s response.
Figure 3 – An edited version ( to remove non envelope related data) of table 2 from the department of the environment’s regulatory impact analysis document, which shows that wall U values as low as 0.14 and triple glazed windows may be required to comply with part L
Joseph Little is principal of Joseph Little Architects and the Building Life Consultancy. His practice recently completed what he claims will be Ireland’s first EnerPHit house, which is due to be certified shortly. He and his team teach thermal bridge analysis and hygrothermal risk evaluation(using WUFI. They created and teach two CPD courses for the RIAI on designing new and retrofitted dwellings to
Limiting Thermal Bridging and Air Infiltration: Acceptable Construction Details; July 2008, a document produced by the Department of the Environment in conjunction with SEAI and Homebond
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