I would suggest going down to ground level all around. It will reduce the cold bridge you will otherwise get if you stop the EWI just below the internal floor level. What plans do you have for insulating the suspended floor?

Several posts on here about the non-issue of taking EWI over the DPC.

Hopefully FT and Tony will be along to add their tuppence.

You could phone Wetherby and ask their opinion.

If all else fails get the work done and then lodge a complaint that it's been done incorrectly and you are concerned about cold bridging and condensation.

My EWI which was Green Deal funded has numerous issues that I've picked up on from here.

However, as it was a freebie and the whole house needed rendering anyway at the rear I can't really complain as it was essentially a bonus.

Lookup John Hemphill at a company called EWI Pro, say number came from me sure he will be able to advice, if you have a system provider in hand they should be able to advice just double check with the aforementioned

I should have added more detail to this as the image is not clear.
One single wall shared by two properties. Rhs has the EWI cladding. Lhs has glass-fibre roof with lead flashing ( and all covered in debris ). In the centre is the gutter and this is because the slope of the flat roof is down from left to right.
The flashing solution would be to create a corner, perhaps let into the insulation. However, that still wouldn't seal the gap under the flashing above the deck bearing in mind that water is flowing over the deck from left to right.
Correcting the obvious mistake may be possible (who builds flat roofs with pitch to the party line?) but I was wondering if there was a different solution.

Resurrecting an old thread just for the title.

Retrofit EWI:

What are your favourite, and least favourite, details, and what details are you still unhappy with in terms of their ability to last the life of the system?

Perhaps I'll start:

Favourites:

- Roof properly extended at eaves and verge as required to fully cover (and sufficiently oversail) the EWI or

- Well-formed bespoke 'cappings', either 'self-built' of lead/lead alternative (if sufficiently durable) or purpose-made of welded alu.

- Use of expanding foam tape at openings and 'ends'.

- 'Main wall' EWI sits directly (not on a base-rail) on top of a slightly-recessed 'plinth' of 'below-DPC' (whether or not there actually is a DPC) EWI, which may or may not be of a different material (as discussed in other threads). A drip should be incorporated, and if there is anything between the 2 layers I would suggest I strip of expanding foam tape and several beads of adhesive Pu foam, rather the 1 strip of expanding foam tape (and a lot of air 'approved' by some system providers.

- Adhesive/meshed beads to adhere to window. Silicone seal over.


Least favourites:

- Systems which stop at 'DPC level', even when the DPC is an injected one *above* floor level.

- Silicone as the *only* seal at openings.

- 'Industry-standard' cappings where eaves and/or verge cover is not provided by the roof, installed with silicone as the only long-term weather seal, and often installed below first floor ceiling level.

- 'Silly' details of all types. A few examples include EWI cut out for cables, road-signs, because the installer did not provide a flue extension, etc. etc.

- EWI stopped above flashings on bays or offshots.

I am sure I will come up with more!

Nick

I take your point, gravelld, but the BBA Cert for the system I am currently using does not cover the below-ground installation anyway. However their guarantee will cover everything above that, and they are happy in effect, from a g'tee point of view, to treat the plinth layer (with a drip) in lieu of a base-rail.

I feel the 'systems' are sometimes too inflexible, and some of the standard details (and, to be fair to the standard details, the way they are sometimes installed by people with no understanding of thermal by-pass, thermal bridging etc.) are less than ideal. Too much reliance is placed on a gob of mastic.

Posted By: Nick ParsonsHowever their guarantee will cover everything above that, and they are happy in effect, from a g'tee point of view, to treat the plinth layer (with a drip) in lieu of a base-rail.

Cool, can you whisper the system?

Drips stop water running back along the horizontal surface and getting into any small cracks (and then expanding said cracks when it freezes).

Posted By: djhDrips stop water running back along the horizontal surface and getting into any small cracks (and then expanding said cracks when it freezes).

With EWI The only horizontal surface would be the one created by the 'drip'. So if the 'drip' is there it is needed - because of itself and if it is not there it is not needed

I also abhor drip or in fact any discontinuity in the EWI face or body, just above GL. Of all locations, in that splash zone it ought to be seamless. So Nick, why did you put it in your 'good practice' shortlist?

Again - depends! For roof extension - just extending gables is definitely a cost but it's not too bad according to my research (less so eaves).

Meanwhile, the impact of insulating below the DPC can be significant if it means moving drains etc.

Are you referring to the contents of the drain or the financial cost?

What's a favoured detail for pipes coming through the EWI?

Wetherby provide one: https://www.wbs-ltd.co.uk/wp-content/uploads/2016/10/EWI-SILICONE-18.pdf but it's nothing fancier than 'EWI and render up to the pipe, then silicone round the pipe'. For internal pipes we use gaskets such as pro-clima's roflex. Shouldn't there be something a bit more long-term reliable than surface silicone for the outside? i.e maybe something like those gaskets built in to the render system at the mesh layer?

Posted By: wookeyFor internal pipes we use gaskets such as pro-clima's roflex. Shouldn't there be something a bit more long-term reliable than surface silicone for the outside? i.e maybe something like those gaskets built in to the render system at the mesh layer?

The internal gasket is there because the airtightness and/or VCL is usually internal. Incidentally for pipes I found it more convenient to seal internally using lots of short lengths of stretchy tape (Siga Rissan) rather than pre-made gaskets. For both my insulated MHVR ducts and ducted plumbing runs it was easier to create a seal.

Externally the render just seals fairly tight to the insulated ducts in my case and the terminal covers it to make it neat. I'm not too worried about how tight the seal is. The duct slopes slightly down of course to encourage liquid water to run outwards. But I'm not concerned about air or vapour tightness so I have no need of a seal.