JohnMo

Not sure BCO will give a monkeys. If the SAP report says you pass go, you are good to go. It's what the SAP assessor wants really. Mine wanted manufacturers calculations for U value for the whole window.

The kit was pretty easy overall, the additional insulation added a bit of complexity but it's very solid, pretty much keeps noise out, so quite overall. Only downside is overall airtightness. Better sliding doors would help. But at the end of the day with the dMEV fan ticking over, it's humidity stays nice and low. Heating - doing it again I would do a through wall Aircon unit for heat and cool, instead of tying into the house. The experimenter in me, would do a Larson strut if doing it again.

That was my thoughts also, one of the key selling points is you don't need steel, other than rebar. Other thought was why do you need an 8.4m wide opening. Other was this, for an 8.4m opening?

Not really you should have a 3 point actuator, so it will have power to move one direction and power to move another, plus it will need to read flow temperature

The word should is what makes people nervous, "should" and "is" are very different. Plus all the talk about fires starting from the MC4, it's more likely a "should" than "is", for safety. I prefer to be on the safe side and know when I come to pull the inverter, it can be completed without live high voltage DC kicking about.

To get a notification sent to someone type "@" and continue with no spaces to type the person's name. You will get a drop down list, choose the person - done. Comes up like this in the message @Nickfromwales

Couple of things to watch for. UFH works well with plenty of insulation and with zero insulation, but works very differently in both systems. Different flow temps are needed and different running regime. So don't let loops cross the two different floor build-ups, have dedicated loops in each section. You may want to to run two different manifolds and mixers for each section. They may need very different running temps. The zero insulation build up will require a very low and slow running regime, if you switch it off you will have reheat the whole sub floor each time, which will use loads of energy. The way to operate is to switch on at start of heating season and off at the end of the season. If you really don't want to do that install radiators.

Sorry have never bought in to that. The inverter DC isolator is fine for working on the PV array. But not fine to allow replacement of the inverter. You really need to be able to positively isolate the array, and AC sides to safely remove the inverter. I have 3 arrays and each has a dedicated DC isolator for the array as well as a DC isolator in the Inverter.

Limited head room already, I really would explore the big room feeling of a vaulted ceiling, will make your life so much easier, the additional headroom will make room feels way less cramped. Make a central flat section for running MVHR ducts.

By far the easiest is to put the insulation on top of the rafters, is that possible?

Looking at the drawing, not sure how you will be able to assemble without loads of joints. The material between the rafters will be fine, just a pain cutting. The under drawn sheets you will never get them in big sheets in place there isn't the space. Needs a bit of a constructability review

Depth for depth, done perfectly PIR on paper out performs mineral or natural wools and cellulose. But getting PIR to fit perfectly isn't the easiest job. So realistically natural or mineral wool may out perform PIR by a country mile. Plus there is decrement delay - how quickly the insulation allows heat to penetrate in to the room. The denser the better PIR is pretty rubbish.

Good luck cutting that straight and square. I would fill with cellulose or mineral wool. A drawings may assist visualisation. Why not make it vaulted?

Think you have missed my point. In Scotland you are not allowed to install smoke alarms in kitchens - you have to install heat alarms. They are not the same thing.

That's why you don't install smokes in kitchens, you do heat detectors so they detect real fires, not a cooking smoke. Been using heat detectors in kitchens (various houses) and smokes elsewhere - never had a nuisance trip.

Dust collection just use a Henry vacuum. Use a HEPA filter version, and get plenty of bags as they clog before they fill. The guy that did our jointing for the dry lining used a cheap hepa vacuum from Screwfix, he binned them every couple of years, but way cheaper overall than some of the stupid priced ones. A tip I found many years ago, when joint filling is allow filler/joint compound to dry. Use a good decoration sponge or a cloth, wet in lightly wring out and use as a sander lightly. It will take all the lumps and bumped off between coats, with zero mess or dust.

Really wouldn't do stand alone get them linked. Buy ones with a 10 year lithium battery units, that self radio link together. No smoke alarm in kitchen, use a heat detecting alarm, which interlinks to smoke alarms elsewhere in property. Alarms need binning after 10 years, so no advantage having mains powered really. Wouldn't touch a smart smoke alarm, get tried and tested brands. Aico, etc. If you want a robust system, follow the Scottish rules, way more robust than the English rules. https://www.mygov.scot/home-fire-safety

You would normally pre plan and have a pull cord in the conduit prior to install. You may find it easier starting one end or other end depending where the bend is. You can get electrician Flexi rods for doing cables

That's a good price, make sure he has the G3 certificate. Once the pipes are at the cylinder, which is job from the sounds of it there really isn't that much to do piping wise. Is this new build or retrofit? What are you doing with cold water going the taps, is that coming from the cylinder multibloc control valve? If not you need to plan a pressure regulator valve where the water comes in to the property after the stop cock, so hot and cold pressure stays in balance. If going that route you also need a check valve at the hot water outlet from the cylinder. Isn't a 210L cylinder pretty big for a direct cylinder where you can easily heat to 70+ degs?

We had a similar reaction a decade or so ago in our last house. Plumber wanted to install loads of radiators., way more than needed. Start from the basics, work out room heat loss, then size radiators appropriately. Go with manufacturers data, not a finger in the air from a plumber. Ensure you size to radiator to temperature differential between mean radiator temperature and room temperature. All the data is the manufacturer datasheets.

Don't bank on any size staying around long. Just bought some 500W panels and they were actually smaller than the datasheet, things move pretty quickly. If you have space to store, buy some extra panels just in case?

Have you seen recent threads? Several failures, wouldn't touch them with a barge pole. Pretty rubbish for a heat pump as it requires heat pump running at high temperature for the whole heating cycle. Just get an unvented cylinder - tried, tested, cheap, installer friendly. Does the wheel need to be reinvented? No

Wouldn't have any locked storage on site, just an open invitation for a toe rag, to look at nicking whatever is in there. Tell trades to take tools and equipment away at end of the day. If it nicked from your site you have to replace it. Think site offices are fine on a major build site, but a self build, why? If the contractor needs one let them supply, otherwise don't. Welfare cabins end up filthy, that's why the trades sit in the vans. I didn't bother with any of it. I got a portaloo and it was serviced by the hire company.

To quote someone, so they get notified, you type '@' then start typing the name, a dropdown list appears and you choose the person. Whole front, one end and a full height gable on the rear. The rest is stone slips.

It's pretty easy to do yourself.