1. Quality assurance of energy-efficient and moisture-safe constructions The sole responsibility for the content of this publication lies with the authors. It does not necessarily reflect the opinion of the European Union. Neither the EASME nor the European Commission are responsible for any use that may be made of the information contained therein.

2. The field of energy saving The developer defines the energy efficiency and quality demands. The designers fulfil these demands to a high standard and high-quality. Supervision of the work creates the proper conditions for making a high-quality building. Workers carry out the construction and details as planned take care that the building materials are kept in dry conditions away from rain use proper materials and equipment use proper tools and working methods keep the site in good condition, take care of the weather shielding and the proper temperature and moisture. report mistakes to the supervisor and do not cover up any mistakes. Utility

3. Prerequisites for the quality of an energy efficient and moisture-safe construction Exercise Give examples of how the different sections affect the energy efficiency and quality of a construction. Plans and instructions Materials and elements Contractors and workers Equipment and tools Site Previous work phases Conditions Energy efficient construction

4. Discuss How an energy-efficient and moisture-safe construction is ensured on site? Plans and manufactures’ instructions are read carefully Durable materials and equipment are used The work order is planned forehand Damp proofing, heat insulation and sheathing boards are installed airtight and sloppy work should not be covered over Heat insulations and the other places are kept dry Drying out building moisture is ensured Everyone does their best with tightness and quality So the work is made with professional pride!

5. Checklist: Installation of the sheathing board and cladding The seams of the sheathing board are matched to the place on the frame. The boards are fastened tight in butt against the skeleton construction. Long-term resistance is ensured, if needed, with strips outside of the seams. The sheathing board should always be well insulated so the timber frame is in warmer and drier conditions. Only breathable papers should not be used. An open ventilation gap is left behind the cladding from down to up. Ventilation gaps are left under and above the windows. The gutters, drainpipes, window panels, rocker panels, storm panels and other cover fillers and drip mouldings direct the rain water away from the wall structure. The corners of the sheetmetal work and the details of the joints are made long-lasting.

6. Checklist Installation of soft heat insulations The insulation fills the whole insulation space. The insulation is installed using light pressure against both the structures and the other insulations. Especially insulations under the floor and ducts should be flattened against the surfaces. The overlapping of the joints, the taping and pressure of the joints, the unbroken and continuous vapour barrier

7. Checklist Installation of vapour barriers The vapour barrier foils are overlapped at least 150 mm. The airtightness of the overlap is ensured with vapour barrier tape or by screwing the compression panel above the overlap against the frame. The vapour barrier foil should not be fixed by rivets alone. Adhesion is ensured with battens, studwork or by taping the rivets Clearance is left where the foils join to the structure (EW-EW, EW-R, EW-BF, IF-EW) Small holes are taped over with vapour barrier tape before the board work begins.

8. Checklist Installation of plastic heat insulation The matching joints between the insulation panels are foamed and installed into butt joint. The width of the joints against the structure is 10-25 mm. The base of the joint is dry and clean The sawn edges of the insulation are cleaned, for example, with compressed air. Deep joints are foamed in two phases The foam gun and flexible foam are used in jointing. The last drops from the foam gun are not used. Change the bottle after the hiss. Foaming margin

9. Checklist Loose-fill insulation The margin for settlement of the insulation in the roof needs to be noted, especially under the diagonals and ducts. Mineral wool insulation panels between joists reduces settlement. The ventilation gap between the facade and the roof should not be blocked with mineral wool. The wind conditions must be checked before blowing loose-fill insulation. The base of the loose-fill insulation should not be too flexible. With plastic foam, the maximum gap between battens is 300 mm. 3 mm thick hardboard can also be used between the plastic and the battening. In an external wall, the underside of through-holes, furniture supports and electric installations must be filled completely.

10. Checklist window installation In concrete framed houses the cement paste is rubbed down on the opposite surface of the frame and the surface is vacuumed up. The air tightness of the joint should increase towards the inner surface. The tightness of the vapour barrier is ensured by turning the vapour barrier between the window frame and the urethane foaming. A foam gun and flexible foam are used when jointing. Sealing can also be made by taping the vapour barrier to the window frame with vapour barrier tape. The ventilation gap under and above the window is taken into account when fitting trims.

11. Checklist HVAC installations Avoid unnecessary corners and through-holes of the conduits. Try to site the ducts, pipes and electric installations on the inner side of the vapour barrier. The ventilation ducts and pipes must be thermally insulated to prevent the water condensing in the cold ducts and to heat loss in warm ducts. The sensors and thermostats are positioned so that there will not receive a direct blast of ventilation, hot air or cold air. Do not tighten the ventilators too much to avoid losing pressure of the ventilation. At start up, the direction of rotation of the pumps and the fans must always be checked. Check the water is circulating correctly in the radiators and other heat exchangers. Also check the rotation of the air current in the exhaust air heat pumps. The simultaneous use heating and the cooling must be prevented. Rules for energy-efficient use and maintenance are outlined in the operating and maintenance manuals. The indoor air temperature, quality and energy consumption must be monitored.

12. Checklist The installation of through-holes Manufactured through-hole collars are recommended. The collars are attached to the vapour barrier foil with vapour barrier tape. When installing, a margin for movements must be left. This is because of heat and moisture movements and bowing due to variation in loads. In plastic heat insulations, through-holes are sealed with PU-foam. Ducts and pipes must be made totally tight because of the risk of condensation. Long-term resistance to the tightness must be ensured in the through-holes.

13. Question: What are the most important effects on quality when increasing the insulation thickness? To reduce heat loss and avoid outer parts of the structure getting cold. To avoid a decrease in fault tolerance. Structures that are more sensitive to moisture should be shielded by board. The vapour barriers of the envelope and shield boards must be installed tightly to prevent microbes growing in the structures and ensuring healthy indoor air.

14. Thermal imaging – tightness of the envelope In the cold season it is easy to check the tightness of the envelope with thermal imaging. In summer it is possible to use smoke to locate leaks. Thermal imaging can decrease leaks and other quality problems.

15. Thermographic imaging – tightness of the envelope Critical points of tightness: joints of the top floor junction of the floor and the base junction of the roof and the external wall junction of the intermediate floor and the external wall junction of the bathroom and the sauna window opening and the doorway HVAC through-holes ventilation panels joins of the vapour barriers

16. Checklist The building’s moisture and condition on site Remember: Structures must be tight from inside and ventilated outside from the sheathing board. If the jointing of the facia is made only after the first heating phase, the ventilation of the outer side must be stressed. Ventilation gaps of the elements must be checked and the quality of the gaps must be demanded from the suppliers. Heating and a relative humidity of approx. 50% speed up the drying. The moisture level and sufficient drying of the concrete structures must always be measured before they are covered by airtight covering or cabinets. The quality of the work shows for decades – do not rush.

17. Methods of quality assurance Moisture measurements Thermographic imaging Tightness test Checklist Log book Field book Samples of waterproofing

18. Professional pride Expert knowledge needed to build an energy-efficient home: People skills with clients, designer and builders Problem-solving skills; everything can not be anticipated beforehand Ability to work meticulously with a high level of professional pride Discuss in pairs: What is professional pride? Discuss in pairs : What increases professional pride and what reduces it? Discuss in pairs : How could the positive factors be increased and how could the negative factors be removed?

19. Closing discussion What did you learn? Attitude counts! Give examples of energy waste in buildings and how to avoid it.

20. Authors: Olli Teriö, Jukka Lahdensivu, Juhani Heljo, Jaakko Sorri, Ulrika Uotila, Aki Peltola, Heidi Sumkin. Translation Ulrika Uotila & Myra Bird. The good practices and principles required for the energy efficient building have been included in the teaching material. The writers are not responsible for their suitability to individual building projects as such. The individual building projects have to be made according to the building design of the targets in question.