are then closed on top and below by U-profiles with a perforated web so that the heat-transfer is similar to timber-studs. This wall-type showed unexpected load- bearing properties because the rigid foam-insulation supported the metal flanges so that they could not buckle in the same way as free flanges. It was also clear from the beginning that the material-price was beneficial and the walls could be mounted very quickly. The first experimental house was a 13 m2 guesthouse in the Stockholm-archipelago. We simply loaded the sheet-metal profiles in our boat and dragged the insu- lation upstream. We began construction at 9:00 AM and at 5:00 PM, the house had been put up. At this time I began collaborating with an inventor, Engvall, who had developed a special crawl-space for a single-family home with an integrated solution for heating, ventilation and installation. He began produc- tion of prefabricated houses, which included my build- ing-system and were delivered at a very low price. Heating and operation costs were low and indoor air- quality satisfied Swedish Asthma and Allergy Union demands. After a series of reconstructions, this compa- ny now operates on a small scale. The houses are erected on the site with a mobile crane in 3-4 hours. The architect Per Wáhlin designed his single-family, three-storey house with an insulated crawl-space where external air is preheated and fed into the house through the floor by airgaps at the outer walls. A similar solution is used for the intermediate floors, so there is a combination of air- and floor-heating. The outer walls are plastered on the outside with 200 mm. of EPS-insu- lation and gypsum drywall on the inside. The roof has 200 mm. of EPS-insulation. All the intermediate floors are built with a 115 mm. high-profile galvanised corru- gated steel as a load-bearing layer, with a suspended floor on top and a suspended ceiling below. The goal set at the design of the house was that no organic materials entered the house before it was fully erected and closed. With the type of crawl-space used, mois- ture-problems in the foundation are effectively avoided. The building, “Villa Wáhlin”, stirred interest during its construction and was nominated for Residential House of the Year 1999 in Sweden. With the first version of the system, the buildings were well insulated and the primary load-carrying prop- erties of the walls sufficient. In walls with large side- loads and in roofs, the need arose for a supporting pro- file for the transversal loads. Two years ago, I invented a new solution with Z- profiles, whose simplified con- struction can be adapted to a wide range of loads. This product has been used in the projects presented below and is patented world wide. Richard Sjöberg, the owner of a Stockholm marina, contacted me to build houseboats using this system during the autumn of 1999, when housing demands there were at their peek. The first boats were erected in spring 2000 and several hundred persons put them- selves on waiting lists to buy them. The Swedish Planning Authorities were not in such a hurry to approve all those applications, but building-permits for 11 houseboats have been granted. It became clear early on that to promote this idea, more variations in the architecture were needed. Two architects’ proposals were chosen for further develop- ment and to prepare for the exhibition BO 01 in Malmö: „Futura", by architect Per Wahlin, and „Avanti“ by archi- tect Peter Ottosson. The boats are built as concrete- vessels, 6 m. wide and 30 m. long, which constitutes the first floor with sleeping-chambers and bathroom. On top is a two-storey construction with the Casa Bona- system with outside cladding from wood, hardpressed resin-fibre, sheets or aluminium. The internal cladding is made from gypsum. Building in lceland The first project, a co-operative housing-project, was set up in Akureyri, lceland, and supported by the lcelandic National Housing Fund. The constructions were adapted to lcelandic conditions in co-operation with the lcelandic Building Research Institute and the Fire Authority. Holtateigur 13-19, a row-house with four dwellings, was created by architect Fanney Hauksdóttir. Walls and roofs are built from the Casa Bona-building system; external wall-cladding is a standing wooden panel and the roofing is made with corrugated aluminium-coated sheet-metal. The house was delivered in November 2001. The next project was a 600 m2 hotel for a horse-farm in Hveragerdi, lceland. Since the Fire Authority did not agree on the use of EPS-foam in outer walls and roofs for a hotel, the house was erected with stiff mineral- wool. This proved to be just as fast and economic. The architect of this building is Pétur Ottósson and the con- struction-work is made by AVH in Akureyri. The hotel will be ready for operation in May 2002. The next project, planned in cooperation with archi- tect Gestur Ólafsson, is a semi-detached house in Hveragerdi, lceland. The house will be designed to make optimum use of the building system together with the heated crawl space solutions to create affordable but high performance dwelling in low rise buildings. ■ 87

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