In Lapland, the extent of living indoor space used to follow a cycle of natural seasons. During cold wintertime, the occupied indoor space was limited to one compact building with an efficient multiuse floor plan, in order to save heating resources. In warmer seasons the living area was expanded into several unheated buildings with different specific purposes, arranged around the common courtyard. This way the lifestyle in the summer was spacious and the main building was prevented from getting overheated. This pavilion follows this tradition by creating a hub for social activities during the warmer seasons and a buffer for expanded living space when required.

In terms of massing and horizontal orientation, the building is a fusion of two geometrical orders:it follows the regular orthogonal geometry of the existing built context in the northern hill side, but in the southern lake side it takes reference of the organic geometry of the natural shoreline. In terms of vertical geometry, the walls are tilted outwards following the traditional way of constructing storage buildings in Lapland - just likethe two existing storage buildings near the pavilion – preventing the timber wall construction from getting wet.

Cooking and dining take place in the unheated main space, dominated by generous views towards the Nordic lake landscape in the South West, and towards the midnight sun in the North. The lake view is captured by the main opening, operated and adjusted by sliding doors, and framed by a covered terrace extension. Reflected sunlight from the lake surface is directed to the space by generous tilted ceiling surface.

Social activities are complemented by the sauna room, where bathing and relaxation takes place within the same space, following an ancient arctic concept. This way the hot air in the saunais more humid and optimized for the sauna experience, and excess construction for separate rooms are avoided, saving scarce resources. The sauna geometry follows the principle of natural air flow and enhances the optimal movement of hot steams: bathing takes place on cooler lower level, while hot steams and views to the lake are enjoyed higher in the same room.

In order to minimize the carbon footprint and support the local economy, more than 95% of the building material was sourced, processed and constructed locally.The superstructure is of solid log construction, performing as carbon storage and moderating the diurnal temperature and humidity fluctuations, which in the arctic are often significant. The construction waste was reused for heating and cooking, and biological waste from the usage of the building is composted and reused locally as fertilizer in the surrounding arctic gardens.

Material Used :
1. Foundation: cast-in concrete, contractor Rainer Yli-Suvanto

2. Floors and roof structure: timber, contractor Rainer Yli-Suvanto

3. Load bearing walls: log structure, contractor Veikko Niemelä

4. Roofing: bitumin sheets, contractor Lapin Pelti Oy

5. Window grills: galvanized steel, contractor Lapin Pelti Oy

6. Windows: timber and aluminimum frame, Pihla Oy

7. Sliding facade elements: timber, contractor Rainer Yli-Suvanto

8. Interior finishes: timber, contractor Rainer Yli-Suvanto

9. Fire places: masonry work, contractors Arto Lehtola and Ari Rytilahti

10. Cast iron components in fire places: Pisla Oy

11. Fixed custom fittings: timber, contractor Rainer Yli-Suvanto

12. Custom furniture: timber, contractor Rainer Yli-Suvanto