Sumit Singhal loves modern architecture. He comes from a family of builders who have built more than 20 projects in the last ten years near Delhi in India. He has recently started writing about the architectural projects that catch his imagination.
A rammed earth house in Huesca, Spain by Edra arquitectura km0
July 22nd, 2016 by Sumit Singhal
Article source: Edra arquitectura km0
This modern rammed earth house is located in Ayerbe, a little village in the Spanish Pyrenees. Rural migration in the region during middle 20th century led to the disappearance of traditional architecture techniques. This house attempts to awaken the interest of the community and the curiosity about this type of sustainable buildings that are strongly linked to the territory. The project has been inspired by old local earthen buildings regarding their orientation, morphology and the use of local materials.
Technical improvements, as adding straw to the mixture to improve thermal behavior, have been applied to the traditional rammed earth technique. It’s also been applied an awareness choice of low tech, low energy and low impact materials and building systems. The 80% of the building’s weight, composed by earth, stone and straw, is local. A life cycle analysis (cradle to gate) has shown a 50% reduction of CO2 emissions.
The site is within the town, has a rectangular shape with its long side facing the north. The surrounding buildings use one or another earth construction technique (adobe, rammed earth and mixed stone building techniques). The house adapts to the street levels and is built in three floors.
Following the traditional strategies a patio was opened in the south. The passive solar design, combining big windows in the south face, little ones in the north and skylights with earth walls, ensures thermal comfort, natural light, and cross ventilation. These passive design principles maximize sunlight access trough the south façade improving benefits of earthen walls thermal mass. The strategy consists in capturing passively the climate’s energy, and accumulating it in the same building in order to meet the interior comfort needs of the house.
In winter, heat is stored in earthen walls during the day and it’s transmitted to the interior spaces throughout the night. In summer shadow systems as eaves, wooden curtains prevent the light access to the interior of the house.
Upper floors are built in 45cm thick earthen walls and timber decks support the housing spaces. Earth selection was objective and was tested in laboratory. A discontinuous sedimentation test and a screening test were made in order to know lime, sand and gravel’s proportions. It was also made a carbonates test to quantify the carbonates proportions contained in the sample. Straw fivers were added to the mixture to increase thermal and shrinkage qualities. The interior and exterior lime plaster was built using the “calicostrado” vernacular technique. Wooden work form used was a standardized system and was mounted continuous and simultaneously fitting it immediately before the filling. The construction process was mechanized to improve execution and economical performance. The mixture, the elevation and the pouring were made by a single machine. The compression was made by hand with an electric compressor.
Coverings of interior partitions were made by local clay plasters. Swan timber floors were unidirectional and the beam fillings were made by pine wooden planks. The roof is isolated with 20cm of sheep’s wool in order to avoid thermal loss during winter and overheating in summer. Inner wooden floors are isolated with natural cork boards.
Pinewood carpentry has double glazing with internal air chamber. Windows opened to north and west facades have interior wooden shutters. South windows have heavy interior curtains and roller exterior wooden shutters to manage shadows. Both strategies are the traditional ones for each orientation, adapted to local climate and it’s management is known by users.
A cistern for reutilization of rain water is buried in the patio. A biomass heating boiler heats the house and produces hot water needed.
This modern earth house follows efficient vernacular architecture principles and helps to re link human to nature once again and to build a more sustainable architecture.
The architect Àngels Castellarnau wins Terra Award 2016, the international prize for contemporary earthen architectures, with her rammed earth house in Ayerbe (Huesca, Spain)The architect Àngels Castellarnau wins Terra Award 2016
Àngels Castellarnau, founder of Edra Architectura km 0, received yesterday the Terra Award, the international prize for contemporary earthen architectures, in the individual housing category, with her rammed earth house located in Ayerbe (Huesca, Spain).
This sustainable housing project, presented as a contemporary vernacular 21st century house, has been selected among more than 350 submitted from all around the world. The award was presented yesterday evening at the XII World Congress of Earthen Architectures that was held this week in Lyon (France).
Castellarnau wanted to thank yesterday to all those who have supported the project. “I am sure that this award will help our community and others to commit to our identity, our country and future generations”. “Building with earth links us with the territory,”, she added.
Àngels Castellarnau has a Bachelor of Science Degree from the ETSA Vallès School of Architecture, (Politechnic University of Catalonia) and is pursuing a PhD in Environmental and Energy research in Architecture. She is researching traditional architecture and management of natural resources and has written numerous scientific research papers at national and international level. She has organized several workshops and has presented in international conferences.
Edra Arquitectura km 0 is part of Edra Cultura y Natura along with Edra Bodega. Together, both companies undertake projects that combine agriculture and architecture with an environmentally-friendly approach.
Contact Edra arquitectura km0