As part of a competition organized by Polish architecture firm Mode: Lina<\/a> to design an Eco home, Netherlands based architecture firm 123DV Architects designed a hidden house with high sustainable performance. While 123DV has worked on several sustainable architecture projects, this one was definitely much more challenging in terms of creating something unusual, yet extending the boundaries of sustainability.\u00a0 As part of this project, the architects decided to play around with a rectangle combining it with an age-old natural and ecological recourse like geothermal heat. The house consists of a rectangle of 28 metres x\u00a0 9 metres x 4.3 meters that for two thirds has been submerged under the ground at an angle of 21 degrees.\u00a0 While keeping the focus on enhancing the quality of life of the inhabitants, the architects created both a strong visual statement and a high performance energy standard. While creating a sustainable and aesthetically pleasing design, a bigger challenge was to create a holistic interior concept considering the psychological impact of living in a sloped house, underneath the ground and with little natural light. The result is simply fantastic!<\/p>\n <\/a><\/p>\n Generating its own energy<\/b><\/p>\n The aim of the ecological concept is to achieve a zero emission house which can generate its own energy needs:<\/p>\n It generates its own electricity from sun energy by the use of solar panels. <\/a><\/p>\n Reducing energy needs<\/b><\/p>\n In order to reduce the required energy for heating or cooling we propose a house which makes more use of the thermal earth warmth. An underground house can make use of the constant earth temperature of 15 degrees Celsius and therefore need less energy for heating or cooling to reach the required interior temperature of around 19 degrees Celsius.<\/p>\n A house above the ground can absorb the extra warmth or cold in summer or cold in winter. A combination of an \u201cunderground-\u201d and \u201cabove the ground\u201c house would lead to a section where you have underground rooms (more dark and cool) and above the ground rooms (more light, different temperature).<\/p>\n How can sustainability trigger architecture and life?<\/b><\/p>\n An eco house contributes to the environment. Does it also contribute to the quality of the daily life?<\/p>\n Back to basic: experiences of nature<\/b><\/p>\n As a child it was a great experience going up and down the slide. As adults we are conditioned to go up and down the stairs. Where is the joy of moving? Maybe designing elements with more joy can bring more quality of the daily life. Daily life cycle<\/p>\n The spaces described in the \u201cunderground-\u201d and \u201cabove the ground\u201c house match perfectly with the daily life cycle. <\/a><\/p>\n <\/a><\/p>\n Bedstead<\/b><\/p>\n Reintroducing the bedstead in the \u201cunderground\u201d house could strengthen the experience of intimate space in the dark, protected from the outside world.<\/p>\n The glide<\/b><\/p>\n The four stories in the eco \u201cunderground-\u201d and \u201cabove the ground\u201c house are connected by a set of stairs. Rain shower<\/b><\/p>\n An open gap in the roof could function as a rain shower when it rains, where the strength of water flows depend on nature. Going to the shower could be an adventure where you can get cleansed by natural rain.<\/p>\n Toilet lounge<\/b><\/p>\n Visiting the toilet is mostly an individual boring ritual. By clustering more toilets to meet each other in the toilet could lead to a social event and maybe more quality time.<\/p>\n Design of the eco house<\/b><\/p>\n This eco house is a design which contributes to the environment. The design generates its own energy. This home also requires less energy for heating or cooling compared to a traditional house. The design is also a speculation to give a different view of a living environment to bring back more basic experiences with nature. It is also an attempt to introduce opportunities for new social interactions, in order to gain more quality in daily life.<\/p>\n <\/a><\/p>\n <\/a><\/p>\n
\nIt collects earth heat or cold from the ground and stores it in the ground for additional heating or cooling.
\nIt collects its own water with an own dug underground well.
\nIt collects rainwater and reuses it for flushing the toilets.<\/p>\n
\nA combination of both principles could lead to a more energy saving house.
\nThe extra warmth or cold can be mixed with air of the underground house to achieve the required temperature.<\/p>\n
\nAs a child it was a great experience to build underground shacks. There we would sit tight to each other, in contact with the earth, in the dark, in our own world, safe from the outside.
\nWhy as grown up people do we want bigger spaces and let technique give us protection, such as alarm systems.
\nFor children, playing in the rain could be an exciting thing. For adults we usually don’t like getting wet in the rain, but we do enjoy rain showers.<\/p>\n
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\nDesigning experiences<\/b><\/p>\n
\nThe more darker and sheltered spaces for sleeping can be located in the \u201cunderground\u201d house: dark and sheltered from the outside world. The more light area for living can be located in the \u201cabove the ground\u201c house: more in contact with light and surroundings.
\nThe design consist of four stories ranging from dark to light.<\/p>\n
\nBy introducing also a glide, travelling down to the underground house could be more an experience. It also is a time saving element were traveling might become a joyful experience.<\/p>\n