Eko Kuca Is Self-Heating Home in Serbia

Serbian inventor Veljko Milkovic creates designs for eco-houses along with other energy-saving devices. Using passive solar design principles and earth-shelter techniques, he adds reflective surfaces below windows that unfold to capture and amplify solar gain into the home through the glazing; he also includes reflective surfaces under the eaves that help bring solar gain into the homes during winter. His self-heating eco-house – or Eko Kuca - building concept saves up to 85 percent on heating, 100 percent on cooling, 30 percent on lighting and about 20 to 40 percent on building materials, based on monitoring. The Eko Kuca is covered with a sod roof that sweeps up over the earth-bermed house to provide additional insulation for an energy-efficient envelope. In 2009, the Eko Kuca won a First Place Award for Serbia and Montenegro as part of the international Energy Globe competition for worldwide sustainability.

Software and Online Tools for Sustainable Design

Solaripedia links more than 230 software and online tools to help with sustainable design. Most of the tools are free for use and some are available by subscription or purchase. The tools can help with solar design, passive design, acoustics, lighting, wind energy systems, PV sizing, psychrometrics, rainwater collection tank sizing, water budgeting, window design and heat gain, shading design and landscape calculating for vegetation and wind breaks. Listed in alphabetical order by name of tool, a brief description helps you figure out if it's the right tool for you, then just follow the link.

Canton Tower Features a Complex BIPV System (China)

Canton Tower is the tallest tower in the world as of February 2011. Also known as the Guangzhou TV Tower, it is 600 meters tall, twisting over the Haizhu District of Guangzho (formerly known as Canton), capital of Guangdong province in China. One of its most remarkable to me is the BIPV (building integrated photovoltaics) system that sheaths part of the building under its giant lattice framework. The solar power system is comprised of a-Si (amorphous silicon) thin-film modules that are installed on facades under the steel mesh. LED technology is used extensively for all lighting so that the tower consumes only 15 percent of the allowed maximum for facade lighting, further contirnuting to its energy efficiency. The dynamic twisting form of the tower is composed of straight shafts that encircle the core of the structure, creating a cinched 'waist' that is designed to be as small as possible at a span of 15.6 meters while still accommodating the elevator shafts and fire escapes. Designed by Information Based Architecture (IBA), a firm based in Amsterdam, The Netherlands, it includes a park at the tower’s base, an elevated plaza, a pagoda-park, retail facilities, offices, a television center and a hotel.

Apartments Above, Parking Below Yield Grand Views

One might argue that by providing 480 parking spaces for automobiles, a project is not that sustainable. The Mountain, a housing and parking development in Copenhagen began as two separate projects that would have situated a huge parking structure next to a multifamily residential project - creating a potential eyesore and blocking the sun. Architects Bjarke Ingels Group of Denmark saw it as an opportunity for residents to be elevated above the city with magnificent views, solar access and rooftop gardens, with parking tucked under. The resulting structure is adjacent to bike and walking trails, lightrail, and a canal. It has been a somewhat controversial building, rising out of the flatlands near Copenhagen and swathed in a gargantuan metal mural of Mount Everest. From the south side, the building presents a series of gardens and terraces that slope away from the street - with an organic feel of vegetation and wood trellises. The other elevations, though, provide stark materials that loom high above the human scale.

Off-Grid House in Costa Rica Is Zero Energy

The Casa ISEAMI is located  in the rainforest of Costa Rica, where its humid environment encourages mold and fungi growth on buildings. The architects for ISEAMI - Robles Arquitectos - therefore designed this house using an all-white structure that allows mold and other pests to be revealed immediately. Casa ISEAMI is totally off-grid using an on-site hydropower system plus photovoltaics on the roof - two micro hydro turbines generate 800 kWh per year and a rooftop solar system generates 10,800 kWh annually. The casa utilizes passive solar design with large overhangs for shade and rainwater collection, and its orientation maximizes natural ventilation. Large skylights provide daylighting and an almost direct connection for inhabitants to the sky. A solar thermal system provides hot water. The Casa provides headquarters for Costa Rica-based ISEAMI (Institute for Sustainability, Ecology, Art, Mind and Investigation). The house is situated on a hill above the ocean on the biologically diverse Peninsula de Osa, 30km from the nearest town. The area contains five percent of the world`s biodiversity so it was imperative for the Institute to create a building that has virtually no negative impact on the surrounding environment. Building materials are recyclable at the end of their useful lives.  The casa is the first phase of building houses a multifunctional space for ISEAMI (Institute of Sustainability, Ecology, Art,Mind and Investigation) on the ground level, with the second level providing a residence for the Institute`s director.

Spectacular Tent Is Largest in World in Kazakhstan

In the capital city of Astana, Kazakhstan, rises the largest “tent” in the world – Khan Shatyr Centre. The cable-net, tensile structure soars 150 meters to form the highest peak on the Astana skyline, providing dramatic views over the city and the Steppes beyond. The building encloses an area of more than 100,000 square meters with retail spaces, parks, a beach, restaurants and entertainment facilities. Designed by Foster + Partners of the UK, this urban oasis is designed to withstand the wild temperature extremes of Kazakhstan – from a sweltering 40+ degrees C in summer down to a bone-chilling minus-40 degrees C in winter. Supported by a giant tripod, the tent is covered with a transparent polymer material called ETFE that allows daylight to enter the interiors while sheltering them from weather extremes. Foster, along with engineers at Buro Happold, created a system that harnesses solar gain in winter and releases warm air to the apex in summer. The structure is so large that small weather systems can develop inside because of the extreme conditions outside – this was the big challenge for the designers.

Recreation Center in Germany Powers with Solar

The Steinhude Sea Recreation Facility building is only about 3,500 square feet with services for public toilets, lifeguard facilities, a small cafe, an observation deck, boat storage and a generator for supplemental power for the kitchen. Its photovoltaic system provides enough power for the building needs, as well as for recharging a fleet of eight solar-powered rental boats. There's even excess power to sell back to the grid. The PV panels (153 square meters in surface area) are integrated into and stretched along a sweeping roof that also provides daylighting with its innovative glazing system. A natural gas turbine generator provides additional power for peak loads associated with the cafe. The project is located on the south shore of Steinhude Sea in north-central Germany; it is on the 46,000 square meter (11.4 acres) Bath Island, attached by a bridge to the mainland.