Posts

, ,

Achieving the Unachievable: the Bullitt Center

Article published on September 5 2014 by the Seeder team.

Over the past few years, Net-Zero Buildings have started sprouting up around the world, showing skeptics that, we can indeed create buildings that have zero impact (and sometimes even a positive impact) on the environment.

Just to remind you, buildings consume more than 40% of the energy produced around the world, making them the single biggest contributor to air pollution and the biggest threat to human health.

image

The Bullitt Center located in Seattle, Washington in the US is currently regarded as one of the most sustainable commercial buildings in the world. This six story building is the proud owner of a “Living Building” certification, one of the most difficult sustainable construction certifications to obtain because its 20 strict criteria.

The Bullitt Foundation pulled together a team of expert engineers, designers, architects, contractors and professionals to go beyond traditional building design and think through an integrative approach that would create a beautiful but energy efficient space.

And that challenge has met with success. In 2013, the building consumed an average of 8.4 EUI (Energy Use Intensity), whereas most buildings in Seattle had a consumption in the low 90s! And while the construction costs were about 25% higher than an average building, the estimated return on investment is well under 25 years. Not bad for a building designed to last 250 years!

The Bullitt Center has also benefited from incredible exposure in the media.  It is a building admired worldwide for its amazing sustainable features and has been featured in countless publications. It has set the bar high and become a symbol of the potential for improving the built environment.

Site selection

The construction site was carefully selected so it was easily accessible via public transport, bicycle or on foot. The building has a walk score of 100/100. The aim was to encourage people to commute in a responsible and sustainable way. The building does not have a car parking lot but a bicycle parking exists and showers are available inside the buildings for those warm summer days.

image

Structure

Emissions of CO2 was the biggest concern for the design team. The building is supported by a timber frame built on a foundation of concrete. Since concrete is one of the construction materials that emits the most CO2, its use was limited to the bottom of the building. The timber used in the construction comes from responsible managed forests within 1000km (620 miles) of Seattle.

Intelligent Management

While BMS (Building Management System) are not new, the Bullitt Center is equipped with an impressive intelligent management system that allows the building to interact with and respond to with its environment. The internal and external sensors allow the system to open the windows automatically if the temperature increases, to lower the shades when direct sunlight is too strong and to automatically regulate the heating when the temperatures drop in winter. Everything is automated for maximum energy efficiency and comfort.

Solar Energy 

With Seattle’s reputation as the rainiest city in the US, it wouldn’t seem to be exactly the right place for solar panels. But in reality, solar panels don’t need sun to produce energy, they only need daylight. The panels therefore produce less energy during the short winter days than the long summer days.

Yet, the Bullitt Center’s 575 rooftop solar panels manage to produce as much electricity as the building consumes. The extra energy produced in summer is stored to balance the smaller production of winter.

image

Water management

The Bullitt Center possesses its own underground 56,000 gallon water cistern for collecting rainwater. A filtering system exists to purify rainwater and an extra filter has been installed to produce potable water, which is stored into an additional cistern.

Wastewater is recycled on site, in the 3rd floor constructed wetland. The wetland is actually a green roof where plants absorb the nutrients. The remaining water is filtered and restored to the ecosystem.

Waste management

You might be surprised to see waterless toilets in the Bullitt Center. As the Living Building Certification requires, waste is transported to basement composters through vertical pipes and recycled right on the site. This will later be used as fertilizer that is both eco-friendly and odorless.

The Occupants

Finally, a building can only do so much. The occupants of the Bullitt Center are active participants in making it zero-net energy. Tenants have energy budgets they’re expected to respect or they have to pay a fee, computers must be 80% laptops and only 20% desktops and the “irresistible staircase” at the entrance of the building encourages the limited use of elevators. A large dashboard helps tenants track the use of energy and water, thus helping them better manage their office space.

All images come from the official Bullitt Center website

Renewable energy can be beautiful

That’s the hopeful slogan of the Land Art Generator Initiative, or LAGI, which works to bring together the worlds of installation art and renewable energy infrastructure.

The general idea is, if we’re going to harvest renewable energy with machines and structures, they may as well be beautiful machines and structures. LAGI works with artists and municipalities worldwide to create permanent works of art that also distribute clean energy into the local electrical grid.

Drifting Skyscraper Converts Air Pollution Into Green Energy

Since 2010, LAGI has hosted an bi-annual design competition, inviting artists and engineers to submit proposals for a particular city or area. Previous competitions have been held in New York City and the United Arab Emirates.

LAGI held this year’s competition in Copenhagen, Denmark, in partnership with the IT University of Copenhagen and several other local partners. Interdisciplinary teams from around the world submitted ideas for public art installations designed to also provide utility-scale clean energy the the Copenhagen electrical grid.

Among this year’s submissions is the innovative and rather lovely Oscillating Platforms project, pictured above, from artist Felix Cheong. Winners will be announced on October 3, 2014.

Digital ‘Head Dome’ Immerses You In Art

Cheong’s proposal calls for a series of floating platforms anchored in such a way that they harness both wind and tidal power. Submerged columns capture the energy of changing water levels to move pressurized air through turbines, which in turn generate electricity. The platforms’ above-water sails, meanwhile, capture wind power. Even the movement of people walking on the platforms is turned into electrical energy.

Check out the LAGI website for more concepts and images. Or you can track down the bookRegenerative Infrastructures, which details LAGI’s ongoing project — transforming New York City’s Freshkills Park into a radical urban design experiment of installation art and renewable energy. So cool.

via Inhabitat 

Architects worldwide commit to net-zero energy buildings

Tue, 08/26/2014 – 09:52 – Alan Mwendwa

Architects from across the world unanimously adopted the 2050 Imperative, which commits them to 100 percent net-zero energy design and construction by that year.

Members of the International Union of Architects signed the document at last week’s annual World Congress. Member organizations represent over 1.3 million architects in 124 countries. This is the first time in the organization’s 65-year history that Architect Councils from every region of the world have signed a declaration.

Initiated and drafted by Architecture 2030, it flowed through the American Institute of Architects and then to the International World Congress.

The 2050 Imperative says, “Recognizing the architects’ central role in planning and designing the built environment, and the need to reduce carbon emissions to zero by 2050 and provide equal access to shelter, we commit to promote the following actions.”

Engage in research and set targets to meet the 2050 goal.

Plan and design cities, towns, urban developments and new buildings to be carbon neutral (net-zero energy), using no more energy over the course of a year than they produce, or import from renewable energy sources.

Renovate and rehabilitate existing cities, towns, urban redevelopments and buildings to be carbon neutralwhile respecting cultural and heritage values.

In those cases where net-zero isn’t feasible or practical, designs will be extremely efficient, with the ability to produce or import all energy from renewable energy sources in the future.

Advocate and promote socially responsible architecture to the community.

Architecture 2030 recently released Roadmap to Zero Emissions plans to help member organizations meet the goals.

“We have made great strides towards a sustainable built environment, but we still need to advance the industry to make sustainable design the de facto standard for all construction projects,” says Helene Combs Dreiling, president of American Institute of Architects.

Over the next 20 years, “an area roughly equal to 60 percent of the total building stock of the world is projected to be built and rebuilt in urban areas worldwide, providing an unprecedented opportunity to set the global building sector on a path to phase out carbon emissions by 2050,” the document says.

Architects voted on the 2050 Imperative in advance of the United Nations Climate Summit in Paris, France next year. We want to “send a strong message to the Parties of the United Nations Framework Convention on Climate Change, and to the world, that we are committed to a truly sustainable and equitable future.”

California and the EU have passed laws requiring net-zero buildings.

Source: GreenBiz