13 Examples of Green Architecture

The Morris & Gwendolyn Cafritz Foundation Environmental Center

The nickname for the Morris and Gwendolyn Cafritz Foundation Environmental Center is the Grass Building, and it perfectly captures its spirit. It’s a structure so thoughtfully designed it’s almost as energy-efficient and low impact as the greenery that surrounds it.

The Maryland building is part of an educational farm on the Potomac River Watershed that the Alice Ferguson Foundation used to teach people about the natural world. This new building—which became the 13th in the world to receive full Living Building Challenge certification in June 2017—is an educational facility designed to blur the lines between indoors and out, while still providing shelter as needed. “Part of the intent of the building is to be in the landscape and still have a bathroom to use,” says Scott Kelly, principal-in-charge at Re:Vision, a Philadelphia-based architecture and design studio.

Further Reading:
https://gbdmagazine.com/2017/grass-building
https://www.aia.org/showcases/92581-the-morris–gwendolyn-cafritz-foundation-env
https://living-future.org/lbc/case-studies/morris-gwendolyn-cafritz-foundation-environmental-center
http://hughloftingtimberframe.com/gallery/commercial/cafritz-foundation-environmental-center
http://www.cafritzfoundation.org/

Brock Environmental Center

Drawing thousands of students, the Brock Environmental Center is a regional hub for the Chesapeake Bay Foundation, in Virginia Beach, Virginia, supporting its education and wetlands restoration initiatives. A connection to nature defines the building’s siting, which provides sweeping views of the marsh and also anticipates sea-level rise and storm surges with its raised design. Parts were sourced from salvage: Its maple floors once belonged to a local gymnasium while school bleachers, complete with graffiti, were used for interior wood trim. The center was recognized for its positive footprint: It has composting toilets, captures and treats rainfall for use as drinking water, and produces 80 percent more energy than it uses, selling the excess to the grid.

Further Reading:
http://www.cbf.org/about-cbf/locations/virginia/facilities/brock-environmental-center
https://living-future.org/lbc/case-studies/the-chesapeake-bay-brock-environmental-center
https://www.visitvirginiabeach.com/listing/chesapeake-bay-foundations-brock-environmental-center/979
https://www.aia.org/showcases/76311-brock-environmental-center

Discovery Elementary School

Students have three distinct, age-appropriate playgrounds—with natural elements such as rocks and fallen trees—at Arlington, Virginia’s Discovery Elementary School. The name honors astronaut John Glenn, who returned to space on the Discovery shuttle and once lived in the neighborhood. Exploration is a theme at the school, whose interior focuses on forests, oceans, atmosphere, and the solar system. The largest zero-energy school in the country, it offers “hands-on learning around energy efficiency and generation,” jurors noted. The school maximizes natural light and provides views to the outside in all classrooms.

Further Reading:
https://www.aia.org/showcases/71481-discovery-elementary-school-
https://www.aiadc.com/sites/default/files/031%20-%20DiscoveryElementarySchool.pdf
https://www.google.com/search?q=Discovery+Elementary+School+AIA&tbm=isch&tbo=u&source=univ&sa=X&ved=0ahUKEwjS-pnHo6LcAhUMON8KHSlUDlYQsAQIdA&biw=1583&bih=1187

Bristol Community College

A laboratory is an energy-intensive enterprise, with specialized lighting and ventilation needs. That’s why jurors praised the airy health and science building at Bristol Community College, in Fall River, Massachusetts, for its net-zero energy achievement, “a difficult feat,” they noted, “in a cold climate like New England’s.” The move saves $103,000 in annual operating costs and allows the college, which offers a suite of courses in sustainability and energy, to practice what it teaches. Part of a holistic campus redesign, the new building’s location increases the density—and thus walkability—of campus for students.

Further Reading:
https://www.aia.org/showcases/71576-bristol-community-college-john-j-sbrega-heal
https://www.mass.gov/service-details/bristol-community-college-john-j-sbrega-health-and-science-building
http://www.architectmagazine.com/project-gallery/bristol-community-college-john-j-sbrega-health-and-science-building_o

Central Energy Facility

Orange and red pipes flaunt their role in “heat recovery” at Stanford University’s Central Energy Facility. The center for powering the California campus—more than a thousand buildings—the facility was transformed from an aging gas-fired plant to one fueled mostly by an off-site solar farm, fulfilling a goal of carbon neutrality and reducing energy use by a third. With large health care and research buildings, the campus needs as much heating as cooling; now a unique recovery system taps heat created in cooling processes to supply 93 percent of the heating and hot water required for campus buildings. The plant reduces Stanford emissions by 68 percent and potable water usage by 18 percent, potentially saving millions of dollars and one of the state’s scarce resources.

Further Reading:
https://www.aia.org/showcases/25976-stanford-university-central-energy-facility
https://sustainable.stanford.edu/new-system
https://www.archdaily.com/786168/stanford-university-central-energy-facility-zgf-architects
https://www.zgf.com/project/stanford-university-central-energy-facility

Ng Teng Fong General Hospital

Like other buildings in Singapore, Ng Teng Fong General Hospital incorporates parks, green roofs, and vertical plantings throughout its campus. But the city-state’s hospitals haven’t traditionally offered direct access to fresh air, light, and outdoor views. This hospital marks a dramatic change, optimizing each for patients. About 70 percent of the facility is naturally ventilated and cooled by fans, cross-ventilation, and exterior shading, saving on precious water resources. The building uses 38 percent less energy than a typical hospital in the area.

Further Reading:
https://www.aia.org/showcases/76821-ng-teng-fong-general-hospital–jurong-commun
http://www.hok.com/about/news/2017/07/25/ng_teng_fong_general_international_academy_for_design_and_health_awards
https://www.archdaily.com/869556/aia-selects-top-10-most-sustainable-projects-of-2017/58f7c23ce58eceac31000615-aia-selects-top-10-most-sustainable-projects-of-2017-photo
http://www.topicarchitecture.com/articles/154396-how-modern-hospitals-recognize-the-impact-o

Eden Hall Farm, Chatham University

After receiving the donation of 388-acre Eden Hall Farm, 20 miles north, Pittsburgh’s Chatham University created a satellite campus centered around a sustainable living experiment. The university views the landscape—an agricultural area adjacent to an urban center—as critical to supporting cities of the future. The original buildings are complemented by new facilities for 250 residential students (and eventually 1,200), including a dormitory, greenhouse, dining commons, and classrooms. Students get hands-on experience in renewable energy systems—the campus generates more than it uses—sustainable agriculture and aquaculture, waste treatment, and water management. Now home to the Falk School of Sustainability, the farm is producing the next generation of environmental stewards, who follow in the footsteps of alum Rachel Carson.

Further Reading:
https://www.aia.org/showcases/76481-chatham-university-eden-hall-campus
http://www.chatham.edu/news/index.php/2018/01/chatham-views/from-eden-hall-pioneer-to-farm-manager
https://www.archdaily.com/869556/aia-selects-top-10-most-sustainable-projects-of-2017
https://falk.chatham.edu/masterplan.cfm

Milken Institute School of Public Health, George Washington University

At George Washington University’s Milken Institute School of Public Health, located in the nation’s capital, design embodies well-being. Built around an atrium that admits light and air, the structure encourages physical activity with a staircase that spans its eight levels. A green roof reduces storm runoff; rainwater is collected and stored for plumbing, resulting in a 41 percent reduction in toilet fixtures’ water use. Limestone panels (left) were salvaged from the previous building on the site. Materials used throughout the building contain recycled content.

Further Reading:
https://www.aia.org/showcases/71306-milken-institute-school-of-public-health
https://publichealth.gwu.edu/content/milken-institute-school-public-health-wins-excellence-architecture-new-building-merit-award
http://designawards.architects.org/projects/honor-awards-for-design-excellence/milken-institute-school-of-public-health-george-washington-university/

National Oceanic and Atmospheric Administration’s Inouye Regional Center

Located at the heart of Pearl Harbor, on Oahu’s Ford Island, the National Oceanic and Atmospheric Administration’s Inouye Regional Center repurposed two airplane hangars—which narrowly escaped destruction in the 1941 attack—linking them with a new steel and glass building (right). The research and office facility for 800 employees was raised to guard it from rising sea levels. Given the size of the hangars, daylight illuminated only a small fraction of the space, so specially crafted lanterns reflect sunlight further into their interiors. Necessity required invention: Due to anti-terrorism regulations, no operable windows were allowed in the space. Through a passive downdraft system that taps prevailing sea breezes, the building is completely naturally ventilated. The adjacent waterfront was returned to a more natural state with native vegetation.

Further Reading:
https://www.aia.org/showcases/76911-noaa-daniel-k-inouye-regional-center
http://www.hpbmagazine.org/NOAA-Daniel-K-Inouye-Regional-Center-Honolulu-Hawaii/
http://www.architectmagazine.com/project-gallery/noaa-daniel-k-inouye-regional-center_o
http://www.hok.com/design/type/government/national-oceanic-and-atmospheric-administration-noaa/

R.W. Kern Center

Serving as the gateway to Hampshire College, in Amherst, Massachusetts, the multipurpose R.W. Kern Center holds classrooms, offices, a café, and gallery space—and is the place where prospective students are introduced to campus. The school converted what was once an oval driveway into a wildflower meadow, now encouraging a pedestrian approach (seen above). The center is self-sustaining, generating its own energy through a rooftop solar array, harvesting its water from rainfall, and processing its own waste. Its gray water treatment system is in a pilot program for the state, and may pave the way for others.

Further Reading:
https://www.aia.org/showcases/76921-rw-kern-center
https://architizer.com/projects/rw-kern-center
https://www.hampshire.edu/discover-hampshire/rw-kern-center

Manhattan 1/2/5 Garage & Salt Shed

Two buildings belonging to New York City’s sanitation department redefine municipal architecture. Resembling a grain of salt, the cubist form of the Spring Street Salt Shed holds 5,000 tons for clearing icy streets. The Manhattan 1/2/5 Garage (background), whose floors are color-coded for each of the three districts, is home to 150 vehicles, wash and repair facilities, and space for 250 workers. The garage is wrapped in 2,600 aluminum “fins,” shading devices that pivot with the sun’s rays, reducing heat gain and glare through the glazed walls while still allowing views to the outside. Municipal steam heats and cools the building, so no fuels are burned. A 1.5-acre green roof reduces heat-island effect and filters rainwater. A condensate by-product of the steam is also captured, and, along with the rainwater, used for toilets and the truck wash. Combined with low-flow fixtures, the process reduced water consumption by 77 percent.

Further Reading:
https://www.dattner.com/portfolio/manhattan-districts-125-garage/
https://www.ohny.org/site-programs/weekend/sites/dsny-manhattan-125-sanitation-garage-salt-shed
https://www.aia.org/showcases/76671-manhattan-districts-125-garage–spring-stree
http://www.architectmagazine.com/project-gallery/manhattan-districts-1-2-5-garage-spring-street-salt-shed_o
https://www.burns-group.com/project/manhattan-125-garage-and-spring-street-salt-shed/

Starbucks Hillsboro, Oregon

Starbucks has been a leader in the development and implementation of a scalable green building program for over a decade .Starbucks joined the U.S. Green Building Council® (USGBC) in 2001 and collaborated with them to develop the LEED® for Retail program, an effort to adapt LEED (Leadership in Energy and Environmental Design) to new construction and commercial interior strategies for retail businesses. In 2008,Starbucks challenged themselves to use LEED certification not just for flagship stores and larger buildings, but for all new, company-operated stores. Many people, even internally, were skeptical, especially with Starbucks growth across the globe. But by collaborating with USGBC and other like-minded organizations, we have been able to integrate green building design not only into new stores but also into our existing store portfolio. Starbucks has also succeeded in providing a practical certification option for retailers of all sizes.

Further Reading:
https://www.starbucks.com/responsibility/environment/leed-certified-stores

The Edge, Deloitte

The Edge, located in Amsterdam, is a model of sustainability.is billed as the world’s most sustainable office building and has the certification to prove it. But, it’s more than that. The place is, well, fun. And interesting. And inviting. So much so that professionals are actually applying for employment with Deloitte Netherlands because they want to work in the building. That it has become a recruiting tool is a satisfying side effect of a project designed to both redefine efficiency and change the way people work. “We wanted to ensure that our building not only had the right sustainability credentials, but was also a real innovative and inspiring place for our employees,” says Deloitte Netherlands CEO Peter Bommel.

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Artificial Intelligence

AI-01

Moving from the abstract to the actionable is always a challenge. When it comes to AI, it starts with data. Artificial intelligence is the application of data—data is what machines learn from—and in the AEC world there is no shortage of opportunities to obtain it. From billing analysis and construction-site safety to building products and performance, the data sets available to collect seem infinite. (Source: https://www.aia.org/articles/178511-embracing-artificial-intelligence-in-archit)

Danil Nagy, New York-based designer and researcher  says “AI can benefit all human endeavors by making us more efficient and allowing us to focus on those aspects of ourselves that make us most human – such as intuition and creativity.”

Computers have changed the way we design our buildings and understand their urban contexts, with tools such as parametric design altering the way we formulate design problems and arrive at new solutions. Now, Machine Learning gives the possibility of going beyond directed, top-down computation, allowing computers to learn patterns and gain new understanding directly from supplied data. Among the many opportunities given by this new paradigm, such a system can allow designers to gain a deeper understanding of the relationships between the physical reality of the city with our personal and emotional responses to it. The Data Mining the City cluster will explore these new opportunities by prototyping custom hardware to simultaneously gather both physical and personal data about the city, and then using Machine Learning algorithms to discover patterns and correlations between the physical realities of the city and our personal experiences of it.

Additional Resources:

https://www.smartgeometry.org/data-mining-the-city

http://futurearchitectureplatform.org/news/28/ai-architecture-intelligence

https://archpaper.com/2017/08/architecture-profession-automation-big-data

https://archpaper.com/2017/11/architects-adapt-coming-ai

https://archinect.com/features/article/149995618/the-architecture-of-artificial-intelligence

http://www.futurearchi.org/t/artificial-intelligence-ai-in-architecture-what-are-the-practical-applications/364

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We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


Immersive Experience in Architecture

VR-HeroPotential uses for VR and AR in architectural design are not science fiction fantasy.

New VR devices allow designers and clients inside conceptual designs. We simply load a VR device with a three-dimensional rendering of a space, and let the user experience it virtually. These VR experiences are far more effective than two-dimensional renderings at expressing the look and feel of a design. VR allows our clients to make better-educated assessments of the total sensory experience and the small details of our design. VR is helping us bridge the divide between our ideas and our clients’ perception of them, letting us effectively simulate our designs before a single nail is driven, part is molded or footing is poured. Our existing modeling programs let us render views in VR devices that are single point-of-view. The user gets to look around from that point and immerse themselves in 360-degree views. Needless to say, the ability to experience spaces before they’re paid for and built increases clients’ peace of mind about their investments.
(Source: https://www.archdaily.com/872011/will-virtual-reality-transform-the-way-architects-design)

While conversational interfaces are changing how people control the digital world,
virtual, augmented and mixed reality are changing the way that people perceive and
interact with the digital world. The virtual reality (VR) and augmented reality (AR) market is currently adolescent and fragmented. Interest is high, resulting in many novelty VR applications that deliver little real business value outside of advanced entertainment, such as video games and 360-degree spherical videos. To drive real tangible business benefit, enterprises must examine specific real-life scenarios where VR and AR can be applied to make employees more productive and enhance the design, training and visualization processes. (Source: https://www.gartner.com)
VR-Architect
Mixed reality, a type of immersion that merges and extends the technical functionality of
both AR and VR, is emerging as the immersive experience of choice providing a
compelling technology that optimizes its interface to better match how people view and
interact with their world. Mixed reality exists along a spectrum and includes head-
mounted displays (HMDs) for augmented or virtual reality as well as smartphone and
tablet-based AR and use of environmental sensors. Mixed reality represents the span of
how people perceive and interact with the digital world. (Source: https://www.gartner.com)

VR has already excelled in one area of the travel industry, in what’s been termed as ‘try
before you fly’ experiences – giving prospective tourists a chance to see their potential
destinations before booking their trip. Virgin Holidays have created Virgin Holidays
Virtual Holidays using VR and have seen a rise in sales to one of their key destinations.
In terms of creating these experiences from a design perspective, technology is both a
help and a hindrance. It’s allowing designers to get to know their audiences better, but
it’s also making it easier for businesses to lose track of the users who will eventually
own or experience the product. (Source: https://www.virgin.com/entrepreneur/how-internet-things-will-change-our-spaces)
VR-Virgin

Immersive Architecture

“Visualization matters. It’s really, really critical that people understand what they’re looking at and can contribute meaningfully to the dialogue. You want experts and non-experts to be able to derive actionable insight from what they’re seeing.”

–Matthew Krissel, Partner at KieranTimberlake

More Information:

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook

 


Architecture Robots

Environmental Robots

Robots Revolutionizing Architecture's Future 003

Robots are increasingly being utilized in everyday life to monitor and improve our environments. For example, Researchers from theNational University of Singapore have created a bevy of robotic swans that are designed to monitor the quality of freshwater lakes and reservoirs – such as levels of dissolved oxygen or chlorophyll – while blending in with the natural environment. The robotic birds, fitted with a number of sensors, autonomously swim across the water’s surface using underbody propellers.

(Source: https://www.dezeen.com/tag/robots/)

Robots in Construction

060306_040_ProduktionCurtainWal_SilvanOesterle_023

At ETH Zurich, Gramazio & Kohler, an architectural partnership that is especially
known for its contribution to digital fabrication and robotic construction, taught at class
using a robot arm to lay bricks. This is the course as they describe it:

“If the basic manufacturing conditions of architecture shift from manual work to digital
fabrication, what design potential is there for one of the oldest and most widespread
architectural elements — the brick? Students investigated this question in a four-week
workshop, designing brick walls to be fabricated by an industrial robot. Unlike a mason,
the robot has the ability to position each individual brick in a different way without optical reference or measurement, i.e. without extra effort. To exploit this potential, the students developed algorithmic design tools that informed the bricks of their spatial disposition according to procedural logics. Positioning this way it was possible to draft a brick wall in which each of over 400 bricks took up a specific position and rotation in space. The students defined not the geometry of the wall, but the constructive logic according to which the material was organized in a particular temporal order, and which thus produced an architectonic form.”

Though robot arms are currently the most prevalent form of robotics in architecture,
architects and designers have begun to employ other, and sometimes more radical,
robotic strategies for design. Gramazio & Kohler, in collaboration with Raffaello
d’Andrea recently put together an exhibition titled ‘Flight Assembled Architecture’ for
which small quad-rotor helicopter bots assembled a 6m-tall and 3.5m wide tower out of
1500 polystyrene foam blocks in Orléans, France.

(Source:https://www.archdaily.com/336849/5-robots-revolutionizing-architectures-future)

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Walmart filed five more patents for farming processes

The patent was one of six filed by Walmart, including several focused on automating agricultural processes. The supermarket chain also plans to use drones for spraying pesticides and monitoring crop conditions.

However artificial pollination has the bigger potential to significantly affect the company’s business.

According to research by Greenpeace, pollination by bees contributes $265 billion to the global economy. So, with the world’s bee population now in major decline, robotic alternatives could prove necessary to meet the global demand for food production.

Walmart isn’t the first to have invested in artificial-pollination technology. Brisbane-based artist Michael Candy recently unveiled his design for a device featuring 3D-printed robotic flowers, while a research lab in Japan recently became the first to successfully achieve pollination using a drone.

(Source: https://www.dezeen.com/2018/03/20/walmart-patent-autonomous-robot-bees-pollinating-drones/)

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook