16th Jan2012

Two New Projects to Start the New Year

by Jason King

Starting off 2012 with a bang, TERRA.fluxus is proud to announce two new projects, working with some of our great existing clients.  First, we’re continuing work with the great folks at Asante Health System, this time building on the work at the Women’s Center and the masterplan for the Three Rivers Community Hospital (TRCH) in Grant’s Pass, in addition to the Genesis Campus Master Plan in Central Point, and the Asante Court Park in Medford.  After working on a small parking lot expansion at TRCH last year, we are beginning the next phase in the overall campus building, working on a new Outpatient Center (with TVA Architects leading the efforts, and continuing work on site issues with KPFF Civil Engineers) which will include in addition to the new building a parking expansion, stormwater facilities, and artwork.  Some preliminary rendering of the building can be seen below:

   

Following up the successful endeavor at Move the House Apartments, we will be working with the great team at Urban Development Partners again, moving down the block at bit to another location along Southeast Division street at 33rd Avenue.  The project has a different configuration and architecture, and we’re happy to be collaborating with the talented designers at THA Architecture to make this project a reality.  A quick snapshot of the concept plan shows some of the interesting features, including stormwater planters, permeable paving, green screens, and vegetated green roof areas.

The project will certainly evolve, so more on both of these projects as they progress.

Category : announcements, ecoroofs, environmental, graphics, heathcare, landscape, portland, projects, southern oregon, sustainability, vegitecture, water
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03rd Jan2012

BPA 905 Green Roof – Part I: Graphics

by Jason King

Last year, we prepared some graphics for the BPA 905 Building Green Roof project, to submit it for a couple of awards.  While unfortunately, we didn’t get an award, the graphics are definitely worth a second look – as they tell the story of the project and some of its unique features.  Here’s part one of a two part post showing the graphics and final product.

Overview    The rooftop terraces in this project are part of a larger, multiple phase effort for overall building energy efficiency upgrades as part of the American Recovery and Reinvestment Act (ARRA).  The owner of the facility, the General Services Administration, along with their tenant, the Bonneville Power Administration (BPA) upgraded mechanical and building systems and replaced roofing for the entire building, allowing for the retrofit of four rooftop terraces that step down along the north portion of the building.

The project consists of four separate roofs stepping up from Level 4 to Level 7 along the north façade of the building. The total area is 9,000 square feet, with 5,800 of vegetated area.

This unique retrofit project started with new roofing that replaced the existing membrane and provided a significant increase in insulation depth for energy performance that would hit the target of R-50.  Atop the new insulation, areas of non-vegetated roofing are installed with cool roofing membranes to minimize heat gain.  Vegetated portions were specifically designed to meet the following client-specified goals:

  • Increase the insulation value of the roof
  • Capture rainwater to maintain the sites natural hydrologic cycle
  • Provide habitat for beneficial insects and animals
  • Reduce urban heat island effect
  • Provide visual beauty for employees that look down on the roof areas
  • Meet applicable federal standards for green roof construction

An enlarged view of the Level 4 rooftop, showing the configuration of pedestrian areas, seating, and access from the interior of the building. The sculptural berms and ‘river’ connects the four roof levels and reflects the different loading characteristics of the roof.

The existing terraces were predominately paved, with large planters that previously held ornamental varieties that were irrigated with domestic water supply.  The spaces were described as ‘desolate’ and were used sporadically by building users, but not considered an amenity.  Through the design process, the team worked with building tenants to identify the aesthetic preferences, necessary amount of seating, and overall range of planned uses for the spaces.  This involvement was also expanded to include educational information, located at building entries and key areas like the cafeteria, regarding a range of vegetated roofing options, trickling down through all of the users of the building.  The distinctions between extensive green roof, semi-intensive roofing, and intensive roof terrace were vital to understanding the type of project that was being planned, and managing the overall level of expectations, which led to significant support from throughout the building.

Exploded diagram showing the built up layers from roofing, insulation, paving, and green roof components on a typical level. The cisterns are fed by roof drains and pumped back up to the green roof for irrigation that requires zero potable water.

Results   The project includes over 9,000 square feet of roof area over 4 different levels. Paved terraces surround sculptural berms planted with semi-intensive vegetated roof, encompassing a total of 5,800 square feet of planted area. The rooftops are oriented for views from within the building, as well as to be viewed from above. Starting at the upper level (7th Floor) a stone ‘stream’ winds through the adjacent sculptural ‘hills’, referencing the connection of the BPA to the indigenous waterways of the Pacific Northwest.  The similar size of the upper roofs (5,6,7) are less uniform due to the berming and flowing nature of these elements, giving each floor a unique experience. This unifying element connects each level down to the larger (4th Floor) where it terminates into a fanned delta.  The overlapping berms and waves of vegetation provide a separation of the space to avoid the fishbowl effect and allow for adjacent access to the plantings.

The dynamic quality of seasonal planting variation is captured in flowing waves of color and texture that overlap and change over the entire year.

Over thirty species of plants were included to achieve a mosaic, including small coniferous and deciduous trees, a range of shrubs, grasses, and perennials, rounded out with a mix of succulent groundcover cuttings to quickly provide soil coverage.  Plantings were selected for drought tolerance, color, texture, scent, and seasonal variation.  Rainwater is captured in 35,000 gallon cisterns and pumped up to each floor, giving the project, once established, net-zero potable water usage.  High efficiency irrigation heads with evapotranspiration-enabled smart controllers and moisture sensors provide additional water savings by adapting to local conditions to provide only necessary supplemental water through seasonal summer drought.

A rendering of the proposed project shows the potential usable space along with the design intent. The graphics were essential for education, as well as to manage expectations of the end result that was not an extensive roof, but not a full roof garden.

Go to Part II:  Implementation

Category : details, ecoroofs, environmental, graphics, habitat, images, portland, projects, roof gardens, stormwater, sustainability, vegitecture
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15th Dec2011

Visualizing OHSU’s Casey Eye Institute

by Jason King

TERRA.fluxus was asked by OHSU to provide a visualization for a potential project on their campus.  Casey Eye Institute offers the potential for a visual ‘sustainable roof’ that includes a number of features.  The site is visible from many locations on campus, as well as viewable from the aerial tram – where it is viewed by 1.5 million visitors annually.

       

The project description includes:

“A dynamic concept featuring concentric rings of vegetation that work with the architecture of the building.  Bands define microclimates and allow for different soil depths that support a  variety of species for aesthetics and biological habitat potential.  The circular penthouse is ringed with vertical axis wind turbines and the south edge is lined with photovoltaic panels to supplement building energy usage and provide visible elements of OHSU’s commitment to green development.”

A rendering of the planned roof is found below, with additional detail.  There will be more information to come as this project evolves.

 

Category : announcements, ecoroofs, environmental, graphics, habitat, heathcare, landscape, planning, planting, portland, projects, roof gardens, stormwater, sustainability, vegitecture
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08th Dec2011

BES Calendar features two projects from TERRA.fluxus

by Jason King

Just in time for 2012, the new calendars are available from the City of Portland, Bureau of Environmental Services and their Sustainable Stormwater Management program.  This annual publication shows off some of the interesting new projects built around Portland, and it was a nice surprise to see two months that included some of the recent work of TERRA.fluxus.  April features a couple of recent works – in particular the Vertical Wetland project completed at Move the House, project for Urban Development Partners, with art feature by Ivan McLean and funded by Metro, that funnels roof water through Corten sculpture visible from SE Division Street.

As mentioned in the calendar:

“Disconnecting a downspout is a simple way to remove roof runoff from the combined sewer system and protect water quality, and it offers opportunities for creative ways to disconnect.”

Also in June, a nice shot of the newly planted living wall at the same project, Move the House- showcasing the idea of vegetated walls, which contribute to sustainable site design – in this case screening the very prominent trash enclosure in the center of the outdoor plaza area – adding a burst of greenery to an item that is often considered an eyesore.   As mentioned in the calendar:

“Green Walls use vertical surfaces to green and beautify our cities.  Green walls can help reduce a building’s energy use and outdoor air temperatures, capture stormwater, or be used for urban agriculture “

Category : announcements, environmental, images, infrastructure, installations, living walls, planting, portland, press, projects, publications, rain gardens, stormwater, sustainability, vegitecture, water, wetlands
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12th Nov2011

Green Roofs featured on Design*Sponge

by Jason King

Surfing the web lately, I stumbled on a post from popular blog Design*Sponge offered some interesting images of a familiar green roof or two.   Some of the work I collaborated on with the non-profit iteration of Ecoroofs Everywhere between 2002-2005.  Another, seen below, is the Elgert/Sweeney Residence from 2008, the green roof designed by Jason King and installed by E2 in their new incarnation as a for-profit installation firm.  The project was designed by Brian Sweeney (BPS Architecture) and the green roof was used to fulfill Portland stormwater management manual guidelines.

Elgert/Sweeney Residence Green Roof

As Design*Sponge founder and columnist Grace Bonney reflected on a trip to Portland:

“One of ideas I wish Brooklyn would adopt is Portland’s love of living and edible roof gardens.  I’ve seen roof gardens in New York before, but I’ve never seen them used so frequently as I have here in Oregon. They’re on residential homes, commercial buildings and growing naturally on park buildings around town.”

The post included a number of other projects from Portland, and a few that I worked on with Ecoroofs Everywhere as a non-profit, including the Hawthorne Condominiums and the Orpinela Guesthouse, photos of which are found below.

Hawthorne Condominiums

Orpinela Guesthouse

Thanks to Ecoroofs Everywhere for the collaborations over the years as a non- and for-profit company, and for Design*Sponge for the info for reminder and coverage of these great projects.

Category : announcements, ecoroofs, environmental, landscape, planting, portland, press, projects, publications, REWIND, stormwater, sustainability, vegitecture
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02nd Sep2011

Forest Grove WWTF

by Jason King

The bids have been received and construction will begin to mobilize in the next few weeks for an exciting infrastructure project in Forest Grove, Oregon to provide landscape improvements for the Clean Water Services (CWS) Wastewater Treatment Facility.  The facility improvements are being led by Black & Veatch through their Oregon office, with significant changes to overall facility configuration, circulation (entries and streets), and a number of other site upgrades.   The total size of the facility covered more than 10 acres, which created significant areas to be landscaped and woven into the existing landscaping and buffers and connecting to existing irrigation in areas throughout the facility – keeping in tone with the functional aspects of the site and it’s industrial character.

This character is evident in some of the current site photos.

The site also involved planning for future expansion, with permanent landscape areas to be retained near structures moving out into more open landscaping that will provide erosion control and minimal impact for future build-out of critical treatment facility elements.    Also, certain structures were in the process of being demolished, and restoration of new landscape areas became part of the overall strategy.

In a short period of time, the drawings and specifications were fast-tracked in order to maintain a 2011 construction window.  This accelerated timeline involved  TERRA.fluxus assisting Black & Veatch and CWS with completing construction drawing planting and irrigation plans for the Forest Grove WWTF.  TERRA.fluxus – working closely with the client and team was able to meet a very aggressive schedule to send the project out to bid according to a revised schedule by CWS – keeping a critical path window open to ensure the project would happen before winter and be completed in a timely manner.   Thanks to all the great folks at Black & Veatch & CWS for the great communication, which was paramount on such a short timeline, in getting the project documents finished.

A snapshot of on the planting plans shows the various zones on this site to aid in a variety of site and soil prep, irrigation, and planting activities and the distinction between more dense areas and the outlying future expansion.  A number of stormwater facilities, including a rain garden, LIDA swale, and stormwater swale were also incorporated into the site for management and to provide examples of Clean Water Services overall sustainable stormwater management strategies.   Construction is slated to begin in early October including landscaping and irrigation – stay tuned for more updates.

Category : announcements, environmental, infrastructure, landscape, planting, projects, rain gardens, stormwater, sustainability, water
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31st Aug2011

Celebrating CAPACES Leadership Institute

by Jason King

A wonderful celebration last night in support of the CAPACES Leadership Institute, an amazing project underway in Woodburn, Oregon which is on track to be the first office building in the US designed and built to Passivhaus standards.   The event took place at the fantastic Bamboo Revolution in Portland, and featured some brief comments from Governor Kitzhaber, and emceeing by Oregon’s First Lady, Cylvia Hayes.  The pair was joined by a group of leaders in green building and farmworker rights to raise funds and celebrate this project and its progress.

The project has gathered steam in recent days, since getting the building permit and starting to erect walls – as shown in this photo from The Selective Omnivore, which is part of a great interview with Green Hammer‘s Gene Wixson, whom is acting as construction manager for the project.  Progress of the project is seen below.

TERRA.fluxus has been happy to contribute to the project through consulting with the green roof – including providing planting starts for propagation of the sedums on-site as well as providing consultation on the green roof integration.  We are currently working on finalizing irrigation design for the roof and site in order to look for donated materials and labor.

A few photos of the event as well – from Jerry Atkins (check out the whole set here)…

(Project rendering by Communitecture, Inc.)

(Governor & First Lady Chatting with PCUN’s Ramon Ramirez)

(Volunteers appreciative of being appreciated)

See more images and find out how you can contribute to the project at their website and stay tuned for more info.  Also find out how to donate to the project, or to volunteer contact Javier Lara (javierl@pcun.org)  or via phone at 503-997-4387.

 

Category : agriculture, announcements, community, ecoroofs, environmental, planting, projects, stormwater, sustainability, vegitecture
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13th Aug2011

Metro H2W Green Roof

by Jason King

I previously mentioned the design, along with ORANGEWALLstudios for the Metro Household Hazardous Waste (H2W) Green Roof project, which is slated to start construction in September.  We recently project includes re-roofing of this structure, along with over 2,500 square feet of green roof on multiple roof levels (see more on the project here).    We’re excited to see this project come to fruition, until then, a sneak-peek.

Category : ecoroofs, environmental, graphics, habitat, images, portland, projects, stormwater, sustainability, vegitecture
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05th Aug2011

A Trio of Noted Projects

by Jason King

Sifting around the wonder that is the internet, it is always a surprise to see something that references a project you’ve been involved in.  I managed the trifecta with references of recent project work in media and as part of educational materials.  Enjoy these little snapshots of projects.

HEALING ROOFTOPS

First, my friend and colleague Elizabeth Hart, who is a Sustainable Technologies Specialist at Tremco Roofing penned an article in Healthcare Development Magazine on ‘Green Roofs on Health Care Facilities‘, mentioning projects at Portland’s OHSU Hospital, as well as the Van Ness Medical Office Building in San Francisco, all projects designed by TERRA.fluxus.   The benefits of green roofs in hospitals is hard to quantify, but there are signs that this particular building type may be well-suited for multiple reasons for vegetated roofs.  As Hart mentions in her article:

“While the benefits can be attractive, a major setback for the green roof industry is that there is really no way to create a broadly applicable baseline for the benefits of adding a green roof.  Energy savings in the building, the capacity for storm water control, the exact number of years you can extend the life of the roof membrane – these factors shift with each unique building situation and green roof system.  They are living organisms and their functions vary widely with each microclimate, building type and method of install.  The lack of an easily quantifiable return on the investment can prove challenging in the early planning stages.  Despite this, green roofs seem to speak for themselves by how widely they have been adopted, and how rapidly they are changing the “nature” of hospital rooftops.”

 

INNOVATIVE IRRIGATION

Second, the 2011 Brochure for KISSS America – supplier of subsurface capillary irrigation, which TERRA.fluxus used on the OHSU CDRC Green Roof project, the first use on a green roof in the Portland area.  The beauty of sub-surface capillary irrigation is that it eliminates the issues with regular drip in porous, lightweight rooftop soils.   Click here for a link to the full PDF, showcasing some other great projects using this innovative technology.  A snapshot of the brochure showing the installation photos:

BROWNFIELD SUCCESS

Finally, a fact sheet published by the Environmental Protection Agency as part of their Brownfield program includes a ‘success story’ on the Emerson Street Garden, as formerly polluted site that was transformed by the community into a model for transforming underused properties into community assets.  TERRA.fluxus was involved in preliminary site planning for the garden, translating workshop comments and feedback into a roadmap for the site to follow as it took shape.  The site has evolved rapidly since these photos from last year, so will post more soon.  The fact sheet offers lots of background on the garden evolution, as well as resources related to brownfield redevelopment.

Download the entire PDF of the success story here.

Category : announcements, brownfields, ecoroofs, environmental, heathcare, installations, portland, press, projects, publications, stormwater, sustainability, urban voids, vegitecture
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20th Jul2011

Move the House Takes Shape

by Jason King

Lots of activity on the Move the House project, as artwork and landscaping along with final site elements come together.  The sidewalk has been poured, and street trees installed, green canopy planters on the first floor, along with the artwork and relocated tree along Division.  Contractor Lorentz Bruun along with landscape contractor Landservices of Oregon has done a great job of dealing with the unique complexities of the site and landscape elements and realizing the beautiful structure design by Francis Dardis of Stack Architecture.

The relocated tree was moved in a couple of weeks ago, a 25′ Japanese Maple that previously sat on the site near the house that was moved.  Developer and owner Urban Development Partners (UD+P) had the foresight to have the tree moved and stored off-site by Big Trees Today, then brought back to provide instant green along the street.  To accommodate the move, the root ball measured 100″ diameter, as seen in the photograph below.

The tree sits adjacent to the new cor-ten metal sculpture by Ivan McLean, which acts as a vertical wetland to capture water from building roofs and express the movement prior to conveyance back to the larger flow-through planter.  The sculpture itself measures 10′x10′ and provides a thin wedge that is both substantial and airy.  Below is the sculpture arriving on-site.

And it being located in it’s spot adjacent to the building along Division, where it will act as an iconic marker for passing traffic. Plantings will be located on top, inside, and along the front edge and water will travel vertically throughout these zones prior to overflowing.

The eventual route for stormwater comes to the extensive flow-through planter, located along the rear property line, which provides stormwater management for the site per City of Portland standards, which is particularly crucial as the site is located in a Combined Sewer Overflow area, so this site will hold water on-site for longer, alleviating pressure on the system in peak flows, and ensuring better water quality for our regions streams and rivers.  This infrastructure on-site is augmented by permeable paving in all other site locations – shown in the irregular patterning of gray and brown square unit pavers.

The other piece coming together is the living wall that will wrap the exterior of the trash enclosure.  This innovative feature, one of many funded by Metro as part of their Green Innovation Grant program – including the vertical wetland, green canopies, wildlife art, and signage.  The initial structure was built, which will house recycling and garbage but will be transformed into a significant site amenity.

Due to the central location, the concept calls for a series of troughs that wrap around two sides of the structure – designed by TERRA.fluxus and fabricated by Ivan Mclean – which will provide for a tapestry of vegetation that will provide color, texture, and scent to this area.  The initial armature has been welded in place, and you can see the structure along with a close-up of the troughs – which will hold soil and plants, and be irrigated with linear drip tubing.

Category : art, details, environmental, installations, landscape, living walls, materials, planting, portland, projects, rain gardens, stormwater, sustainability, vegitecture, water, wetlands
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