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  • Pocket swale between street and sidewalk for stormwater management, Providence Portland Medical Office.  Designers: Vala Christensen Landscape Architects, KPFF Consulting Engineers, Michael Maiden Foundry.  NE 45th Avenue and Halsey Street, Portland, Oregon.
    Green-Street-Pocket-Swale.jpg
  • Stormwater Management Facilities in the right-of-way provide water quality function before flows infiltrate at dry wells under the streets.  The engineered soil is the filter medium.  The inlet with steel grate is an overflow, to prevent backup flooding in the streets during storms of greater intensity or extended duration.  New Columbia project for the Housing Authority of Portland.
    Pocket-Swale-with-Overflow.jpg
  • Stormwater Management Facilities in the right-of-way provide water quality function before flows infiltrate at dry wells under the streets.  The engineered soil is the filter medium.  The inlet with steel grate is an overflow, to prevent backup flooding in the streets during storms of greater intensity or extended duration.  New Columbia project for the Housing Authority of Portland.
    Storm-Water-Swale-with-Overflow.jpg
  • Stormwater Management Facilities in the right-of-way provide water quality function before flows infiltrate at dry wells under the streets.  The engineered soil is the filter medium.  The inlet with steel grate is an overflow, to prevent backup flooding in the streets during storms of greater intensity or extended duration.  New Columbia project for the Housing Authority of Portland.
    Bioswale-with-Overflow.jpg
  • Landscaped stormwater planter strip manages rain water from the "first flush" during a rainfall event.  Stormwater has filled the first chamber and is overtopping a weir and filling the second chamber.  Green streets collect stormwater runoff and route it through facilities like this planter where vegetation and soils filter pollutants before allowing water to soak into the ground.  These facilities replenish groundwater and enhance neighborhood green spaces.  Green streets require routine cleaning and maintenance.  This facility is on NE 47th Avenue at NE Davis Street in Portland, Oregon.
    Green-Street-Stormwater-Planter.jpg
  • Effective stormwater management in a dense urban area.  Swales and stormwater planters collect stormwater from roof downspouts, parking lot and street.  Appropriate vegetation filters out pollutants in the stormwater before it soaks into the ground, naturally recharging groundwater.  RiverEast Center Stormwater Management facility - a public-private stormwater management partnership (PPP) in Portland, Oregon.
    Roof-Downspout-and-Weir.jpg
  • A stormwater curb extension retrofit to an existing street.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Green-Street-NW-21st-Ave-East.jpg
  • A stormwater curb extension retrofit to an existing street.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Weir-Stormwater-Curb-Extension.jpg
  • Landscaped stormwater planter strip manages rain water from the "first flush" during a rainfall event.  Stormwater has filled the first chamber and is overtopping a weir and filling the second chamber.  Green streets collect stormwater runoff and route it through facilities like this planter where vegetation and soils filter pollutants before allowing water to soak into the ground.  These facilities replenish groundwater and enhance neighborhood green spaces.  Green streets require routine cleaning and maintenance.  This facility is on NE 47th Avenue at NE Davis Street in Portland, Oregon.
    Storm-Water-Planter-First-Flush.jpg
  • Effective stormwater management in a dense urban area.  Swales and stormwater planters collect stormwater from roof downspouts, parking lot and street.  Appropriate vegetation filters out pollutants in the stormwater before it soaks into the ground, naturally recharging groundwater.  RiverEast Center Stormwater Management facility - a public-private stormwater management partnership (PPP) in Portland, Oregon.
    Swale-and-Jogger-in-Rain.jpg
  • A stormwater curb extension retrofit to an existing street.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Green-Street-NW-21st-Ave-West.jpg
  • A stormwater curb extension retrofit to an existing street.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Green-Street-Weir-NW-21st-Ave-East.jpg
  • Rounded river pebbles are used in swales and stormwater planters to protect filter media from erosive flow velocities.
    Rain-Garden-Detail-Pebbles.jpg
  • Effective stormwater management in a dense urban area.  Swales and stormwater planters collect stormwater from roof downspouts, parking lot and street.  Appropriate vegetation filters out pollutants in the stormwater before it soaks into the ground, naturally recharging groundwater.  RiverEast Center Stormwater Management facility - a public-private stormwater management partnership (PPP) in Portland, Oregon.
    Swale-Jogger-and-Public-Path.jpg
  • A stormwater curb extension retrofit to an existing street.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Green-Street-Planter-Fescue-BW.jpg
  • A public-private stormwater management partnership (PPP) - the first of its kind in Portland.  Runoff from the public street flows into a treatment swale on private property, where vegetation filters out pollutants before it soaks into the ground, naturally recharging groundwater.  RiverEast Center Stormwater Management facility in Portland, Oregon.
    Public-Private-Partnership-Stormwate...jpg
  • Vegetation in this stormwater curb extension filters out pollutants in the stormwater before it soaks into the ground, naturally recharging groundwater.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Green-Street-Planter-Grasses.jpg
  • A stormwater curb extension retrofit to an existing street on a slope (weirs).  Stormwater management facilities like this one are are also known as Green Street treatments.  East Burnside Street, Portland, Oregon.
    Stormwater-Curb-Extension-Storm.jpg
  • Effective stormwater management in a dense urban area.  Swales and stormwater planters collect stormwater from roof downspouts, parking lot and street.  Appropriate vegetation filters out pollutants in the stormwater before it soaks into the ground, naturally recharging groundwater.  RiverEast Center Stormwater Management facility - a public-private stormwater management partnership (PPP) in Portland, Oregon.
    Parking-Lot-Stormwater-Swale.jpg
  • A stormwater curb extension retrofit to an existing street.  Stormwater management facilities like this one are are also known as Green Street treatments.  NW 21st Avenue and Raleigh Street, Portland, Oregon.
    Green-Street-Portland.jpg
  • Umbrella Sculpture, stormwater swale and plaza, Providence Portland Medical Office.  Designers: Vala Christensen Landscape Architects, KPFF Consulting Engineers, Michael Maiden Foundry.  NE 45th Avenue and Halsey Street, Portland, Oregon.
    Umbrella-Stormwater-Sculpture.jpg
  • Umbrella Plaza, Providence Portland Medical Office.  Designers: Vala Christensen Landscape Architects, KPFF Consulting Engineers, Michael Maiden Foundry.  NE 45th Avenue and Halsey Street, Portland, Oregon.
    Umbrella-Stormwater-Plaza.jpg
  • Channel drain detail of stormwater facilities, Tanner Springs Park, Portland, Oregon.  This park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Channel Drain Steps.jpg
  • Art detail in undulating rail wall, Tanner Springs Park, Portland, Oregon.  This park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Tanner Springs Art 2.jpg
  • Vegetated Sand Filter.  Tanner Springs Park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Vegetated Sand Filter.jpg
  • Tanner Springs Park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Tanner-Springs-Park-Rail-Detail.jpg
  • Boardwalk detail, Tanner Springs Park, Portland, Oregon.  This park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Tanner Springs Boardwalk.jpg
  • Tanner Springs Park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Basalt-Cobble-Rainwater-Channel.jpg
  • Detail in undulating rail wall, Tanner Springs Park, Portland, Oregon.  This park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Undulating Rail Wall.jpg
  • Detail in undulating rail wall, Tanner Springs Park, Portland, Oregon.  This park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Undulating Rail Wall Detail.jpg
  • Art detail in undulating rail wall, Tanner Springs Park, Portland, Oregon.  This park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Tanner Springs Art 1.jpg
  • Tanner Springs Park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Rainwater-Recirculation-Pond.jpg
  • Tanner Springs Park in the Pearl District of downtown Portland, Oregon is a modern-day experiment in sustainable design and stormwater management.  The water feature, designed by Herbert Dreiseitl is an effort to re-create the pre-industrial wetlands and riparian ecology of the original Tanner Creek that flowed to the nearby Willamette River in the early 1800s.  One sustainability feature of the park is the collection, treatment and recirculation of all rainwater that falls within the park.  Additional sustainability features include the re-use of basalt cobbles, or Belgian Blocks, for walkways and the re-use of rusty railroad rails for the undulating wall.
    Tanner-Springs-Park-99-Rails.jpg
  • Students of Portland State University's Student Water Resources Group study details of an innovative stormwater management feature at the AIA Center for Architecture building.  This recently renovated building, formerly Mallory Stables Barn, at NW 11th Avenue and Flanders Street, Portland is now home to the American Institute of Architects.
    Students Study Stormwater
  • Rain garden manages stormwater runoff at Mt Tabor Middle School.  Partnership of the school, Portland Public Schools and Environmental Services built the rain garden to reduce storm flows to the public sewer line.  Sediments and pollutants are removed before the water gradually soaks into the ground.  A 10-year maintenance agreement has been signed.
    Rain-Garden-Flow-Control-Weir.jpg
  • The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.   The adjacent Vera Katz Sidewalk Park, or Sliver Park, includes a bioswale for stormwater treatment and a water channel of sculpted black basalt.  The water feature design, by Scott Murase of landscape architect firm Murase Associates, is part of the building's storm water management and is fed by roof runoff.
    Sculpted-Basalt-Water-Channel.jpg
  • Rain garden manages stormwater runoff at Mt Tabor Middle School.  Partnership of the school, Portland Public Schools and Environmental Services built the rain garden to reduce storm flows to the public sewer line.  Sediments and pollutants are removed before the water gradually soaks into the ground.  A 10-year maintenance agreement has been signed.
    Rain-Garden-During-Storm.jpg
  • The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.   The adjacent Vera Katz Sidewalk Park, or Sliver Park, includes a bioswale for stormwater treatment and a water channel of sculpted black basalt.  The water feature design, by Scott Murase of landscape architect firm Murase Associates, is part of the building's storm water management and is fed by roof runoff.
    Sculpted-Basalt-Water-Feature.jpg
  • The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.   The adjacent Vera Katz Sidewalk Park, or Sliver Park, includes a bioswale for stormwater treatment and a water channel of sculpted black basalt.  The water feature design, by Scott Murase of landscape architect firm Murase Associates, is part of the building's storm water management and is fed by roof runoff.
    Vera-Katz-Sidewalk-Park-Granite.jpg
  • The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.   The adjacent Vera Katz Sidewalk Park, or Sliver Park, includes a bioswale for stormwater treatment and a water channel of sculpted black basalt.  The water feature design, by Scott Murase of landscape architect firm Murase Associates, is part of the building's storm water management and is fed by roof runoff.
    Armory-Building-Portland.jpg
  • The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.   The adjacent Vera Katz Sidewalk Park, or Sliver Park, includes a bioswale for stormwater treatment and a water channel of sculpted black basalt.  The water feature design, by Scott Murase of landscape architect firm Murase Associates, is part of the building's storm water management and is fed by roof runoff.
    Armory-Building-and-Sliver-Park.jpg
  • Bioswales are now well established at the Ecotrust Building, 721 NW 9th Avenue in Portland.  The building's correct name is The Jean Vollum Natural Capital Center; tennants include Ecotrust and Patagonia.  This is a case study of Downtown Portland Sustainable Stormwater Facilities for students of Portland State University's Student Water Resources Group..
    Bioswales-Ecotrust-Building.jpg
  • Rain Garden in Vera Katz Sidewalk Park, or Sliver Park,  is part of the building's storm water management and is fed by roof runoff.  The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.
    Rain-Garden-Planter.jpg
  • Rain garden manages stormwater runoff at Mt Tabor Middle School.  Partnership of the school, Portland Public Schools and Environmental Services built the rain garden to reduce storm flows to the public sewer line.  Sediments and pollutants are removed before the water gradually soaks into the ground.  A 10-year maintenance agreement has been signed.
    Rain-Garden-Sedge-Plants.jpg
  • Artistic watering can rainwater downspout and swale.
    Stormwater-Downspout-2.jpg
  • Artistic watering can rainwater downspout and swale.
    Stormwater-Downspout-1.jpg
  • Rain garden manages stormwater runoff at Mt Tabor Middle School.  Partnership of the school, Portland Public Schools and Environmental Services built the rain garden to reduce storm flows to the public sewer line.  Sediments and pollutants are removed before the water gradually soaks into the ground.  A 10-year maintenance agreement has been signed.
    Storm-Drain-Iron-Grate.jpg
  • The First Regiment Armory Annex, commonly known as the Portland Armory Building, at 128 NW 11th Avenue.  The building was renovated from 2002 to 2006 (to LEED Platinum certification) and now houses the Gerding Theater, used primarily by the theatre group Portland Center Stage.   The adjacent Vera Katz Sidewalk Park, or Sliver Park, includes a bioswale for stormwater treatment and a water channel of sculpted black basalt.  The water feature design, by Scott Murase of landscape architect firm Murase Associates, is part of the building's storm water management and is fed by roof runoff.
    Vera-Katz-Sliver-Park.jpg
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