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The 72,000-square-foot arena houses an NHL-sized sheet of ice and can seat 1,200 people. The addition included several energy efficient designs and <span title="Green stormwater infrastructure is designed to mimic nature and capture rainwater where it falls. Green infrastructure reduces and treats stormwater at its source while while also providing multiple community benefits such as improvements in water quality, reduced flooding, habitat, carbon capture, etc."> '''green infrastructure'''</span> components. The building’s energy-efficient design includes skylights coupled with daylight harvesting sensors, 16 solar panels that provide energy for the ice resurfacing equipment, a heated flooring system that uses only waste heat from other mechanical systems, and seating benches made from recycled lumber.  
 
The 72,000-square-foot arena houses an NHL-sized sheet of ice and can seat 1,200 people. The addition included several energy efficient designs and <span title="Green stormwater infrastructure is designed to mimic nature and capture rainwater where it falls. Green infrastructure reduces and treats stormwater at its source while while also providing multiple community benefits such as improvements in water quality, reduced flooding, habitat, carbon capture, etc."> '''green infrastructure'''</span> components. The building’s energy-efficient design includes skylights coupled with daylight harvesting sensors, 16 solar panels that provide energy for the ice resurfacing equipment, a heated flooring system that uses only waste heat from other mechanical systems, and seating benches made from recycled lumber.  
  
The green infrastructure on the site is also comprehensive. A <span title="Permeable pavements allow stormwater runoff to filter through surface voids into an underlying stone reservoir for temporary storage and/or infiltration. The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers (PICP)."> '''[https://stormwater.pca.state.mn.us/index.php?title=Permeable_pavement permeable pavement]'''</span> system constructed of recycled materials and a rain garden help manage and treat stormwater runoff. Of particular note, however, is the 33,000-square-foot green roof on top of the arena.
+
The green infrastructure on the site is also comprehensive. A <span title="Permeable pavements allow stormwater runoff to filter through surface voids into an underlying stone reservoir for temporary storage and/or infiltration. The most commonly used permeable pavement surfaces are pervious concrete, porous asphalt, and permeable interlocking concrete pavers (PICP)."> '''[https://stormwater.pca.state.mn.us/index.php?title=Permeable_pavement permeable pavement]'''</span> system constructed of recycled materials and a rain garden help manage and treat stormwater runoff. Of particular note, however, is the 33,000-square-foot <span title="Green roofs consist of a series of layers that create an environment suitable for plant growth without damaging the underlying roof system. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention."> '''[https://stormwater.pca.state.mn.us/index.php?title=Green_roofs green roof]'''</span> on top of the arena.
  
 
The green roof is semi-intensive and incorporates grasses, prairie plants, and succulents. In total, more than 50,000 plants make up the green roof. It was among the largest in the Midwest at the time of construction.  
 
The green roof is semi-intensive and incorporates grasses, prairie plants, and succulents. In total, more than 50,000 plants make up the green roof. It was among the largest in the Midwest at the time of construction.  
 
   
 
   
After construction, the Shakopee Mdewakanton Sioux Community Land and Natural Resources Department conducted a four-year intensive monitoring study that evaluated the green roof’s ability to retain stormwater. Rainfall, irrigation, and bypass drainage volumes, along with soil moisture and evapotranspiration were measured and recorded at regular intervals. Throughout the study, all precipitation events less than 0.25 inches were retained by the roof with no drainage from the system, while about half of the events between 0.25 inches and 0.50 inches in size were completely retained by the green roof.  
+
After construction, the Shakopee Mdewakanton Sioux Community Land and Natural Resources Department conducted a four-year intensive monitoring study that evaluated the green roof’s ability to retain stormwater. Rainfall, irrigation, and <span title="Stormwater runoff in excess of the design flow, which is diverted around a stormwater structure"> '''bypass drainage'''</span> volumes, along with <span title="The total amount of water a soil can hold at field capacity."> '''soil moisture'''</span> and <span title="Loss of water to the atmosphere as a result of the joint processes of evaporation and transpiration through vegetation"> '''evapotranspiration'''</span> were measured and recorded at regular intervals. Throughout the study, all precipitation events less than 0.25 inches were retained by the roof with no drainage from the system, while about half of the events between 0.25 inches and 0.50 inches in size were completely retained by the green roof.  
  
 
The study found that soil moisture greatly impacted the green roof’s ability to retain precipitation, as media that is already saturated cannot retain additional water. Conversely, the green roof performed best when soil moistures were very low. Under these conditions, storms of up to 1 inch could be completely retained.
 
The study found that soil moisture greatly impacted the green roof’s ability to retain precipitation, as media that is already saturated cannot retain additional water. Conversely, the green roof performed best when soil moistures were very low. Under these conditions, storms of up to 1 inch could be completely retained.

Revision as of 18:50, 19 February 2021

Warning: This page is an edit and testing page use by the wiki authors. It is not a content page for the Manual. Information on this page may not be accurate and should not be used as guidance in managing stormwater.


Dakotah! Ice Center Green Roof and Sustainability Project

image of permeable pavers and rain garden at Dakotah! ice center
Dakotah! Ice Center permeable pavers and rain garden
image of green roof construction
Green roof construction
image of finished green roof with solar panels
Finished green roof with solar panels
image of green roof plantings
Green roof plantings

Dakotah! Ice Center was constructed in 2008 for the Shakopee Mdewakanton Sioux Community (SMSC). This building was an expansion to the existing Dakotah! Sport and Fitness facilities and was designed with green initiatives. The building is home to the Prior Lake High School girls and boys high school hockey teams, as well as the Prior Lake/Savage Youth Hockey Association,

The 72,000-square-foot arena houses an NHL-sized sheet of ice and can seat 1,200 people. The addition included several energy efficient designs and green infrastructure components. The building’s energy-efficient design includes skylights coupled with daylight harvesting sensors, 16 solar panels that provide energy for the ice resurfacing equipment, a heated flooring system that uses only waste heat from other mechanical systems, and seating benches made from recycled lumber.

The green infrastructure on the site is also comprehensive. A permeable pavement system constructed of recycled materials and a rain garden help manage and treat stormwater runoff. Of particular note, however, is the 33,000-square-foot green roof on top of the arena.

The green roof is semi-intensive and incorporates grasses, prairie plants, and succulents. In total, more than 50,000 plants make up the green roof. It was among the largest in the Midwest at the time of construction.

After construction, the Shakopee Mdewakanton Sioux Community Land and Natural Resources Department conducted a four-year intensive monitoring study that evaluated the green roof’s ability to retain stormwater. Rainfall, irrigation, and bypass drainage volumes, along with soil moisture and evapotranspiration were measured and recorded at regular intervals. Throughout the study, all precipitation events less than 0.25 inches were retained by the roof with no drainage from the system, while about half of the events between 0.25 inches and 0.50 inches in size were completely retained by the green roof.

The study found that soil moisture greatly impacted the green roof’s ability to retain precipitation, as media that is already saturated cannot retain additional water. Conversely, the green roof performed best when soil moistures were very low. Under these conditions, storms of up to 1 inch could be completely retained.

Additional Information:

  • Location: Prior Lake, MN
  • Owner: Shakopee Mdewakanton Sioux Community
  • Designer: HTG Architects; Bolton & Menk
  • Year of Completion: 2008

Design Features:

  • Large green roof
  • 6-inch semi-intensive green roof. Native grasses and forbs were planted into a soil media composed of pumice, ground coconut husks and pine bark. Succulent cuttings were hand tossed on the surface.
  • Native planting beds in place of turf
  • Recycled permeable pavers
  • Rain garden
  • Solar panels, skylights, and other energy efficient components

Total Drainage Area:

  • Green Roof: 32,600 square feet
  • Permeable Pavers: 14,000 square feet

Pretreatment: None

Documented Maintenance Practices:

  • Green Roof: Routine weeding
  • Rain Gardens: Routine cut back and weeding
  • Permeable Pavers: Routine paver sweeping
  • Pollutant Removal: Unknown

Is the Site Publicly Accessible: Yes

Special Design Features:

  • The permeable pavers are made from recycled tire rubber and plastics. At the end of their lifespan, the pavers can be recycled into new pavers.
  • 16 solar panels are installed on the roof of the center.
  • Other facility sustainability features include daylight harvesting skylights, recycled heating systems for seating areas, and seating constructed from recycled materials.

Notable Challenges:

  • Succulent establishment took longer on this green roof than on others installed by the owner. The owner worked with the plant contractor on a new method of starting succulent plantings. The new approach was to place the plants onto the surface instead of planting them into the soil. While this was not an experimental assessment, the roof became fully vegetated at a lower rate than prior green roof installations.
  • Considerable maintenance was required during the first several years to prevent trees from establishing before the succulents fully thrived. After the succulents were fully established, this became less of an effort.

Other Benefits: 16 solar panels are installed on the roof of the Dakotah! Ice Center.

References and External Links:

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