Stormwater Strategies
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Transcript of Stormwater Strategies
“English + Associates, Architects” is a Registered Provider with The American Institute of Architects Continuing Education Systems (AIA/CES). Credit(s) earned on completion of this program will be reported to AIA/CES for AIA members. Certificates of Completion for both AIA members and non-AIA members are available upon request.
This program is registered with AIA/CES for continuing professional education. As such, it does not include content that may be deemed or construed to be an approval or endorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product.
Questions related to specific materials, methods, and services will be addressed at the conclusion of this presentation.
LID + Resilient Design on the Texas Gulf Coast
Course Description
The presentation centers around a case study of a new library building recently construction approximately 1500 feet (less than 1/3 mile) from Galveston Bay, in a sensitive ecosystem area also subject to storm surges associated with periodic Hurricanes. The presentation includes a review of the varied ecosystems present along the nearby Texas Gulf Coast, focusing on responsible design in those areas already containing significant development, and therefore unlikely candidates for large-scale ecosystem preservation. The presentation will review the initial site ecosystem assessment, development of LID and resilient design strategies in the early design phases, and a more detailed description of the systems ultimately incorporated in the site and building design. These include re-constructed wetlands, bioswales, underground detention and retention filtration methods, and native and adaptive plant selection, as well as building envelope resilient elements. Metrics associated with run-off rate reduction and storm water filtration will also be provided.
Learning Objectives
1. Attendees will be able to understand the various ecosystems present on the Texas Gulf Coast, and the importance of these systems in protecting the health of the local natural environment.
2. Attendees will be exposed to various design strategies that mimic or respond to coastal ecosystems in order to create resilient sites and buildings.
3. Attendees will be able to identify potential plant selections for both LID and salt water inundation environments.
4. Attendees will be able to identify the basic construction elements of swales, bio-swales, wetlands, underground detention/retention, and filtration systems.
At the end of this program, participants will be able to:
Texas Ecosystems
Coastal Prairies
Coastal Prairie
Coastal Marsh
What is a Coastal Prairie• Tall grass and shrubs
instead of trees. • Hard clay layer
under the topsoil.• Abundant amount
of rainfall. After enough rainfall the coastal prairie will turn in to a coastal marsh.
• Warm, moist, tropical air masses.
Definition of Wetland:“Those areas that are inundated or saturated by surface or groundwater at a frequency and duration sufficient to support, and that under normal circumstances do support, a prevalence of vegetation typically adapted for life in saturated soil conditions. Wetlands generally include swamps, marshes, bogs, and similar areas.”
Plant & Animal Species
Gayfeather Black-eyed Susan Little Bluestem Indiangrass
Ibis Red Tailed Hawk DragonflyButterfly
Ecological Services
Food
Plant and animal species
Textiles and dyesMedicine
Migration Destination
Filtration of local and federal waters
Buffer from storm surges
Plants supply oxygen
Dangers to Coastal PrairiesPre-settlement there were 9 million acres of coastal prairies with 6.5 million of them in Texas. Today less than 1% survive giving Texas only 65,000 acres left.
Overgrazing
ExtinctionThere are less than 100 Attwater Greater Prairie Chickens left in the wild and is only found in coastal prairies.
Invasion of Exotic PlantsThe Macartney Rose and Chinese Tallow Tree are two of the most problematic invaders.
People/Development Encroachment
Restoration and Preservation of Coastal Prairies
1. Preparation by herbicide, solarization, or
tillage
2. Planting by haying, seeding, sodding, or transplanting
3. Management by mowing, irrigation,
grazing, and fire
Sensitive Ecosystems
Trinity Bay
Galveston Bay East Bay
Gulf of Mexico
Region
Project Site
Meador Library Case Study Site
Natural Stream
Channelized Stream
Developed Site Amenities
Previously Cleared Wetland/Coastal Praire
Naturalized Stream
Vegetation
Local Wildlife
Recreating Natural Amenities
Use native salt water resilient plants [Halophytes]
Recreate wetland environment
Maximize green space
Storm Surge Considerations
Code Minimum Height: 12’6
Presumed Worse Case: 17’
Category 4 Model Storm: 13’
Site Hydrology
1
2
3
4 44
5
6
1. Building2. Constructed Wetland3. Terraced Swale4. Vegetated Bioswale5. Subsurface
Retention/Detention6. Outflow to Drainage
Constructed Wetland
OutflowWater level
Root flow
Nitrification, denitrification, adsorption, absorption, ion exchange
Gravel, substrate, sand
Water flow
Impermeable layer Inflow
Terraced Grassy Swale
Bioswale with Retention/Detention Basin
Plant Material for Bioswales
Blue Flag Iris
Wax mallow
Butterfly Iris Dwarf Katie Ruellia
Deep-rooted, native, salt water resistant plants are important factors to consider when picking the plant material for a bioswale in a coastal prairie.
Cordgrass Gulf Coast Muhly
Design the Site with LID
•Total site area-218,150sf (or approx. 5 acres) Building footprint-21,125sf Developed footprint-55,900sf Open space-141,125sf
•The site post developed runoff rate is less than the Pre-developed Run off rate for the 2-year 24hr event.
•The site is designed as a series of overflows to slow the run off rate dramatically from the pre-developed rate.•The site as designed is capable of storing 10,300cf/storm event (or 77,049 gallons) within the combination of raintank, bioswales, and rain garden and the amount of detention is 25,720 cf.•Amount of water stored onsite and used for irrigation during the July design case – 77,123gals captured during the month allowing for a 109% reduction in potable water use for the month of July. •Over 80% of the suspended solids are removed from over 90% of the storm runoff•Plant type was designed to be native drought tolerant plants. The plants also were to be able to withstand the salt environment and handle sustained wet conditions during the storm events.
Materials
•Building envelope designed for high wind loads• Roof is rated for 190mph storm• Building structure is rated for 120mph• Coiling storm doors are rated for 140mph
•Curtainwall system is rated for 130mph•Limited glazing not protected by shutters•Non shuttered glazing is large missile impact laminated double insulated semi reflective Low-E glazing•Minimal use of wood and other nondurable materials•Minimized cantilevers, fins, and overhangs
Shutter System Illustration
What Our Client Asked For• Code Minimum• Withstand forces similar to Hurricane Ike without damage• Meet current needs of library plus be able to expand with
technology• Warm and inviting to community
What They Didn’t Ask For• Highly sensitive to local environment• LEED [Did ask for further along in the process]• Take advantage of natural systems beyond local
regulatory requirements for the site design
Kathleen [email protected]
This concludes The American Institute of Architects Continuing Education Systems Course