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Conceptual Evolution of
WSUD Concepts
Author: Sarah Black (n8594902)
Supervisor: Dr. Prasanna Egodawatta
Background: Water Sensitive
Urban Design
 Uncertainty Of Future Rainfall Patterns
 Storm Water - Last Main Unused Urban ...
Impacts of Urbanisation
 Australia’s Urban Population – 89% (2014)
 Climate Change Is Becoming Worse
 Australia - Fairl...
Negative Quantity Impacts
 Land Use Changes
 Water Cycle – Disrupted
 Higher Rate Of Discharge
Negative Quantity Impacts
Continued..
 Elevations In Base And Peak Flows
 Higher Risk Of Flash Flooding
 Rainfall Data ...
Negative Quality Impacts
 Increase Infrastructure Causing More Contaminants
 Increased Run Off Rates  More Sediments An...
Benefits of Urbanisation
 Collection Of Stormwater Runoff
 Encouraging Multi-disciplinary Collaboration
 Improving Liva...
Collection of Stormwater Runoff
 Promotes:
 Collection
 Recycling
 Treatment
 Re-Use
 For Use In:
 Irrigation
 Dus...
Encourage Multi-Disciplinary
Collaboration
 Better Results Achieved
 Problem Is Approached In Holistic Way
 Collective ...
Improve Livability
 Collect, Treat And Re-use
 Maintain Affordable Prices
 Less Destruction
 Protect Waterways
Integration of WSUD in Urban
Planning and Design
 Historical Water Management Concepts
• Urban Stream Syndrome
• Past  C...
 WSUD Structural Devices
• Constructed Wetland
• Water Body With Vegetation
• Removes Pollutants
• Sand Filter
• Filter Bed - Two Compartments
• Removes Pollutants
• Retains Both Fine And Coarse Sediment
Constructed Wetlands
Port Phillip, Melbourne, Australia
Treatment Train
Heritage Park, Minneapolis, United States
The Future of WSUD
 Challenges
• Climate Change And Urbanisation – Catalysts
• Implementation Of WSUD
• Data Needs To Be ...
The Future Of WSUD
Continued..
 Future Concepts
• Porous Pavement
• Infiltration And Treatment
• Witholds A Fair Load
• M...
 Future Concepts
• Treatment Of Water To A Drinking Water Standard
• Level of Treatment Not High Enough For Drinking
• Au...
Recommendations
 Further Embrace ‘Multi-disciplinary Collaboration’
 Provide Educational Sessions For WSUD Communities (...
Thank You 
Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black
Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black
Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black
Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black
Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black
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Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black

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Completed as part of BEB801 (Thesis) at Queensland University of Technology (2016).

Veröffentlicht in: Ingenieurwesen
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Conceptual Evolution of Water Sensitive Urban Design (WSUD) Concepts - Sarah Black

  1. 1. Conceptual Evolution of WSUD Concepts Author: Sarah Black (n8594902) Supervisor: Dr. Prasanna Egodawatta
  2. 2. Background: Water Sensitive Urban Design  Uncertainty Of Future Rainfall Patterns  Storm Water - Last Main Unused Urban Water Resource  WSUD – Harvesting Stormwater  WSUD – Influences (Urbanisation and Climate Change)
  3. 3. Impacts of Urbanisation  Australia’s Urban Population – 89% (2014)  Climate Change Is Becoming Worse  Australia - Fairly Resilient, But Tolerance May Be Exceeded  It Is Important For WSUD To Be Incorporated Into Community Areas
  4. 4. Negative Quantity Impacts  Land Use Changes  Water Cycle – Disrupted  Higher Rate Of Discharge
  5. 5. Negative Quantity Impacts Continued..  Elevations In Base And Peak Flows  Higher Risk Of Flash Flooding  Rainfall Data Needs To Be Analysed  Data Presented In IFD Curves
  6. 6. Negative Quality Impacts  Increase Infrastructure Causing More Contaminants  Increased Run Off Rates  More Sediments And Nutrients  Sources Of Pollution  Treatment Incorporated Into WSUD  Water Guidelines And Quality Objectives
  7. 7. Benefits of Urbanisation  Collection Of Stormwater Runoff  Encouraging Multi-disciplinary Collaboration  Improving Livability
  8. 8. Collection of Stormwater Runoff  Promotes:  Collection  Recycling  Treatment  Re-Use  For Use In:  Irrigation  Dust Supression  Ornamental Use
  9. 9. Encourage Multi-Disciplinary Collaboration  Better Results Achieved  Problem Is Approached In Holistic Way  Collective Solutions
  10. 10. Improve Livability  Collect, Treat And Re-use  Maintain Affordable Prices  Less Destruction  Protect Waterways
  11. 11. Integration of WSUD in Urban Planning and Design  Historical Water Management Concepts • Urban Stream Syndrome • Past  Capturing And Storing • Progression  Filtering And Treatment • Present  Integration Of WSUD Strategies Into Urban Planning And Design
  12. 12.  WSUD Structural Devices • Constructed Wetland • Water Body With Vegetation • Removes Pollutants
  13. 13. • Sand Filter • Filter Bed - Two Compartments • Removes Pollutants • Retains Both Fine And Coarse Sediment
  14. 14. Constructed Wetlands Port Phillip, Melbourne, Australia
  15. 15. Treatment Train Heritage Park, Minneapolis, United States
  16. 16. The Future of WSUD  Challenges • Climate Change And Urbanisation – Catalysts • Implementation Of WSUD • Data Needs To Be Analysed
  17. 17. The Future Of WSUD Continued..  Future Concepts • Porous Pavement • Infiltration And Treatment • Witholds A Fair Load • Made From Asphalt Or Concrete • 20+ Before They Need Replacing
  18. 18.  Future Concepts • Treatment Of Water To A Drinking Water Standard • Level of Treatment Not High Enough For Drinking • Australia – Water Scarce • Wagga, Albury and Canberra – Portion of Water Recycled Stormwater
  19. 19. Recommendations  Further Embrace ‘Multi-disciplinary Collaboration’  Provide Educational Sessions For WSUD Communities (Which Will Outline The Economic, Environmental And Social Benefits Of WSUD)  Undertake Further Studies On How To Treat Storm Water To An Acceptable Drinking Water Standard And Exploration Of New Technologies  Further Develop Porous Pavement Technologies
  20. 20. Thank You 

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