Presentation is loading. Please wait.

Presentation is loading. Please wait.

A Systematic, Multi-Criteria Decision Support Framework for Sustainable Drainage Design Jo-fai Chow, Dragan Savić, David Fortune, Zoran Kapelan, Netsanet.

Published byAlberta Megan Fletcher Modified over 8 years ago

Similar presentations

Presentation on theme: "A Systematic, Multi-Criteria Decision Support Framework for Sustainable Drainage Design Jo-fai Chow, Dragan Savić, David Fortune, Zoran Kapelan, Netsanet."— Presentation transcript:

1 A Systematic, Multi-Criteria Decision Support Framework for Sustainable Drainage Design Jo-fai Chow, Dragan Savić, David Fortune, Zoran Kapelan, Netsanet Mebrate You can download this presentation from chow-iahr2013 http://tinyurl.com/ chow-iahr2013 photo's courtesy of www.pptbackgrounds.net

2 About this Presentation Background Multiple Benefits (Green Values) of Sustainable Drainage Systems Systematic Evaluation Framework with Application Examples Maximising Multiple Benefits Conclusions 02 of 14slides

3 Background Trends in Drainage Industry Moving towards a sustainable approach 03 of 14slides Sustainable & Balanced Approach Traditional & Biased Approach Water Quantity Water Quality Other Benefits Water Quantity Water Quality

4 Background Trends in Drainage Industry Moving towards a sustainable approach Challenge Lack of commonly agreed standard for sustainable drainage design 03 of 14slides Sustainable & Balanced Approach Traditional & Biased Approach Water Quantity Water Quality Other Benefits Water Quantity Water Quality

5 Background Trends in Drainage Industry Moving towards a sustainable approach Challenge Lack of commonly agreed standard for sustainable drainage design Objective To develop a new decision support system for sustainable drainage design 03 of 14slides Sustainable & Balanced Approach Traditional & Biased Approach Water Quantity Water Quality Other Benefits Water Quantity Water Quality

6 Background Trends in Drainage Industry Moving towards a sustainable approach Challenge Lack of commonly agreed standard for sustainable drainage design Objective To develop a new decision support system for sustainable drainage design Collaboration Funded by EPSRC and XP Solutions Supervised by Uni. of Exeter, XP Solutions and STREAM IDC 03 of 14slides Sustainable & Balanced Approach Traditional & Biased Approach Water Quantity Water Quality Other Benefits Water Quantity Water Quality

7 Green Values (Multiple Benefits) of Sustainable Drainage Systems Water Quantity Reduction Runoff reduction, flood risk mgt., re-use 04 of 14slides photo's courtesy of XP Solutionsphoto's courtesy of ReneCreate

8 Green Values (Multiple Benefits) of Sustainable Drainage Systems Water Quantity Reduction Runoff reduction, flood risk mgt., re-use Water Quality Improvement On-site treatment 04 of 14slides photo's courtesy of XP Solutionsphoto's courtesy of ReneCreate photo's courtesy of EMPowerHouse photo's courtesy of roanokeoutside.com photo's courtesy of nzconservation.wordpress.com

9 Green Values (Multiple Benefits) of Sustainable Drainage Systems Water Quantity Reduction Runoff reduction, flood risk mgt., re-use Water Quality Improvement On-site treatment Environmental Impact Cleaner water & air, amenity, biodiversity, recreation, community 04 of 14slides photo's courtesy of XP Solutionsphoto's courtesy of ReneCreate photo's courtesy of EMPowerHouse photo's courtesy of roanokeoutside.com photo's courtesy of nzconservation.wordpress.com photo's courtesy of Arup photo's courtesy of Polypipe

10 Green Values (Multiple Benefits) of Sustainable Drainage Systems Water Quantity Reduction Runoff reduction, flood risk mgt., re-use Water Quality Improvement On-site treatment Environmental Impact Cleaner water & air, amenity, biodiversity, recreation, community Energy Saving Less cooling/heating, reduced carbon footprint 04 of 14slides photo's courtesy of XP Solutionsphoto's courtesy of ReneCreate photo's courtesy of EMPowerHouse photo's courtesy of roanokeoutside.com photo's courtesy of nzconservation.wordpress.com photo's courtesy of Arup photo's courtesy of Polypipe photo's courtesy of gregwalcher.wordpress.com photo's courtesy of china.org.cn

11 Green Values (Multiple Benefits) of Sustainable Drainage Systems Water Quantity Reduction Runoff reduction, flood risk mgt., re-use Water Quality Improvement On-site treatment Environmental Impact Cleaner water & air, amenity, biodiversity, recreation, community Energy Saving Less cooling/heating, reduced carbon footprint Green Image of Business 04 of 14slides photo's courtesy of XP Solutionsphoto's courtesy of ReneCreate photo's courtesy of EMPowerHouse photo's courtesy of roanokeoutside.com photo's courtesy of nzconservation.wordpress.com photo's courtesy of Arup photo's courtesy of Polypipe photo's courtesy of gregwalcher.wordpress.com photo's courtesy of china.org.cn photo's courtesy of Deloitte

12 Quantifying Green Values: From Good Feelings to Real Numbers 05 of 14slides Calculations based on previous research projects and case studies. For more information : 1.Conference Paper greenvalues 2.This presentation online (tinyurl.com/ greenvalues )

13 Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides

14 Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides Information from a typical drainage model (e.g. Type, Size, Location)

15 Four main categories of performance measures. Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides

16 Key performance indicators (KPIs) calculated for each infrastructure. Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides

17 Using physical attributes & location of infrastructures to calculate costs. Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides

18 Calculate monetary measures of benefits based on KPIs. Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides

19 Consider costs and benefits over the design life of systems. Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides

20 Drainage Model Putting the Numbers Together: A Systematic Evaluation Framework 06 of 14slides Multiple Benefits Monetary Benefits Costs Cost-Benefit Analysis

21 Using the Framework – Inputs: Components in a Drainage Design Model 07 of 14slides Bioretention Permeable Paving Wetland Swale photo's courtesy of XP Solutions Flow

22 Using the Framework – Outputs: Operational and Capital Expenditure 08 of 14slides

23 Using the Framework – Outputs: Operational and Capital Expenditure 08 of 14slides Swales are relatively cheap to build and maintain.

24 Using the Framework – Outputs: Operational and Capital Expenditure 08 of 14slides Permeable paving costs a lot more to build and maintain.

25 Using the Framework – Outputs: Operational and Capital Expenditure 08 of 14slides Question: can the costs be justified?

26 Using the Framework – Outputs: Key Performance Measures 09 of 14slides

27 Using the Framework – Outputs: Key Performance Measures 09 of 14slides Permeable paving can effectively reduce runoff via infiltration … but it does not add amenity value to the community.

28 Using the Framework – Outputs: Key Performance Measures 09 of 14slides At a fraction of the cost, swales can provide moderate runoff reduction and increase the amenity value as a result of the green surface areas.

29 Using the Framework – Outputs: Key Performance Measures 09 of 14slides Goal: moving away from subjective opinions to a systematic comparison. Each technique has its own advantages and disadvantages

30 Comparing Different Approaches: Sustainable vs. Traditional 10 of 14slides Bioretention Permeable Paving Bioretention Wetland Swale photo's courtesy of allbiz Let’s consider the sustainable design example discussed in previous slides again. What if we replace the swales and wetland with storage tanks?

31 Comparing Different Approaches: Sustainable vs. Traditional 10 of 14slides Bioretention Permeable Paving Bioretention Wetland Swale photo's courtesy of allbiz Storage Tank Let’s consider the sustainable design example discussed in previous slides again. What if we replace the swales and wetland with storage tanks?

32 Comparing Different Approaches: Sustainable vs. Traditional 10 of 14slides Bioretention Permeable Paving Bioretention Wetland Swale photo's courtesy of allbiz Storage Tank Question: is it worth considering the green approach after all? What do you think? Let’s consider the sustainable design example discussed in previous slides again. What if we replace the swales and wetland with storage tanks?

33 Comparing Different Approaches: Sustainable vs. Traditional 11 of 14slides

34 Comparing Different Approaches: Sustainable vs. Traditional 11 of 14slides Sustainable approach can provide multiple benefits in addition to water management.

35 Comparing Different Approaches: Sustainable vs. Traditional 11 of 14slides Sustainable approach costs about the same to operate, much less to build yet a lot more for the land occupied when compared to traditional approach.

36 Comparing Different Approaches: Sustainable vs. Traditional 11 of 14slides In this case, the framework suggests similar long-term costs for both approaches.

37 Comparing Different Approaches: Sustainable vs. Traditional 11 of 14slides (Let me repeat the key message again…) Each technique has its own advantages and disadvantages. Goal: moving away from subjective opinions to a systematic, evidence- based comparison.

38 Going Beyond Evaluation: Maximising Multiple Benefits 12 of 14slides Design Consideration: Legislative Requirements

39 Going Beyond Evaluation: Maximising Multiple Benefits 12 of 14slides Design Consideration: Legislative Requirements Location

40 Going Beyond Evaluation: Maximising Multiple Benefits 12 of 14slides Design Consideration: Legislative Requirements Location Sizing

41 Going Beyond Evaluation: Maximising Multiple Benefits 12 of 14slides Design Consideration: Legislative Requirements Location Sizing Type & Order ? ? ? ? ? ?

42 Going Beyond Evaluation: Maximising Multiple Benefits 12 of 14slides Design Consideration: Legislative Requirements Location Sizing Type & Order Identifying Trade-offs: Financial Consideration Multiple Benefits ? ? ? ? ? ?

43 Going Beyond Evaluation: Maximising Multiple Benefits 12 of 14slides Design Consideration: Legislative Requirements Location Sizing Type & Order Identifying Trade-offs: Financial Consideration Multiple Benefits Multi-objective optimisation ? ? ? ? ? ? photo's courtesy of University of Sheffield photo's courtesy of XP Solutions photo's courtesy of BME Imaging photo's courtesy of bfrss.org.uk

44 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design.

45 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system.

46 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system. Why green infrastructures? Because they can offer multiple benefits in addition to water management.

47 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system. Why green infrastructures? Because they can offer multiple benefits in addition to water management. Quantifying green values with KPIs and monetary measures.

48 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system. Why green infrastructures? Because they can offer multiple benefits in addition to water management. Quantifying green values with KPIs and monetary measures. A systematic evaluation framework – a better tool for optioneering.

49 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system. Why green infrastructures? Because they can offer multiple benefits in addition to water management. Quantifying green values with KPIs and monetary measures. A systematic evaluation framework – a better tool for optioneering. Integration with multi-objective optimisation – encourage the consideration of multiple benefits.

50 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system. Why green infrastructures? Because they can offer multiple benefits in addition to water management. Quantifying green values with KPIs and monetary measures. A systematic evaluation framework – a better tool for optioneering. Integration with multi-objective optimisation – encourage the consideration of multiple benefits. Research outputs for industrial sponsor: new features in their drainage design software suite.

51 Conclusions 13 of 14slides Challenges: lack of commonly agreed standard for sustainable drainage design. Aim: to develop a new decision support system. Why green infrastructures? Because they can offer multiple benefits in addition to water management. Quantifying green values with KPIs and monetary measures. A systematic evaluation framework – a better tool for optioneering. Integration with multi-objective optimisation – encourage the consideration of multiple benefits. Research outputs for industrial sponsor: new features in their drainage design software suite. “Essentially, all models are wrong, but some are useful.” – Professor George E.P. Box photo's courtesy of Amazon

52 Acknowledgement 14 of 14slides David Fortune and Netsanet Mebrate XP Solutions Professors Dragan Savić and Zoran Kapelan, University of Exeter

53 Thank you for your attention Any questions? jo-fai.chow@stream-idc.net chow-iahr2013 http://tinyurl.com/ chow-iahr2013 greenvalues http://tinyurl.com/ greenvalues xpdrainage http://tinyurl.com/ xpdrainage XPDrainage Software Demo: Monday (16 th Sep) Afternoon Shanghai

54 Additional Information: Capital and Operational Expenditure Extraslides

55 Additional Information: Estimation of Annual Reduced Runoff (m 3 ) Extraslides

56 Additional Information: Annual Energy Savings Extraslides

57 Additional Information: Amenity Value of New Habitats Extraslides

58 Additional Information: Determining Locations - Height Map Extraslides HIGH LOW Natural Flow Pattern (General)

59 Additional Information: Determining Locations - Deluge Extraslides Natural Ponding

60 Additional Information: Determining Locations – Site Layout Extraslides Draft site layout based on land value and expected return

61 Additional Information: Determining Locations – Mimic The Nature Extraslides Mini Sub-catchments Sustainable Drainage Systems Mimicking Natural Flow Patterns

62 Additional Information: Comparing Multiple Design Options Different design options.Comparing multiple benefits with parallel coordinates. Comparing cost-benefits for different options. Extraslides

Download ppt "A Systematic, Multi-Criteria Decision Support Framework for Sustainable Drainage Design Jo-fai Chow, Dragan Savić, David Fortune, Zoran Kapelan, Netsanet."

Similar presentations

1 Regional Policy investing in ecosystems & green infrastructure for regional development Mathieu Fichter Policy Analyst Environment European Commission.

1 Regional Policy investing in ecosystems & green infrastructure for regional development Mathieu Fichter Policy Analyst Environment European Commission.
GIS APPLICATIONS IN SELECTION OF SOLID WASTE DISPOSAL SITES

GIS APPLICATIONS IN SELECTION OF SOLID WASTE DISPOSAL SITES
Urban Developer Integrated Water Management From the sub-allotment to the subdivision eWater Road Show 21 Feb – Part 4 of 5 Dr Matthew Hardy Environmental.

Urban Developer Integrated Water Management From the sub-allotment to the subdivision eWater Road Show 21 Feb – Part 4 of 5 Dr Matthew Hardy Environmental.
Sustainable Construction

Sustainable Construction
LOGO Bangkok, May 2009 Water Resources Management in Ba River Basin under Future Development and Climate Scenarios Presented by: Nguyen Thi Thu Ha Examination.

LOGO Bangkok, May 2009 Water Resources Management in Ba River Basin under Future Development and Climate Scenarios Presented by: Nguyen Thi Thu Ha Examination.
Sustainable Approaches: Industrial Ecology and Pollution Prevention Chapter 21 © 2004 Thomson Learning/South-Western.

Sustainable Approaches: Industrial Ecology and Pollution Prevention Chapter 21 © 2004 Thomson Learning/South-Western.
Chapter 3 Program Management and Project Evaluation Professor Hossein Saiedian McGraw-Hill Education ISBN 0-07-710989-9 2006.

Chapter 3 Program Management and Project Evaluation Professor Hossein Saiedian McGraw-Hill Education ISBN
 Threats to Water Resources: Polluted Stormwater Water Resource Congress October 2014.

 Threats to Water Resources: Polluted Stormwater Water Resource Congress October 2014.
Low Impact Development They took all the trees and put them in a tree museum and they charged all the people a dollar and a half just to see 'em. Don't.

Low Impact Development They took all the trees and put them in a tree museum and they charged all the people a dollar and a half just to see 'em. Don't.
Www.werf.org Using Rainwater to Grow Livable Communities Sustainable Stormwater Best Management Practices (BMPs)

Using Rainwater to Grow Livable Communities Sustainable Stormwater Best Management Practices (BMPs)
26th Standing Conference on Stormwater Control, Dunfermline September 2004 Working Together - Implementing the DEX Drainage Master Plan Craig W Berry,

26th Standing Conference on Stormwater Control, Dunfermline September 2004 Working Together - Implementing the DEX Drainage Master Plan Craig W Berry,
Smarter Stormwater Management Kelly Schmitt Rose Stenglein An example of Low Impact Design.

Smarter Stormwater Management Kelly Schmitt Rose Stenglein An example of Low Impact Design.
Sustainable growth and water cycle studies Andy McConkey, principal consultant, Halcrow Paul Hickey, growth and equivalence manager, Anglian Water Gerard.

Sustainable growth and water cycle studies Andy McConkey, principal consultant, Halcrow Paul Hickey, growth and equivalence manager, Anglian Water Gerard.
Sustainable Water Infrastructure Ivy Anderson Andey Nunes.

Sustainable Water Infrastructure Ivy Anderson Andey Nunes.
Australian Perspective: EGSS Developments and Application Issues Peter Williams Assistant Director, Centre of Environment Statistics (P)+61 (0)2 6252 5758.

Australian Perspective: EGSS Developments and Application Issues Peter Williams Assistant Director, Centre of Environment Statistics (P)+61 (0)
What Constitutes a Good Quality Annual Report Corporate Social Responsibility Reporting By Ng Kean Kok.

What Constitutes a Good Quality Annual Report Corporate Social Responsibility Reporting By Ng Kean Kok.
Stephane Larocque – Consulting Practice Leader, Impact Infrastructure A DECISION MAKING FRAMEWORK FOR SUSTAINABLE INFRASTRUCTURE DEVELOPMENT 1 ST INTERNATIONAL.

Stephane Larocque – Consulting Practice Leader, Impact Infrastructure A DECISION MAKING FRAMEWORK FOR SUSTAINABLE INFRASTRUCTURE DEVELOPMENT 1 ST INTERNATIONAL.
Land as a Resource State of play 5 March 2015. Land as a Resource: at the crossroad of objectives 1 and 2 of 7 th Environmental Action Programme (EAP)

Land as a Resource State of play 5 March Land as a Resource: at the crossroad of objectives 1 and 2 of 7 th Environmental Action Programme (EAP)
Expressing Environmental Impact in Monetary Units - Environmental Accounting/Costing Approaches.

Expressing Environmental Impact in Monetary Units - Environmental Accounting/Costing Approaches.
Linking Sustainable urban Drainage Systems (SuDS) and ecosystem services: new connections in urban ecology Chunglim Mak 1, Philip James 1, and Miklas Scholz.

Linking Sustainable urban Drainage Systems (SuDS) and ecosystem services: new connections in urban ecology Chunglim Mak 1, Philip James 1, and Miklas Scholz.

Similar presentations

Ads by Google