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Duffin Creek WPCP Optimized Renewal Planning & Decision-Making

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Presentation on theme: "Duffin Creek WPCP Optimized Renewal Planning & Decision-Making"— Presentation transcript:

1 Duffin Creek WPCP Optimized Renewal Planning & Decision-Making
Faruque Mia: Infrastructure Engineer, Region of York Aman Singh: Lead Business Consulting, GHD Canada CNAM 2014 Conference Toronto, Ontario May 20-23, 2014

2 Agenda Duffin Creek WPCP Overview Infrastructure Management Framework
Processes Data Requirements Implementation Plan

3 Duffin Creek WPCP Overview

4 Duffin Creek WPCP Overview
Accepts wastewater flows from both the Regions of York and Durham Stage 3 built in 2010 to increase treatment capacity to 630 MLD Stages 1 & 2 undergoing renewal works

5 IM Framework – Overview
Objectives Provide a systematic approach for optimizing decisions for infrastructure renewal planning Determine decision variables needed for renewal planning Develop frameworks that feed information into existing decision making processes for Infrastructure Renewal projects

6 IM Framework – Overview
Approach Consider processes, data, systems, people Multi-level practice Prioritization and optimization Multi-year implementation

7 IM Framework – Processes
1 Establish Customer & Asset LOS, KPIs & Targets 2 Set Asset Hierarchy, Inventory & Baseline Data Requirements 3 Inspect Infrastructure & Collect Data 4 5 Evaluate & Report Asset Performance Model Asset Deterioration 6 Assess Criticality & Risk 7 Optimize Renewal Decision Making Infrastructure Improvement Planning (IIP)

8 Set Asset Hierarchy, Inventory & Baseline Data Requirements
2 IM Framework – Set Asset Hierarchy, Inventory & Baseline Data Requirements ????

9 Model Asset Deterioration
IM Framework – 5 Model Asset Deterioration Asset Deterioration Model CI(t) = Cnew*EXP(-((t/(TSL/-LN(Cpoor/Cnew)^(1/Alpha)))^Alpha))

10 Model Asset Deterioration
IM Framework – 5 Model Asset Deterioration Self-Correcting Condition-Based Deterioration Model CI(t) = Cnew*EXP(-((t/(TlatestCdn/-LN(Clatest/Cnew)^(1/Alpha)))^Alpha)))

11 Model Asset Deterioration
IM Framework – 5 Model Asset Deterioration Self-Correcting Condition-Based Deterioration Model

12 Model Asset Deterioration
IM Framework – 5 Model Asset Deterioration Self-Correcting Condition-Based Deterioration Model

13 Assess Criticality & Risk
IM Framework – 6 Assess Criticality & Risk Risk Assessment Data

14 Assess Criticality & Risk
IM Framework – 6 Assess Criticality & Risk Weighted Risk Score

15 Assess Criticality & Risk
IM Framework – 6 Assess Criticality & Risk Redundancy

16 Assess Criticality & Risk
IM Framework – 6 Assess Criticality & Risk Risk Score → CI at Replace

17 Optimize Renewal Decision Making
7 IM Framework – Optimize Renewal Decision Making Service Life based on Failure State set by Risk Level

18 Optimize Renewal Decision Making
7 IM Framework – Optimize Renewal Decision Making Service Life based on Failure State set by Risk Level T(CI) = TCdn/(-LN(Clatest/Cnew))^(1/Alpha)*-LN(CI/Cnew)^(1/Alpha)

19 Optimize Renewal Decision Making
7 IM Framework – Optimize Renewal Decision Making Outputs Forecast Replacement Year & Cost Forecast Remaining Service Life Forecast Inspection Type & Timing Forecast 10-year Ave Annual Expenditure

20 Optimize Renewal Decision Making
7 IM Framework – Optimize Renewal Decision Making Outputs Forecast Replacement Year & Cost Forecast Remaining Service Life Forecast Inspection Type & Timing Forecast 10-year Ave Annual Expenditure

21 Inspect Infrastructure & Collect Data
3 IM Framework – Inspect Infrastructure & Collect Data Direct Condition Rating Grade Condition CI Deficiencies 1 Excellent 100 Very good physical condition – no wear & tear, no or minimum risk of failure Capacity appears adequate (where applicable) Performance meets expectation Minimum or no maintenance requirement 1.5 Excellent to Good 90 2 Good 80 Good physical condition – minor wear & tear, minimum risk of failure Minimum maintenance requirement 2.5 Good to Fair 70 3 Fair 60 Acceptable physical condition – moderate wear & tear, moderate risk of failure Performance still meets expectation Moderate maintenance requirement 3.5 Fair to Poor 50 4 Poor 40 Poor physical condition – heavy wear & tear, significant risk of failure Capacity appears still adequate (if applicable) Performance barely meet expectation Heavy maintenance requirement 4.5 Poor to Very Poor 30 5 Very Poor 20 Bad physical condition – heavy wear & tear, failure is imminent Asset cannot be operated safely without rehab or replacement

22 Inspect Infrastructure & Collect Data
3 IM Framework – Inspect Infrastructure & Collect Data Distress Survey

23 Inspect Infrastructure & Collect Data
3 IM Framework – Inspect Infrastructure & Collect Data Condition Index

24 Evaluate & Report Asset Performance
IM Framework – 4 Evaluate & Report Asset Performance Types Customer Asset Program

25 Evaluate & Report Asset Performance
IM Framework – 4 Evaluate & Report Asset Performance Customer Cost of Wastewater Treatment & Disposal per Megalitre (at Duffin Creek WPCP) 5 Year Running Average Capital Reinvestment / Replacement Value •Capital Reinvestment / 1,000 ML Treated

26 Evaluate & Report Asset Performance
IM Framework – 4 Evaluate & Report Asset Performance Asset Are we keeping our assets in the appropriate condition to adequately manage risk? Catastrophic CoF Assets: % of assets that exceed Cdn Grade 2 (worse than Good) For Major CoF Assets: % of assets that exceed Cdn Grade 3 (are worse than Fair) For Moderate CoF Assets: % of assets that exceed Cdn Grade 4 (are worse than Poor)

27 Evaluate & Report Asset Performance
IM Framework – 4 Evaluate & Report Asset Performance Program Consistency in Renewal Cost Modeling Cost of Asset Renewal: Actual vs Budget Effectiveness of Asset End of Life Prediction Reactive Maintenance Ratio

28 IM Framework – Data Req’ts

29 Optimize Renewal Decision Making
IM Framework – 7 Optimize Renewal Decision Making What is optimized decision making? Systematic search for lowest-cost renewal investment

30 Optimize Renewal Decision Making
IM Framework – 7 Optimize Renewal Decision Making What is optimized decision making? Based on interaction of Cost trends (direct O&M, indirect) Condition trends (decay/survivor curve) Risk-consequence trends

31 Optimize Renewal Decision Making
IM Framework – 7 Optimize Renewal Decision Making Optimization Forecast Lifecycle Costs for each option

32 Optimize Renewal Decision Making
IM Framework – 7 Optimize Renewal Decision Making Optimization Select lowest-cost renewal investment

33 Implementation Plan Understanding the Gaps Addressing the Gaps

34 Questions? Contact Us: Faruque Mia
Infrastructure Engineer, Region of York Aman Singh Lead Business Consulting, GHD Canada

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