Incorporating Environmental Costs in Decision Making Gordon Sparks – U of S / VEMAX Nicole Allen – M.Sc. Candidate / VEMAX September 29, 2010 Saskatchewan Ministry of Highways and Infrastructure
Acknowledgements SMHI ▫Ron Gerbrandt ▫Dave Stearns ▫Tom Davies HJR Asphalt Ltd. Battle River Asphalts VEMAX ▫Paul Christenson ▫Darian Brown
The Overall Objective Develop a framework to incorporate full costs (economic and environmental) into Saskatchewan Ministry of Highways and Infrastructure (SMHI) decision making
The Specific Project Objective As part of the innovation agenda SMHI tendered a hot-in-place recycling contract ▫Explore if HIR technology could offer reduced life cycle costs and reduced environmental impact Reduction of input materials (eg. aggregate)
Why is this important for SMHI? Saskatchewan Ministry of Environment GHG Bill 126 & SMHI Innovation Framework
What is GHG Bill 126 ? An Act respecting the Management and Reduction of Greenhouse Gases and Adaptation to Climate Change, including: ▫(i) measurement of GHG output ▫(ii) 20% reduction in GHG thresholds by 2020 ▫(iii) carbon compliance payments ▫(iv) carbon offset credits ▫(v) a technology fund to subsidize investments in low carbon technologies
What is the Innovation Framework ? SMHI is in the process of developing and implementing an “Innovation Framework” - the objective of which is to accelerate the integration of innovative ideas into standard practices for the Ministry Implementing new solutions and ideas that will lower economic and environmental costs
This Current Project - Addresses objectives for both Bill 126 & the Innovation Framework -
The Problem - Putting an economic value to environmental issues is a complex problem and includes high levels of inherent uncertainty When used in the context of decision making, trade-offs need to be made when comparing the economic and environmental costs
Part of the Solution – Decision Analysis Decision Analysis - process developed for problems that are: ▫Important ▫Complex ▫Have inherent uncertainty Decision Analysis provides a way to “explicitly” deal with complexity and incorporate and quantify the inherent uncertainty
Decision Analysis Basics Decision analysis is an in-depth subject, however, some key concepts and principles are provided below -
Decision Analysis - model Influence Model Requisite Model A model, agreed upon by all participants, representing all variables and influences for a problem
Decision Analysis - excel Excel Spreadsheet Model & Data
Decision Analysis – LCC profile Life cycle cost profile and discounted cash flow calculations
Decision Analysis – LCC uncertainty Role of uncertainty and sensitivity analysis
Decision Analysis – tornado plot A Tornado plot and selection of variables
Decision Analysis - probabilities Role of probability and simulation
Decision Analysis – risk profile Comparing risk profiles and expected values Expected value 95% Confidence Interval
Role of Decision Analysis Applying the full environmental costs to decision making is an important, complex problem with a high level of uncertainty ▫Additionally this analysis needs to be done in a way that is systematic, rational and transparent the type of problem that decision analysis can help to solve
Saskatchewan Experience Hot-in-place Recycling
HIR Background The first technology that this framework was applied to was HIR As part of the innovation agenda SMHI tendered a hot-in-place recycling contract Contracted with Battle River Asphalt Equipment Ltd. and HJR Asphalt Ltd. to complete a pilot segment of 70 lane km
Battle River Asphalt NXG 9000 – Recycle Train Derivative of 20 years of HIR experience 4 stage system - material is heated and removed in lifts of less than 15mm ▫Greater productivity ▫Less damage to materials less oxidization and damage to aggregate as material is soft at milling ▫More consistent temperatures in mix ▫Ability to meet specification in difficult conditions
HIR Equipment
Produce HMAC (Plant) Produce Bitumen (Refinery) Dilute Crude Oil (Facility) Produce Heavy Crude Oil (Oil Well) Transport Bitumen (Truck) Transport Blended Crude (Pipeline) Transport Crude Oil (Truck) Bitumen Produce Oil (Refinery) Produce Crude Oil (Oil Well) Transport Crude Oil (Pipeline) Transport Burner Oil (Truck) Burner Oil Produce Diesel (Refinery) Produce Light Crude Oil (Oil Well) Transport Light Crude (Pipeline) Transport Diesel (Truck) Diesel Extract Limestone (Quarry) Produce Hydrated Lime (Plant) Transport Limestone (Truck) Transport Hydrated Lime (Truck) Produce Aggregate (Crushing) Transport Aggregate (Truck) Lime Aggregate Produce Pavement (Paving) Transport HMAC (Truck) HMAC Mobilization Transport Equipment (Truck) Produce Reclaim (Mill) Transport Reclaim (Truck) Reclaim Reclaim Stock Pile Processing Transport Upstream Processing Upstream Transport Process Boundary Conventional HMAC
Produce HMAC (HIR) Transport Rejuvenator (Rail) Transport Crude Oil (Pipeline) Transport Rejuvenator (Truck) Produce Rejuvenator (Refinery) Produce Crude Oil (Oil Well) Rejuvenator Produce Propane (Refinery) Produce Natural Gas (Gas Well) Transport Natural Gas (Pipeline) Transport Propane (Truck) Propane Produce Diesel (Refinery) Produce Light Crude Oil (Oil Well) Transport Light Crude (Pipeline) Transport Diesel (Truck) Diesel Produce Corrective HMAC (Asphalt Plant) Transport Corrective HMAC (Truck) Corrective HMAC Produce Pavement (Paving) HMAC Mobilization Transport Equipment (Truck) Processing Transport Upstream Processing Upstream Transport Process Boundary HIR HMAC
Comparison of Various Pavement Design Alternatives Initially looked at a project with three types of HMAC ▫Conventional HMAC ▫HMAC with reclaim material ▫Rubberized HMAC HIR HMAC Project– Data Collection in progress
Illustrative Project Results
Requisite model -Full Initial Cost of HMAC ($/t)
Project Spreadsheet
Risk Profiles Cumulative Probability Alternative 1 Alternative 2 Alternative 3 Total Initial Cost – Including Cost of Carbon ($/tonne HMAC) Alternative 4
Overall Objective of this Project The development and application of an analysis framework which is: ▫Rational, ▫Systematic, and ▫Transparent That is capable of quantifying economic and environmental costs, including expected values and uncertainty, associated with alternative pavement rehabilitation methods