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Presented by: David Jackson & Michael Snavely, Cambridge Systematics, Inc. Robert Calix, Los Angeles County Metropolitan Transportation Authority May 9,

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Presentation on theme: "Presented by: David Jackson & Michael Snavely, Cambridge Systematics, Inc. Robert Calix, Los Angeles County Metropolitan Transportation Authority May 9,"— Presentation transcript:

1 Presented by: David Jackson & Michael Snavely, Cambridge Systematics, Inc. Robert Calix, Los Angeles County Metropolitan Transportation Authority May 9, 2011 Estimating Mobile Source GHG In Los Angeles County: A Web-based Tool for Calculating the Greenhouse Gas Benefits of Transportation Improvement Projects

2 2 LA Metro GHG Impact Toolset Agenda 1.Background/Context 2.Technical Approach 3.Web-Based Analysis 4.Applying Tools in the Gateway Cities COG 5.Results

3 1. Background SB 375 Mobile-Source GHG Reduction Legislation Sets GHG reduction targets for MPOs »Targets for 2020 and 2035 vs. 2005 »Metric : lbs CO 2 e per capita MPOs must develop “Sustainable Communities Strategy” (SCS) that: »Lays out regional strategy for meeting targets »Is integrated w/long range planning process »Has “reasonably expected” funding 3

4 1. Background SCAG Region SB 375 GHG Reduction Targets 4 Lbs carbon/capita Per weekday 8% 13%

5 5 1. Background Los Angeles County: Strained Infrastructure Los Angeles County

6 1. Background Los Angeles County: Strained Infrastructure 6 Estimated Growth 2005 - 2035

7 1. Background Opportunity to Measure (and fund) GHG Reduction… CS Moving Cooler sketch-planning methodologies »Adapt to reflect specific nature of travel within LA County. Metro’s Existing Congestion Mitigation Fee program site »Project & growth database accessible to all cities »Fee on new development to fund improvements to network »If projects coincide, fee solves unfunded mandate problem 7

8 Adapt “best practices” project methodologies to region –Local research for elasticities, speed-flow curves, etc. to accurately portray traveler response in LA County –Project-specific inputs that city staff can fill-in Develop and test a draft analytical spreadsheet tool Develop and test tool in a web-based environment. 8 2. Technical Approach Process Overview

9 2. Technical Approach Applicable Projects w/ GHG Reduction Potential 9 1.Intersection Improvements 2.Corridor System Operations Improvements 3.Roadway Capacity Improvements 4.On/Off-Ramp Capacity 5.RR Grade Separations 6.Transit Enhancements 7.Park-and-Ride Lots 8.Bike/Pedestrian Projects 9.Transit/Managed Lanes (HOT, Shared Busway) Limited to improvements eligible for fee program Either Reduce VMT – or – Reduce Delay

10 10 2. Technical Approach Process Overview VMT Reduction Projects (bike/ped, transit, park/ride) Corridor-Specific Details (ADT, Ridership) Corridor-Specific Details (ADT, Ridership) Project-Specific Details (extent, frequency) Project-Specific Details (extent, frequency) Other Local Factors (e.g, lot usage %) Other Local Factors (e.g, lot usage %) Project Effectiveness Change in Travel Time or Cost Apply Local Elasticity Vehicle Trip Reduction VMT Reduction LDV CO 2 e Emission Factors Average Trip Lengths CO 2 e Reduction Area-Specific Details (Density, Activity Centers) Area-Specific Details (Density, Activity Centers)

11 11 2. Technical Approach Process Overview Delay Reduction Projects – Corridor (Signal Sync, etc.) “Project” Inputs Corridor Details + Project-Specific (e.g. extent, # intersections) “Project” Inputs Corridor Details + Project-Specific (e.g. extent, # intersections) LDV CO 2 e Emission Factor by Speed Project CO 2 e Emissions Corridor No-Project Peak VHT & Congested Speed Corridor No-Project Peak VHT & Congested Speed “No Project” Inputs Corridor Details e.g. ADT + operations “No Project” Inputs Corridor Details e.g. ADT + operations Apply Appropriate Speed/Flow Curve Apply Appropriate Speed/Flow Curve Corridor Project Peak VHT & Congested Speed LDV CO 2 e Emission Factor by Speed CO 2 e Reduction No-Project CO 2 e Emissions No-Project CO 2 e Emissions

12 12 2. Technical Approach Process Overview Delay Reduction Projects – Intersection Projects Intersection Peak Period Approach Volumes Intersection Peak Period Approach Volumes Project- Specific Details Post - Improvement Delay Calculation Change in Total Peak Delay LDV CO 2 e Emission Factors CO 2 e Reduction Intersection Existing Delay Calculations Existing Condition

13 Project Type Project Performance Outputs CO 2 Emissions Calculation Bike/‌pedestrian Transit Park-and-ride Managed lanes Reduction in VMT Improvement in transit speeds Total reduction in VMT is multiplied by average VMT weighted speed light-duty vehicle emissions factor Additional transit revenue miles are multiplied by urban bus VMT weighted speed emission factor Emission factors (g/mi) for pre- and post- improvement urban bus speeds are multiplied by total transit miles Road capacity On/Off-Ramp capacity Intersection improvement System ops. Grade separation Change in peak speeds Change in intersection daily hours of delay Change in corridor average speed resulting from signal timing Total reduction in delay for at-grade rail crossings Emission factors (g/mi) for pre- and post- improvement speeds multiplied by total VMT Idle emission factor is multiplied by pre- and post- improvement intersection hours of delay. 13 2. Technical Approach Summary of Outputs – GHG Emission Calculations

14 3. Web-Based Analysis LA Metro CMF Webtool Fee Calculator Socioeconomic Forecast Data Project Database GHG Analysis

15 15 3. Web-Based Analysis LA Metro Project-Level GHG Sketch-Planning Tool

16 16 3. Web-Based Analysis LA Metro Project-Level GHG Sketch-Planning Tool

17 17 3. Web-Based Analysis LA Metro Project-Level GHG Sketch-Planning Tool User-specified Derived on back-end

18 18 3. Web-Based Analysis LA Metro Project-Level GHG Sketch-Planning Tool

19 19 Gateway Cities COG 4. Applying Tools in the Gateway Cities COG

20 4. Applying Tools in the Gateway Cities COG Background 27 Cities + Port of Long Beach Already dense & built out Low-income Very congested roadway network Transportation GHG reduction benefits 20 Initial SCS Analysis using Metro toolset shows considerable per capita reduction from Transportation projects

21 6. Results Project-level sketch planning tools serve policy need Web-based interface allows easy data entry for all users Transportation projects show potential for significant GHG reduction in communities at/near capacity Integration with congestion mitigation fee offers SCS funding solution Opportunities exist to improve and expand functionality 21

22 22 CONTACT David Jackson Cambridge Systematics, Inc. Bethesda, MD 301-347-0100 Michael Snavely Cambridge Systematics, Inc. Oakland, CA 510-873-8700 Robert Calix LA County Metropolitan Transportation Authority Los Angeles, CA 213-922-5644

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