microsimulating truck emission and population...
TRANSCRIPT
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Microsimulating Truck Emission
and Population Exposure
Glareh Amirjamshidi, PhD Candidate
Prof. Matthew J. Roorda
Toka S.Mostafa
Aarshabh Misra
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February 5, 2012
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Outline
• Emissions in Canada
• Project Overview
• Study Network
• Building the Base Case
• Scenario Analysis
• Conclusions
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Overview
Source: Environment Canada, 2006 Source: TC,2004 Environment Canada, GHG inventory, 2008
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Project Overview
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Study Network Microsimulation model needs demand inputs
(light, medium, heavy trucks and passenger vehicles)
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Model Calibration
Model calibrated to reflect
• Road counts
• Loop detector speeds (City of Toronto)
• Truck GPS speeds (Turnpike Global Technologies (TGT))
• Probe vehicle speed (MTO travel time report)
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Mean
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(km
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Distance from BATHURST ST (km)
Adelaide St - EastboundAM PEAK PERIOD (6:00 a.m. - 9:30 a.m.) Mean SegmentsSpeeds
Paramics
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Calibrated Network
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Emission Modelling
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Calculate Average
Speed
Calculate Emission
Rate
VMT Calculate Total
Emission
Ahn & Rakha (2008): Cannot ignore the effect of
instantaneous speed
Microscopic emission modeling
Average Speed vs.
Micro-emission Models
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Microscopic emission models
• Second-by-second emission estimation
• Most useful in microenvironments, such as busy streets or intersections where vehicle idling, acceleration, and deceleration may have significant impacts on drive cycle emissions
• Examples:
CMEM, University of California Riverside
VT-Micro, Virginia Tech
MOVES, EPA
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Requires detailed makeup of the vehicle fleet
Canadian vehicle survey 2009
Vehicle sales reports
Consultant’s reports
CMEM user manual
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CMEM Model
Diesel 86.9%
Gasoline 13.1%
Medium Duty Trucks
20%
5%
75%
Heavy Duty Trucks
19.3%
15.8%
14.6%
47.9%
0.5% 0.5% 0.8% 0.5%
Light Duty Trucks
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Emission Results
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Dispersion Modelling
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Dispersion Modelling
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Receptor Points
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Gaussian Plume Models
Hatzopoulou, 2008
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Dispersion Results
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Population Exposure
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Population Exposure
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Scenario Analysis
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Scenario Analysis
CMEM categorizes Medium Duty trucks based
on their engine type: Gasoline vs. Diesel
Source: CVS Report
Diesel 86.9%
Gasoline 13.1%
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Scenario Comparison
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Scenario Comparison
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• Emissions of HC, CO, CO2 and NOx are highest on the high
capacity roadways;
Conclusions
Emissions of HC, CO, CO2 and NOx are highest on the high
capacity roadways;
• Emission factors (grams/VKT) vary over each roadway
segment in the network;
Emissions of HC, CO, CO2 and NOx are highest on the high
capacity roadways;
Emission factors (grams/VKT) vary over each roadway
segment in the network;
• CO, NOx and HC concentrations at zone centroids are within
recommended levels by Environment Canada on a day with
typical wind direction and average wind speed;
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• Zones along the freeways experience higher pollutant
concentrations;
Conclusions
Zones along the freeways experience higher pollutant
concentrations;
Higher wind speeds will lead to a faster dilution of pollutants;
• A 100% conversion of diesel powered medium duty trucks is
estimated to reduce total HC and NOx emissions by 4% and
almost 12%, respectively;
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Zones along the freeways experience higher pollutant
concentrations;
• Higher wind speeds will lead to a faster dilution of pollutants;
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Thank you!
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Glareh Amirjamshidi
Feb-2012
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• The effect of roadway grade on emissions has been ignored in this research.
Data regarding roadway grades would be required to undertake this analysis;
• Emission of particulate matter could not be evaluated using the CMEM
modelling software;
• The accuracy of vehicle emissions relies upon accurate acceleration and
deceleration profiles within the microscopic traffic simulation model
(Ongoing);
• Validation of the emission model for Toronto using real-word emission sensors
Hoy and Roorda (2011)
Misra and Roorda (Ongoing)
Limitations and Future Research
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• Show or not show the clip for the simulation?
• In terms of CMEM vs MOVES: Do I need to include a slide justifying why CMEM was chosen?
Slides??
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1. How does this paper contribute to sustainable urban freight transportation? (next slide) 2. Does this paper contain, or lead to, and innovation in urban freight transportation? (the innovation is mostly the integration of different available models) 3. Are there opportunities to apply this approach to other geographic areas? What would be the concerns or issues in doing so? This can be applied to other geographic areas. Points that have to be considered when doing so are:
a) the need for data sources that are required in developing the model (demand/microsimulation/ fleet distribution/ Meteorological data)
b) Also in cities like Mexico where the city is kind of surrounded by hills-> the affect of pollution getting trapped or something (inversion) 4. Has this tool or approach been applied in practice? What were the lessons learned? 5. What practical concern does your research address? What are the strengths and weaknesses of your approach or analysis? 6. What elements of your approach are specific to the local political and cultural environment? 7. What additional research would you recommend follow this work? (in the presentation to some extent) 8. Have you had any feedback on your work from other stakeholders, such as the private sector, public sector, and community or social groups? (NO) 9. What does this research teach us about the freight/land use connection, and land use strategies ????????????
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3 Pillars of Sustainability
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Types of Dispersion Models
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1) Physical Models - Empirical
2) Box Models – Conservation of Mass
3) Gaussian Models – Gaussian Plume/ Puff
models
4) Lagrangian/Eulerian Models – Extension
of Box Models
5) Computational Fluid Dynamics Models –
Navier-Stokes Equation
Holmes, N.S. Morawska, L. 2006
Physical Models
Gaussian Models