1 / 34

Warm Mix Asphalt Observations from the WSDOT I-90 Job (June 2008)

Warm Mix Asphalt Observations from the WSDOT I-90 Job (June 2008). Where are we with WMA? What do we know and not know? Life cycle assessment I-90 Observations. Where are we at with WMA technology?.

galia
Download Presentation

Warm Mix Asphalt Observations from the WSDOT I-90 Job (June 2008)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Warm Mix AsphaltObservations from the WSDOT I-90 Job (June 2008)

  2. Where are we with WMA? What do we know and not know? Life cycle assessment I-90 Observations

  3. Where are we at with WMA technology?

  4. WMA has been around in its current iteration since about the mid 1990s but has existed in some for or another for at least 30 years. 1970s 1995 2009 WMA standard use starts in some places current WMA starts Older WMA-like products Boeing and others

  5. The classic WMA benefits are enticing. • Reduced plant fuel consumption • Reduced emissions • At the plant • Fugitive emissions • Reduced viscosity during construction • Better compaction • Longer haul distances • Cold weather paving • Same viscosity during operation • Some have greater viscosity

  6. What do we know and not know?

  7. Based on published reports and presentations, here’s what we think we know.

  8. What do we not yet know to our satisfaction?

  9. A “life cycle assessment” can help assess the energy, environmental and materials picture.

  10. Life cycle assessment (LCA) is a good tool to assess the overall life cycle impact of WMA. • Life cycle assessment (LCA) • A protocol to assess the environmental, economic, and social impacts of an industrial system. • The life cycle of the industrial system extends from cradle-to-grave: from materials acquisition and production, through manufacturing, system use and maintenance, and finally through the end of the system’s life. • Essentially an accounting tool.

  11. refinery transport transport oil extraction other inputs transport Aggregate Quarry hma plant water fuel other outputs transport placement An example of LCA processes, inputs and outputs to consider for HMA paving. emissions waste hazardous waste

  12. For a given unit of production (e.g., 1 lane-mile of pavement) a typical LCA gives a range of outputs. • Amount of materials used (tonnes) • Total energy use (MJ) • Water consumption (kg) • Emissions • Global warming potential (tonnes of CO2 equivalent) • Nitrogen oxides – NOx(kg) • Sulfur dioxide – SO2 (kg) • Particulate matter – PM10 (kg) • Carbon Monoxide – CO (kg) • Toxic things • Human toxicity potential • Mercury – Hg (g) • Lead – Pb (g) • Hazardous waste (kg) • Polycyclic aromatic hydrocarbons (PAHs)

  13. An example of a LCA output relating to energy consumption in pavement construction. Amount of Energy Required to Build 1 Lane-Mile of Pavement • Notes: • 90%+ from manufacturing • Numbers change a lot depending on assumption 9-inch CRC Pavement (6 inches base material) 3% 3.7 TJ 94% 3% 12-inch HMA Pavement (6 inches base material) 3.0 TJ 7% 91% 2% 4.0 TJ Data from: Zapata and Gambatese, Energy Consumption of Asphalt and Reinforced Concrete Pavement Materials and Construction, J. of Inf. Sys., vol. 11, issue 1, p. 9-20.

  14. An example of a LCA output relating to the contribution of different processes to environmental outcomes. Contribution of Main Processes on Environmental Impacts of HMA Hassan, M.M. (2009). Life-Cycle Assessment of Warm-Mix Asphalt: An Environmental and Economic Perspective. Presentation at the 88th Annual Meeting of the Transportation Research Board, Washington, D.C., 11-15 January, 2009.

  15. An example of a LCA output relating to waste production in roadways. Waste Generated by 1 Lane-Mile of Pavement • Notes: • Most from manufacturing and EOL • Numbers change a lot depending on assumption 9-inch CRC Pavement (6 inches base) 1% 41% 6% 52% 2,225 tons 10-inch HMA Pavement (15 inches base) 38% 2% 1% 59% 2,852 tons 2,000 tons Data from: Rajendran and Gambatese, Solid Waste Generation in Asphalt and Reinforced Concrete Roadway Life Cycles, J. of Inf. Sys., vol. 13, issue 2, p. 88=96.

  16. Total Energy Use for 1 lane-mile of HMA pavement 0 Structure (inches) = HMA = Base = Subbase 12 24

  17. LCAs are a defensible protocol for quantifying the energy, environmental and materials aspects of WMA. • Account for all processes associated with HMA • Include WMA additive production/transport • Include human health benefits beyond criteria pollutants • Isolate improvements attributable to WMA

  18. But…there are issues with the way we do LCA. • Functional unit • describes the function and performance of the subject of the product or process being studied • Example: 1 lane-mile of pavement capable of supporting 100 million ESALs over 50 years Implies Structural design Traffic measurement Defining maintenance/rehabilitation methods Performance standard

  19. And…we are missing a good chunk of the data we need to calculate a good LCA and it is expensive to get this data. GREET: Greenhouse Gases, Regulated Emissions, and Energy Use in Transportation Model from Argonne National Laboratories Eurobitume: LCI report for Eurobitume (European-type Asphalt Institute) EPA NONROAD: EPA emissions model for non-road vehicles EPA AP-42: EPA emissions factors (emissions tied to quantity of material)

  20. The I-90 Sasobit WMA job (June 2008)

  21. 12,500 tons ½-inch Superpave 0.25-ft mill-and-fill Right lane only

  22. Key Parameters

  23. HMA: 12 June 2008

  24. HMA: 12 June 2008

  25. WMA: 23 June 2008

  26. WMA: 23 June 2008

  27. Open Path FTIR

  28. Preliminary LCA results from I-90

  29. Grant County power mix. This is one of the cleanest mixes in the nation.

  30. A few observations. • Mix temperature drives everything • We can gather less data and get same value • How to simplify • Report mix temperature • Temperature vs. criteria pollutants for types of plants • Temperature vs. vapor pressure for HMA compounds • Temperature vs. vapor pressure is NOT linear • The first 50°F is bigger than the second 50°F • Report burner performance • Report fuel usage

  31. Summary • We have learned a lot about WMA • LCA can provide a defensible protocol for analyzing environmental/energy factors • Need to gather a few pieces of information to reduce the environmental data needed • HMA temperature vs. criteria pollutants • HMA temperature vs. asphalt fumes

More Related