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Class Project Report, May 2005 ME/ChE 449 Sustainable Air Quality

Class Project Report, May 2005 ME/ChE 449 Sustainable Air Quality. Highway Transportation: Trends from 1970 to 2002 and Beyond By Scott Kaminski Instructor Rudolf B. Husar Washington University, St. Louis, MO.

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Class Project Report, May 2005 ME/ChE 449 Sustainable Air Quality

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  1. Class Project Report, May 2005ME/ChE 449 Sustainable Air Quality Highway Transportation: Trends from 1970 to 2002 and Beyond By Scott Kaminski Instructor Rudolf B. Husar Washington University, St. Louis, MO

  2. “Number of vehicles”, “miles driven”, and “fuel consumption” data given in six categories by the FHWA:1 Passenger Cars Buses Motorcycles Other 2-Axle, 4-Tire Vehicles Single Unit Trucks Combination Trucks “Emissions” data given in four categories by EPA:2 Light Duty Gas Vehicles and Motorcycles (LDGV&MC) Light Duty Gas Trucks (LDGT) Heavy Duty Gas Vehicles (HDGV) Diesels Data Consistency • Categories from FHWA converted to EPA Categories through:3 • LDGV&MC = .9864 (Passenger Cars) + Motorcycles • LDGT = .9918 (Other 2-axle, 4-tire vehicles) • HDGV = .1028 (Buses) + .7994 (Other Single Unit Trucks) • Diesels = .0136 (Passenger Cars) + .0082 (Other 2-axle, 4-tire vehicles) + .8972 (Buses) +.2006 (Other Single Unit Trucks) + 1.0000 (Combination Trucks)

  3. Emissions

  4. Important Emission Improvements • 1968 – Tailpipe emission standards first implemented for new cars to reduce VOC and CO emissions.6 • 1970 – Congress passes the Clean Air Act which calls for a 90% reduction in emissions by 1975. This deadline is later extended to 1980 for VOC and 1981 for NOx and CO emissions.7 • 1971 - New cars have to meet evaporative emission standards for the first time and charcoal canisters are introduced to collect VOC vapors.7,8 • 1972 - Exhaust gas recirculation valves are implemented to reduce NOx emissions.7 • 1975 – Most new cars have catalytic converters to reduce VOC and CO emissions.8 Unleaded gasoline introduced (with a 13% market share) since lead inactivates the catalytic converters. Market share climbs to 50% in 1982 and 100% in 1996.9 • 1980/81 – In response to implementation of CAA emission standards, new cars are equipped with three-way catalysts that optimize the efficiency of catalytic converters and reduce NOx emissions.7 • 1983 – Passenger Vehicles are first required to undergo testing for “malfunctioning emission control systems”.7

  5. 1990 – CAA Amendments passed including increasing testing requirements.7 Limit on diesel fuel sulfur content (to reduce SO2 and PM emissions) is set by EPA to take effect in 1993.9 • 1991 – Lower tailpipe standards set for VOC and NOx emissions to be phased in beginning in 1994.7 NOx emissions standards for new trucks and buses cut in half.10 • 1992 – Limits for CO emissions at cold temperatures are set to be phased in beginning in 1994.7 • 1993 – The Diesel PM standard for urban buses is reduced. This standard is further reduced in 1994 and 1996.11 • 1999 – SUV’s subject to same emissions standards as other vehicles for the first time. More restrictive standard for VOC, CO, NOx, and PM begin to be phased in (end 2008).7 Standard for sulfur content in gasoline is reduced to take effect in 2005.12 • 2000 –Standard for sulfur content of diesel fuel is again reduced to be phased in between in 2007 – 2010. By cleaning up the fuel, emission control technologies can finally be implemented in Diesel vehicles.13

  6. CO Emissions • Overall emission trends determined by LDGV&MC emission trends. • Steeper drop after 1987 because by then average vehicle age (7-8 years)6 suggests that the average car was purchased after the 1980/81 improvements. • Leveling off after 1996 in LDGV&MC due to aging of fleet prior to replacement with MY 1994 and later vehicles and continued increase in vehicle use. • The similarity in 2002 emissions per gallon (LDGT 4.2% better grams/gal emissions factor than LDGV&MC) is deceiving because LDGV&MC have a 26.1% better MPG than LDGT and so LDGV&MC will produce less emissions for the same trip.

  7. NOx Emissions • Overall emissions trends determined by LDGV&MC and Diesels. • Rise in Diesel emissions due to increased use and lack of emission technology for vehicles. Decrease after 1998 due to stricter MY 1991 emissions standards for truck and buses. • NOx emissions can be significantly reduced by improving Diesel NOx emission technology: Diesel NOx emission factor is 7 times that of the overall NOx emission factor and absolute Diesel NOx emissions are greater than the other three vehicle categories (46% of total).

  8. VOC Emissions • Overall emission trends determined by LDGV&MC emission trends. • Lower emissions for HDGV, LDGT, and Diesels because of less use, as shown in miles driven. • The greater reduction in VOC emission factors over NOx emissions factors (85.2 % to 77.1 % LDGV&MC) can be attributed to improvements in evaporation emission technology as well as exhaust emission technology.

  9. SO2 Emissions • Overall emissions trends determined by Diesels: SO2 emissions minor compared to NOx (23 times in 2002) and VOC emissions (26%). • Large emissions factor (Diesel 10 times that of LDGV&MC in 1990) prevails over a lesser amount of Diesel vehicles use. • Drop after 1990 in both absolute emissions and emissions factors corresponds to desulphurization of diesel fuel. • Little change in LDGV&MC over time since this emission source is minor and thus has yet to be dealt with for LDGV&MC.

  10. PM-10 Emissions • Overall emissions trends determined by LDGV&MC and Diesels. • Incline of emission factor from 1980 – 1987 can be attributed to an aging vehicle fleet. • Drop after 1990 in both absolute emissions and emissions factors corresponds to desulphurization of diesel fuel.

  11. Emissions Summary • The trends are a result of the competition between the effectiveness of the emission control technology in the national vehicle fleet and vehicle use. • The decrease in emission factors for each pollutant shows that emission technology is working. • The decrease in absolute emissions shows that emission technology is progressing faster than the increase in vehicle usage. • Difference between improvements in emissions factors and absolute emissions (ex. 85.2 % decrease to 73.1% decrease for overall VOC) is the increase in vehicle use . • Full advantage of emission technology can only be achieved through reduced vehicle use.

  12. References • United States. Office of Highway Policy Information. Highway Statistics Summary to 1995 (Historical Summary to 1995): Table VM-201a. April 1997. http://www.fhwa.dot.gov/ohim/summary95/vm201a.pdf 23 March 2005. • United States. Environmental Protection Agency. 1970 - 2002 Average annual emissions, all criteria pollutants. January 2005. ttp://www.epa.gov/ttn/chief/trends/trends02/trendsreportallpollutants010505.xls 22 March 2005. • Tooly, Rebecca Lee. Procedures Document For National Emission Inventory Criteria Air Pollutants 1985-1999. United States Office of Air Quality. Environmental Protection Planning and Standards Agency. Research Triangle Park. NC March 2001. http://www.epa.gov/ttn/chief/trends/procedures/neiproc_99.pdf 22 March 2005. • United States. Environmental Protection Agency. What are Mobile Sources?http://www.epa.gov/otaq/invntory/overview/examples.htm#onr 31 March 2005. • Dill, Jennifer. Transportation Research Board. “Older Vehicles and Air Pollution: Insights from the 1995 NPTS.” http://gulliver.trb.org/publications/circulars/ec026/23_dill.pdf. 17 April 2005. • United States. Environmental Protection Agency. Mobile Source Emissions -Past, Present, and Future: Milestones. http://www.epa.gov/otaq/invntory/overview/solutions/milestones.htm. 13 April 2005.

  13. United States. Environmental Protection Agency. Automobile Emission: An Overview. http://www.epa.gov/otaq/consumer/05-autos.pdf. 17 April 2005. • United States. Environmental Protection Agency. National Air Pollutant Emission Trends: 1900-1998. March 2000. http://www.epa.gov/ttn/chief/trends/trends98/chapter3.pdf. 17 April 2005. • United States. Environmental Protection Agency. Diesel Exhaust in the United States. September 2002. http://www.epa.gov/otaq/retrofit/documents/f02048.pdf 24 April 2005. • United States. Environmental Protection Agency. Motor Vehicles and the 1990 Clean Air Act. http://www.epa.gov/otaq/consumer/11-vehs.pdf. 17 April 2005. • United States. Environmental Protection Agency. EPA National News. “CLEANER CARS AND CLEANER FUELS FOR THE 21ST CENTURY.” 21 Dec. 1999. http://yosemite1.epa.gov/opa/admpress.nsf/b1ab9f485b098972852562e7004dc686/0b8d5154df6d30a18525684e0077437d?OpenDocument. 20 April 2005. • United States. Environmental Protection Agency. Environmental News. “EPA DRAMATICALLY REDUCES POLLUTION FROM HEAVY-DUTYTRUCKS AND BUSES; CUTS SULFUR LEVELS IN DIESEL FUEL”. 21 Dec. 2000. http://www.epa.gov/otaq/regs/hd2007/frm/r-196.pdf 20 April 2005.

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