Earth’s Changing Environment Lecture 24

1. Earth’s Changing EnvironmentLecture 24 Increasing Transportation Efficiency

2. Outline • Car and Driver • Efficiency • Mass Transit • Urban Planning • New Technologies

3. Cars and Drivers • 210 million cars and light trucks • 191 million licensed drivers • 140 billion gallons gasoline/year • 2.7 trillion vehicle miles

4. US Automobile Culture • Transportation consumes18% of Household Expenses • 91% travel by private vehicles vs. 2% by mass transit • 76% rides to work are solo • 2.7 trillion vehicle miles per year

5. Carbon Emissions • US Automobiles add 1.3 billion metric tons of CO2 to atmosphere annually. (23% of US total emission) • Efficiency of cars is 20 miles/gallon • Drivers travel 14,000 miles annually

6. How do we reduce global impact of US transportation? • Raise CAFE Standards • Reduce Miles Traveled • New Technologies

7. Raise CAFE Standards • Corporate Average Fuel Economy • Established in 1975 to set U.S. mileage standards.

8. Current CAFE Standards • 27.5 mpg for passenger automobiles • 20.7 mpg for light trucks & SUVs

9. How can cars be more efficient? • Smaller & more streamlined (wind resistance) • Lighter (starting & stopping) • Less powerful (lower acceleration)

10. SUVs • Mileage varies, but as low as 10 mpg as compared with 20 – 30 mpg for many cars and 50 mpg for hybrid electrics. • Possible to achieve a more than 40% improvement with payback within ownership period.

11. Reduce Driving • Mass Transit • Urban Planning • Ride Sharing

12. Mass Transit • METRORail • DART • VIA Transit • BART • Mexico City

13. Train • AMTRAK

14. Urban Planning • Curitiba, Brazil • Portland, Oregon

15. Ride Sharing • HOV Lanes • Park & Ride

16. Bicycle Lanes

17. Pedestrian Access

18. We prefer to ride.

19. New Technologies • Electric Cars • Hybrid Cars • Fuel Cells

20. Internal Combustion Engine • Engine – 20% efficient • Highway driving – Energy lost to air drag. • City driving – Energy lost during braking

21. Electric Car • Batteries are heavy and limit range to 100 miles. • Vehicles don’t have enough acceleration for traffic. • Not a practical solution.

22. Hybrid Electric Vehicles • HEV Program • Honda Insight • Honda Civic • Toyota Prius • 50 mpg

23. Why do hybrids get better mileage? • Smaller engine. Electric motor boosts gas engine for acceleration. • Regenerative braking. • Electric motor runs at low speed where gas engine is very inefficient. • Electric motor shuts off when stopped.

24. Fuel Cells and the Hydrogen Economy • Fuels Cells use hydrogen to produce electrical energy • 2H2 +O2 2H2O + energy • Fuel cells could be used to power cars with hydrogen as the fuel. • Clean fuel

25. Barriers to Hydrogen Cars • Availability of hydrogen fuel. • Storage of hydrogen fuel. • Expensive. • Infrastructure

26. Fuel Cells • In development stage. • Currently very expensive. • Are not a source of energy. • Hydrogen must be supplied.

28. Hydrogen Sources • Steam reforming of natural gas: CH4 +2H2O  CO2 + 4H2 • Electrolysis: 2H2O + energy 2H2+ O2

29. Energy Source for Electrolyzer • Electrolysis requires energy. • Energy could come from Solar, Nuclear, or Wind. • In the short term, it would probably come from coal.

30. Economics of Hydrogen Economy • Burning gasoline produces a therm for $1.50. • Coal can produce a therm for $0.08. • Coal burned at a power plant to produce electricity to run an electrolyzer could produce power cheaper than gasoline.

31. Vehicle Carbon Emission(grams per mile)

32. Conclusions • Hybrid vehicles offer major short-term advantages • Fuel cells are expensive and have infrastructure issues. • Fuel cells based on electricity from coal plants could increase emissions • Mass Transit & other non-automotive options must be considered.

33. References/Links USDOE: EERE Federal Highway Administration Energy Information Agency National Household Travel Survey Our Nation’s Highways 2000 Hydrogen economy