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Other ways to increase efficiency can be found through innovative alternative vehicle technologies, improved internal combustion engines, exhaust gas recycling, variable valve timing, vehicle downsizing, lightweighting , and behavior. Government policies need to make the cost of driving evident through full amortization, fuel/road tax, and insurance costs.
Another tactic to reduce fuel consumption is increasing the use of transportation alternatives. The use of active transportation will cause a change from environmentally harmful, passive travel to clean, active travel by bicycle, foot, and public transit. Convenient and safe public transit is not available in all communities, as it requires a certain population density to be viable. Moreover, since Americans often associate the car they drive with their material success and our communities are spread out, many people do not view public transportation favorably. Most metropolitan areas have some kind of transit system to provide transportation to those who cannot afford cars or cannot drive and/or to relieve traffic congestion. Historically, the United States has not invested equally in road and public transportation infrastructure meaning that often it is slower and more complicated to travel by transit. However, transit use is generally more economical than owning and driving a car. The American Public Transportation Association has calculated the savings based on a two person-two car household going to one-car. They found that riding public transportation saves individuals, on average $9,656 annually, and up to $805 per month based on the January 5, 2011 average national gas price ($3.08 per gallon-reported by AAA) and the national unreserved monthly parking rate. Savings for specific cities are shown here .
Bicycling and walking are two forms of alternate transit that have no environmental impact on energy demand. Many local governments are devoting resources to adding bike routes and parking facilities to encourage bicycling as a mode of transportation. Sidewalks and safe cross-walks are prerequisites for safe walking.
There are some options for those who must drive to reduce their energy use. Carpooling and car sharing are also options that lower the number of cars on the road, while providing opportunities to travel by car when needed. Improved social network-based car-pooling programs can help to match riders with drivers in a dynamic way. Car sharing is a decentralized, hourly car rental system that allows people who do not own cars, but occasionally need one, to access a vehicle in proximity to their workplace or home.
There is no one silver bullet when it comes to solving the "energy problem" or planning for climate action. There are many viable solutions and the problem is so large that multiple pathways must be forged. The primary challenge is to use energy more efficiently so little goes to waste. From small actions like changing a light bulb, to large projects like CHP, the potential is great and the financial payback rewarding. Increased vehicle efficiency and active transportation are also strategies for reducing energy use. Both within the building sector and the transportation sector we have the greatest challenges to and potential for changing how we use energy today. We have already started to make that transition from more stringent CAFÉ standards to more green buildings. The challenge is to upscale all the strategies to make a significant impact.
What does the chart in Figure Energy Demand and GDP Per Capita (1980-2004) tell us about developing countries such as China, India and Brazil’s energy use? a) In comparison to developed countries. b) Over time.
Briefly describe a path to reducing our dependency on fossil fuels for transportation energy consumption.
Why is energy efficiency considered a sustainable energy choice?
Brown, L.R. (2008). Plan B 3.0: Mobilizing to save civilization . New York: Earth Policy Institute.
City of Chicago. (2011). Chicago Climate Action Plan . Retrieved September 12, 2011 from (External Link)
Eagan, D.J., Calhoun, T., Schott, J.&Dayananda, P. (2008). Guide to climate action planning: Pathways to a low-carbon campus . National Wildlife Federation: Campus Ecology. Retrieved September 12, 2011 from (External Link)
Gore, A. (2009). Our choice: A plan to solve the climate crisis . New York: Melcher Media.
Pacala, S.&Socolow, R. (2004). Stabilization wedges: Solving the climate problem for the next 50 years with current technologies. Science, 305 , 968-972.
University of Illinois at Chicago. (2009). UIC Climate Action Plan . Retrieved September 12, 2011 from (External Link) .
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