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2005 Essays -
July
"GREEN CARS AND
THE ROAD AHEAD: A CLEAR FUTURE? - PART
I"
*Please note: the title of
this essay has been changed slightly from what was listed earlier in order
to more accurately reflect the final content. Once again it is an
interactive essay. Although it can be read as is, links are embedded at
various points in the article. By clicking the link you can read more
about the particular topic being discussed, then return to the essay. (The links are included
for information purposes only. No guarantees are made as to the accuracy
of the materials presented on the sites, although every effort has been
made to search out reliable and respected sources of information.) (Please note:
some links have changed since 2005 or are no longer in existence.
Where it is possible, they have be updated to reflect the changes. Changes which have been made are not
included in the body of the text but are noted in the "Links List" at the bottom of the page.) Footnotes and a bibliography are also included at the end for anyone
wishing to learn more about the subject. The materials represented here
are only a small fraction of what is available on this subject matter. A
glossary link below has been provided as a reference for use as needed. Click here to
reach the glossary.*
Introduction
Back in 1950, driving a car 10,000 miles annually cost nine
cents per mile, and gasoline sold for 27 cents a gallon. (n1) Today, with
gas selling for nearly ten times that amount in some Southern California
locations, drivers have to wonder, "What comes next?" While forecasts of
gas priced at three dollars a gallon or more vary, one thing is for
certain -- all drivers can benefit now by taking steps to obtain the best
fuel economy from their current vehicles.
But
what about in the years ahead? According to some, the pings and clinks
before a silent engine might not be the sounds of your car running out of
gas, but of the world's petroleum resources running dry. As a result,
legislation at both federal and state levels and millions of dollars of
research and development funds have, over the last decade or two, been
focused on two primary goals. The first is decreasing the country's
dependence on foreign energy sources, and the second is protecting the
environment by decreasing harmful transportation emissions and building
"cleaner" vehicles.
These "cleaner" vehicles are often
referred to as "green" cars because of their less-polluting and more
environmentally-friendly features and operation. Now available in an
increasingly greater number from a wider variety of manufacturers, these
"green" cars may be more than simply an environmentalists's dream. They
quite literally may be the vehicles which drive us into a new
transportation future. One of the most revolutionary aspects of this
future could be a move away from conventional (petroleum) internal
combustion engines, the engines that power almost all of the cars in the
world today.
For now, "green" vehicles include primarily electric,
hybrid, alternative fuel and cleaner gas cars. By some projections these
types of cars could represent more than 20 percent of all automobiles sold
by 2025. (n2)
Eventually these vehicles also could come to include fuel cell cars
powered by hydrogen.
Some may have heard California's
governor promoting the development of the state's new Hydrogen Highway - a
series of stations designed for the refueling of such hydrogen-powered
vehicles. This is just one step toward what some envision as a
country-wide shift (by the middle to the end of the century) to a
hydrogen-powered economy.
Part one of this two-part essay
series will look at fuel economy, "green" cars currently available on the
market, the internal combustion engine (ICE) vs. fuel cells, and give a
brief introduction to the concept of a hydrogen-based economy. Part two
will include a more in-depth look at fuel cells as well as a more detailed
discussion of what a transition to a hydrogen-based economy might
entail.
"PART
I - GREEN CARS AND THE ROAD AHEAD: A CLEAR FUTURE?"
Most experts agree that the world's supply of crude oil
will run out before the end of the present century." (n3) Known
reserves of high-quality oil represent about a 30-year supply at the
current rate of use. (n4) These
reserves are likely to be augmented by non-conventional sources such as
"Canadian oil sands and Venezuelan extra-heavy bituminous crude,
especially after the year 2020. (n5) However,
barring any new major discoveries, global supplies of the fuel which
powers a good portion of our present economy do not appear likely to last
forever.
Fuel
Economy
Does this mean that the price of gas
is destined to go up to $3 or $4 a gallon anytime soon? No one can say
with any certainty, and even experts' opinions seem to vary. From a
consumer standpoint, the most immediate steps that can be taken to get the
most from gasoline dollars are to improve a current vehicle's fuel
economy. The Automobile Club offers the following suggestions:
-
Make sure
spark plugs are in good condition
-
Check air
and fuel filters at least twice a year. Dirty filters can increase fuel
consumption and can cause poor performance
-
Inflate
tires according to manufacturer recommendations. Under-inflated tires
can cut fuel economy by as much as 2% per pound of pressure below the
recommended level
-
Have the
vehicle serviced regularly by a certified technician
-
Don't use
premium fuel unless your vehicle's engine requires it
-
Keep your
eyes open for low fuel prices, but don't waste gas driving to a distant
station to save a few cents
These and other common-sense tips are
available in an Automobile Club (AAA) pamphlet called the "Gas Watchers
Guide." It is available from your local AAA club office or at www.aaapublicaffairs.com.
Additional information can be found at the U.S. Department of
Energy/Environmental Protection Agency site www.fueleconomy.gov. You
can also click on the icons below to view listings of the lowest gas
prices in Orange County, Los Angeles County ane other areas.
Cleaner, "Greener"
Cars
Because Americans "continue to purchase larger, less
fuel-efficient vehicles, . . . the average fuel efficiency of new vehicles
has changed little over the past 20 years [and remains at] about 24 miles
per gallon." (n6) Although
energy production is "by far the most significant source of energy-related
CO2 emissions, . . . the transport sector share of energy-related
emissions can range by country from as little as 12% . . . to over 45%."
(n7) In the
United States, "cars, SUV's and other 'light' trucks emit 16% of all
carbon dioxide and other greenhouse gases released. [It is estimated that]
if every American switched to a hybrid vehicle that got 40 miles to the
gallon . . . it would cut these emissions by nearly half." (n8) (You can view
a list of all 2005 vehicles achieving 40 miles per gallon or more in city,
highway or combined driving at www.40mpg.org).
For a person purchasing a
new car and wanting to take into account both fuel efficiency and
emissions, there are several information resources with which to begin.
The 2005 Fuel Economy Guide, an annual publication, lists MPG estimated
fuel costs for all current makes and models as well as information tax
incentives, advanced technology and the components of gasoline prices. The
fuel economy website, www.fueleconomy.gov also
features an annual coast calculator which allows a person to use local gas
prices and personal driving preferences in estimating fuel costs for a
particular vehicle. The Environmental Protection Agency's (EPA's) "Green
Vehicle Guide" contains similar but more detailed emissions information.
It includes an air pollution "score", greenouse gas "score" and fuel
economy ratings in a searchable database for all makes and models. (Visit
www.epa.gov/greenvehicles/index.htm.)
As stated earlier, the number and variety of "green" cars
available to the public continues to increase each year. In addition to
the vehicles already available, Acura, Toyota, Chevrolet, Mazda, Nissan,
Saturn, GMC, and Mitsubishi, among others, are all expected to add at
least one hybrid model to their existing car lines over the next two
years. (n9)
Still, a person need walk no further than across the floor of any major
automobile show to know the numbers of such vehicles are small compared to
the total number of makes and models in existence. So exactly which types
of cars are considered "green?"
The
following five categories summarize information contained in the
California state government's "Drive Clean" website. For further
information on the charging/fueling, safety and other features of
automobiles in a particular category, click on the category name to go
directly to the full information in the "Drive Clean" site.
-
Alternative
Fuel Vehicles: Alternative fuel vehicles (AFVs) are those
that can run on a fuel other than gasoline or petroleum-based diesel.
Such fuels include biodiesel, ethanol, methanol, natural gas or propane.
-
Cleaner
Gas Cars: While all California cars have advanced emission
control systems, many new vehicles with cleaner versions of internal
combustion engines are designed to produce extremely low levels of
emissions. These vehicles are rated as PZEV's (Partial Zero Emission
Vehicles) because they meet the Air Resources Board's most stringent
tailpipe emission standards, among other things. The current emission
rating system contains several similar acronyms which cover a range from
least to most stringent emissions standards. The chart below illustrates
the acronyms on a continuum. Click on the full chart to go to the Drive
Clean website for definitions of each of the terms. Manufacturers like
Honda place small stickers on side windows of cars falling into several
of these categories; check with your local car dealership concerning a
particular make or model.
-
Electric
Vehicles: Electric vehicles are cars that run on electricity
stored in batteries. They are the only true zero emission vehicles
available today because they have no tailpipe exhaust and no evaporative
emissions from fuel systems.
-
Hybrid
(Electric) Vehicles (HEVs): HEVs combine an internal
combustion engine with a battery and electric motor and do not need to
be plugged in to be charged. The electric motor and engine work either
alone or in tandem at various parts of the drive cycle to improve fuel
economy and lower emissions.
-
Fuel
Cell Vehicles: Though not available commercially at the
present time, fuel cell vehicles harness the chemical energy of hydrogen
and oxygen to generate electricity without combustion or pollution. The
only emission from the hydrogen-powered vehicles is water.
With all the positive information surrounding these "green"
cars, one might also ask if there are any drawbacks to ownership. There
are a few. In the case of hybrids, for example, many can cost anywhere
from "two to three thousand dollars more than their conventional
counterparts," (n10) and they
often do not obtain their full mpg rating mileage. (n11) Service
locations and technicians are limited, and with hybrids, the $2,000 -
$3,000 battery pack needs replacing every 10 years. (n12) On the
other hand, there are also tax credits available for many electric,
hybrid, ethanol/biodiesel and other alternative fuel vehicles which are
valid through at least the year 2007. For a full listing of available
government financial incentives, visit the Alternative Fuels Data Center
at http://www.eere.energy.gov/afdc/progs/search_state.cgi?afdc/US
Will one or all of these vehicles emerge as the "car of the
future?" No one can say yet with 100% certainty, and even manufacturers of
the vehicles differ in their opinions:
"Hybrids
represent the bridge to the long-term solution of clean, hydrogen
fuel-cell vehicles . . . the ultimate answer, we believe, for
eliminating the automobile from the environmental equation. . . For
the long term out strategy can be summed up in one phrase - hydrogen
fuel cells."
Rick
Wagoner GM Chairman and CEO 2005 NAIAS Press
Conference January 9, 2005. (n13) |
"Hybrid's
technology potential is becoming clearer by the day. At Toyota, we
do not regard hybrid technology as simply a stepping stone to the
age of fuel cell vehicles. We see it as the core technology that
will become dominant in the eco car market and eventually evolve to
form the basis of what we call the 'Ultimate Eco Car.'"
Toyota Motor
Company "A Guide to Hybrid Synergy Drive" brochure,
2003.
|
Still, by some
estimates "the automotive industry has already invested $4.5 billion in
the development of (hydrogen) fuel cells, and experts estimate that the
market for fuel cells will grow from a very modest $220 million in 2000 to
a staggering $95 billion by 2010." (n14) In
addition, last year the Bush Administration launched "a 5-year $1.7
billion initiative to commercialize hydrogen-powered cars by 2020." (n15). But why
hydrogen?
Hydrogen and Fuel
Cells
Hydrogen is the most common element in the universe. "When
burned or oxidized in a fuel cell, it emits no pollution, including no
greenhouse gases. Gram for gram it releases more energy than any other
fuel. And as a constituent of water hydrogen is all around us." (n16) It is
abundant, but unlike oil, it is not a primary fuel source. Instead, it is
"like electricity, an energy carrier that must be generated using another
source of power." (n17) Most of the
hydrogen produced today is produced from natural gas "via a process that
is about 60 percent efficient [compared with 80 percent for gasoline
refining]. But since fuel cells powering electric motors are much more
efficient than gasoline-powered engines, their overall efficiency is about
10 percent better -- and they also produce about 45 percent fewer
greenhouse gases." (n18)
Fuel cells are nothing like the internal combustion
engines powering today's vehicles. A fuel-cell vehicle "is essentially an
electric vehicle powered by a device that operates like a refuelable
battery. Unlike a battery, though, a fuel cell does not store energy; it
uses an electrochemical process to generate electricity and will run as
long as hydrogen fuel and oxygen are fed to it." (n19) Perhaps the
best way to understand the difference in operation between ICE and
fuel-cell engines is to view animations of the two. Click the button below
on the left to go to a GM site on the operation of internal combustion
engines. Click the button below on the right to view a fuel cell animation
presented by the National Fuel Cell Research Center at the University of
California, Irvine.
Although today "between 600 and 800 fuel-cell vehicles are
reportedly under trial across the globe," (n20) enormous
technical and commercial challenges remain for both the development of
commercially viable fuel cell automobiles and the "storing, transporting
and utili[zation of] renewably produced hydrogen." (n21) These
challenges will be discussed at greater length in the second part of the
essay series in August.
In addition to their automotive uses, fuel cells have
numerous applications in power generation, and there may eventually be a
link between the two. Some people believe that "we're likely to see a fuel
cell installed in a home or a subdivision long before we find one under
the hood of a car." (n22) This
concept of distributed power generation in which electricity is generated
in small units close to users (e.g. at household, neighborhood, business,
industry or commercial locations) (n23) will also
be introduced next month.
Representative of the Department of Energy consider that a
transition to a hydrogen-based economy would occur in four phases, and the
year 2015 has emerged as the key year in the first phase. At that time it
is expected that much of the initial government and private industry
research and development will be completed, enabling decisions on the
commercialization of hydrogen-related technologies to take place. If the
schedule proceeds as expected, the second phase, "Transition to the
Marketplace," "could begin as early as 2010 for applications such as
portable power, [with] . . . mass-market penetration (of hydrogen
fuel-cell vehicles) occurring around 2020." (n24) The plan is
not without critics, and a report published last year by the National
Research Council, The Hydrogen Economy: Opportunities, Costs, Barriers
and R&D Needs, concluded that "near-future prospects for a
hydrogen economy are dim." (n25) Please
visit the Essays page again in August to read more about these and other
issues in "Green Cars and the Road Ahead: A Clear Future - Part II." See
you then!
FOOTNOTES
- The following are the footnotes indicated in the text in parentheses
with the letter "n" and a number. If you click the asterisk at the end of
the footnote, it will take you back to the paragraph where you left
off.
n1 - AAA,
Gas Watchers Guide, Heathrow, Florida: AAA Association
Communications, Stock 2700, pp. 4-8 (*)
n2 - United
States Department of Energy (DOE), Energy Information Administration
(EIA), Annual Energy Outlook 2003. Washington D.C.: EIA, US DOE,
January 2003, p. 62(*)
n3 - Vital,
Tina. "Industry Surveys: Oil and Gas Production and Marketing: October
2004," in Standard and Poor's Industry Surveys, Vol. 3 M-A, April
2005, Vol. 172, No. 43, Section 1, p. 5(*)
n4 - United
States House of Representatives, Committee on Science, Subcommittee on
Energy, "President's National Energy Policy, Parts 1 & 2," Serial
107-45, 107th Congress, 1st Session, June 12 & 14, 2001, p. 153(*)
n5 -
International Energy Agency (IEA), World Energy Outlook 2002.
Paris: OECD/IEA, 2002, p. 101(*)
n6 - AAA, "Gas
Watchers Guide," p. 2(*)
n7 -
International Energy Agency (IEA), Energy Policies of IEA Countries:
2003 Review. Paris: OECD/IEA, 2003, p. 4(*)
n8 - Fairley,
Peter, "Hybrid's Rising Sun," Technology Review, Vol. 107, No. 3,
April 2004, p. 36(*)
n9 - Naughton,
Keith, "Green and Mean," Newsweek, Vol. CXLIV, No. 21, Nov. 22,
2004, p. 52(*)
n10 - Bohr,
Peter, "Driving Eco-nomics," Westways, Vol. 97, No. 1,
January/February 2005, p. 48(*)
n11 - Ibid.(*)
n12 - Ibid.(*)
n13 - Reference:
www.gm.com/company/gmability/adv_tech/100_news/
speeches/naias_wagoner_010905.html. From GM website. (*)
n14 - United
States House of Representatives, Committee on Science, Subsommittee on
Energy, testimony in hearing "FreedomCAR: Getting New Technology into the
Marketplace," 107th Congress, 2nd session, Serial No. 107-84, June 26,
2002, p. 64(*)
n15 -
Service, Robert F. "The Hydrogen Backlash," Science, Vol 305,
August 13, 2004, p. 959(*)
n16 - Ibid.(*)
n17 - Ibid.(*)
n18 -
Vanderwerp, Dave "Honda Proves It's Ready for a Hydrogen Economy. Now
Where's the Hydrogen?" Car and Driver, Vol. 51, No. 1, July 2005,
p. 77(*)
n19 - Ashley,
Steven, "On the Road to Fuel Cell Cars," Scientific American, Vol.
292, No. 3, March 2005, p. 64(*)
n20 - Ibid.(*)
n21 - United
States House of Representatives, Committee on Science, Subcommittee on
Energy, "Fuel Cells: The Key to Energy Independence?" 107th Congress, 2nd
Session, Serial No. 107-83, June 24, 2002, p. 46(*)
n22 - Ibid.,
p. 11(*)
n23 - U.S.
House of Representatives, Committee on Science, Subcommittee on Energy,
"President's National Energy Polic, Parts 1 and 2," p. 515(*)
n24 - United
States House of Representatives, Committee on Science, "The Path to a
Hydrogen Economy," 108th Congress, 1st Session, Serial No. 108-4, March 5,
2003, pp. 23 - 24(*)
n25 - Behar,
Michael, "Warning: The Hydrogen Economy May be More Distant Than It
Appears," Popular Science, January 2005, p. 68(*)
LINKS
INCLUDED IN ESSAY
-
Glossary -
www.eere.energy.gov/afdc/resources/glossary.html. ( This is now found at www.eere.energy.gov/afdc/glossary.html.)
-
AAA -
www.aaa.publicaffairs.com
-
U.S.
Department of Energy (DOE)/Environmental Protection Agency (EPA) Fuel
Economy site - www.fueleconomy.gov
-
Orange
County Gas Prices - www.orangecountygasprices.com
-
Los
Angeles County Gas Prices - www.losangelesgasprices.com
-
Gas
Prices, All Areas - www.gasbuddy.com. ( This site lists links to all areas. Riverside and San Bernadino County residents can go
to www.riversidegasprices.com and
www.sanbernadinogasprices.com.)
-
Cars
Obtaining 40 mpg - www.40mpg.org
-
EPA Green
Vehicle Guide - www.epa.gov/greenvehicles.index.htm. ( The listing should now be www.epa.gov/greenvehicles/Index.do.)
-
California State "Drive Clean" site -
www.driveclean.ca.gov
-
Drive
Clean/Alternative Fuel Vehicles -
www.driveclean.ca.gov/en/gv/driveclean/vtype_altfuel.asp
-
Drive
Clean/Cleaner Gas Vehicles -
www.driveclean.ca.gov/en/gv/driveclean/vtype_cleaner.asp
-
Drive
Clean/Electric Vehicles -
www.driveclean.ca.gov/en/gv/driveclean/vtype_electric.asp
-
Drive
Clean/Hybrid (Electric) Vehicles -
www.driveclean.ca.gov/en/gv/driveclean/vtype_hybrid.asp
-
Drive
Clean/Fuel Cell Vehicles -
www.driveclean.ca.gov/en/gv/driveclean/vtype_fuelcell.asp
-
Emissions
Chart - www.driveclean.ca.gov/en/gv/driveclean/emissionrating.asp. ( This now can be found at www.driveclean.ca.gov/en/gv/media/index.asp, then click the "Emissions Rating" link under clean vehicles.)
-
Auto
Incentives/Alt. Fuel Data Center - www.eere.energy.gov
-
GM
Internal Combustion Engine Animation - www.gm.com/company/gmability/edu_k-12. ( Go to www.gm.com/explore/education/9-12/ and click
the link to see inside an engine.)
-
National
Fuel Cell Research Center Fuel Cell Animation -
www.nfcrc.uci.edu/fcresources/FCexplained/FC_animation.htm. ( This information can now be found at
www.nfcrc.uci.edu/2/FUEL_CELL_INFORMATION/
FCexplained/FC_howItWorks.asp.)
A special thanks to Kathy Haq,
Director of Outreach and Communication, Advanced Power and Energy Program,
of the University of California, Irvine, for her time and assistance
during the preparation of this essay.
Click here to
go to the combined bibliography for parts I and II of the "Green Cars"
essays.
To return to the top of the
page, click
here.
To return to the essay archives, click
here.
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