2. Why fuel efficiency is important
Environmental impacts and public concerns
A short history of electric and hybrid technology
How hybrid and electric cars work
Why they are fuel efficient
Advantages and issues
Technological challenges
Next generation of green vehicles
Q&A
2
3. 3
Rank Country
Oil –
consumption
(bbl/day) Date
1World 85,220,000 2007 est.
2 United States 20,680,000 2007 est.
3 European Union 14,390,000 2007
4 China 7,880,000 2007 est.
5 Japan 5,007,000 2007 est.
6 India 2,722,000 2007 est.
7 Russia 2,699,000 2007 est.
8 Germany 2,456,000 2007 est.
9 Brazil 2,372,000 2007 est.
10 Canada 2,371,000 2007 est.
18 Iran 1,600,000 2007 est.
Rest of the world 23,043,000 2007 est.
World oil consumption, 2007
World energy shortage and growing demand have caused energy crises
US
Source: www.cia.gov/library/publications/the-world-factbook
4. 4
• Oil Reserves are
diminishing
• New data shows Canada
has world second largest
oil reserves after Saudi
Arabia
5. Global warming due to CO2 emission
Combustion (burning)
Fuel(C,H)+O2 CO2 + CO + H2O + energy(heat)
Toxic pollutants such as SOX and NOX, CO and unburned
hydrocarbons
5
CO2 emission 1980-1999
%32 for Transportation
6. Better fuel efficiency, up to %80 theoretically possible
Less CO2 emission and pollution
Lower maintenance
6
2009 Toyota Prius
Hybrid
2009 Toyota Corolla
Conventional
5.3 Lit/100 Km 10.5 Lit/100 Km
Source: www.fueleconomy.gov
US DOE
About $780/year fuel savings
Assume $1 /1L
15000km / year
Invaluable benefit for environment
7. 1825
Steam Engine Car, British inventor Goldsworthy
85 miles round trip took 10 hours (14 km/h)
1870
First electric car was build in Scotland
1897
The London Electric Cab Company used a 40-cell battery and 3
horsepower electric motor,
Could be driven 50 miles between charges
1898
The German Dr. Porsche, at age 23, Built the world's first front-wheel-
drive
Porsche's second car was a hybrid, using an internal combustion
engine to spin a generator that provided power to electric motors located
in the wheel hubs. On battery alone, the car could travel nearly 40 miles
Source: www.hybridcars.com/history
7
8. 1900
US car companies made 1,681 steam, 1,575 electric and 936
gasoline cars.
In a poll, electric was the first choice, followed by steam
1904
Henry Ford overcame the gasoline engine issues: noise, vibration,
and odor
Produced low-priced, lightweight, gas-powered vehicles
Within a few years, the Electric Vehicle Company failed
1997-99
Toyota, Audi, Honda, Ford, GM followed by other main car
manufactures introduced new generation of electric and hybrid cars
2004
The Toyota Prius II won 2004 Car of the Year Awards from Motor Trend
Magazine and the North American Auto Show.
Toyota was surprised by the demand and pumped up its production from
36,000 to 47,000 for the U.S
8
9. 9
Source: www.fueleconomy.gov
US DOE
•87.4 % of fuel energy is wasted
•Only 12.6 % of fuel energy is transferred to the wheels
•5.8 % is turned to kinetic energy, consumed in the brake
•17.2 % idling losses, engine on with no torque
10. 1. Engine is turned off at:
Stops
Lower speed (say less that 15 km/h), an electric motor drives
the car until speed reaches a certain limit, then engine kicks in
When vehicle is stopping or going downhill, engine is turned
off, Regenerative braking is applied
1. When engine operates in an inefficient mode(e.g. at very high
or very low engine speeds), the electric motor kicks in and
assists engine. Engine is driven to its optimum operating zone
2. Engine can be made smaller, due to electric motor assistance
10
11. 11
A B
)( 22
2
1
BA VVmE −=
• VB > VA accelerating, fuel is consumed, kinetic energy is increased
• VA > VB braking, vey little fuel is consumed, kinetic energy is
reduced
energy is dissipated in the brakes as heat in conventional
cars
In hybrids braking energy is recovered by an electric
generator and stored in a battery
it is called regenerative energy, or “Regen Energy”
A B
12. 12
Need engine power, fuel is consumed, potential energy is increased
no need for engine power
Braking, vey little fuel is consumed, potential energy is reduced energy is
dissipated in the brakes as heat in conventional cars
In hybrids braking energy is recovered, Engine can be turned off
automatically going downhill
mghE =
15. 15
Prius does not have
•step gears
•clutch or
•torque converter
•starter motor
•alternator
Schematic diagram of Prius
www.cleangreencar.co.nz/page/prius-technical-info
VCU
Eclectic motors
and planetary
gear system
work as a CVT
or Continuously
Variable
Transmission
19. Have comparable speed and power
Zero emission for hydro electric grids like BC
High overall fuel efficiency, thermal power plants can
have up to 80% efficiency and lower emission
No IC engine, no transmission, no engine oil, no gearbox
fluid
Lower maintenance
Lower price
Good for inner city short trips
Simple and mature tech
Low noise
19
100 years old
20. Plug in hybrid has advantages of the both
GM 2011 Chevrolet Volt can run for 40 miles on
electric power alone
Only uses gasoline to power a generator if the 40-
mile range is exceeded
20
Chevrolet Volt
21. Currently more expensive than conventional
Heavier than conventional, due to battery pack and electric motors
weight
Limited battery life
Expensive battery pack if you want to replace it
Safety issues, high voltage battery and fuel
Reliability, still under study,
More complex computer controlled systems
May have drivability issues
Expensive to repair
21
22. Needs heavy duty power plug terminal (high current) everywhere:
home, parking and street with metering device
Electric energy infrastructure (generation, transmission and
distribution) must be expanded to provide extra energy for this type
of cars.
Travels short distances, inner city
Low speed
Battery charging takes time
Limited battery life
Safety issues
Need new regulatory standards and
New building electric code
22
23. Battery capacity reduces by time, even you do not use it.
This will impact fuel economy
Fuel economy is dependant
on battery capacity
23
The Honda Insight’s battery pack
120 Panasonic 1.2-volt cells (total 144 V)
Nickel metal hydride
100A discharge, and 50A charge rates
The system limits the usable capacity to 4ah to
extend battery life
24. Time of battery changing is long(plug in hybrid)
Batteries are heavy (100kg extra weight consumes 2L/100km
more)
Batteries are expensive
Low performance in hot or cold temperatures also may damage the
battery
Very sensitive to overcharge/undercharge(Battery life reduces
dramatically)
Contain toxic heavy metals, disposal issue
Opportunity for researchers:
Advance research projects on batteries are supported by governments
and industries
24
25. 25
• Plug in hybrids with Lithium Ion Batteries and Ultra Capacitors
• Hybrid Buses
• Hybrid trucks with compressed gas energy storage systems
• Hybrid trains
• EVs everywhere
Hybrids on the Market