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Hybrid cars

Hybrid cars combine a gasoline engine with an electric motor to improve fuel efficiency. They work by using the electric motor for acceleration and braking and the gasoline engine for maintaining speed. This allows for regenerative braking that captures energy during braking to recharge the batteries. Hybrids get better gas mileage than conventional cars, with emissions reduced by 30-50%. Current hybrid models include the Toyota Prius, Honda Accord Hybrid, and Ford Escape Hybrid.

HYBRID CARS Introduction In an era where energy conservation has become the latest topic of discussion not only among the erudite but also among the ordinary responsible citizens, fuel efficiency along with minimum pollution has become the benchmark for any new automobile. And in the same context “Hybrid Cars” come as the latest addition. By the name itself it can be inferred that a hybrid car is an improvisation to the traditional gasoline engine run car combined with the power of an electric motor.
As more and more people catch on to the wave of the automotive future - the hybrid car, more and more questions arise regarding these efficient, but somewhat mysterious vehicles. But just how do they work, are they reliable enough, and are they capable of being the car of the future? What is a Hybrid Car? A hybrid car is any car that combines two or more sources of power, such as gasoline and a rechargeable battery. A hybrid-electric vehicle (HEV) combines the power of a conventional internal combustion engine with an electric motor. These dual engine systems can be configured for different purposes such as increasing the car’s power and improving fuel economy. In fact, many people have probably owned a hybrid vehicle at some point. For example, a mo-ped (a motorized pedal bike) is a type of hybrid because it combines the power of a gasoline engine with the pedal power of its rider. Evolution of the Hybrid:
 1839: First electric vehicle  1886: Electric powered taxicab in England  1900: Pieper introduced hybrid  1905: Gas-Electric car  1999: Honda Insight released in US (70 mpg)  2000: Toyota Prius available in US  2002: Honda Civic Hybrid introduced  2004: Toyota Prius II introduced; Ford Escape Hybrid introduced  2005: Lexus RX 400h Automobile 2006 model, 3MZ-FE V6 engine  2006: Toyota Camry Hybrid Automobile 2007 model, 2AZ-FXE engine
 2009: Mercedes S400 Blue Hybrid(first lithium-ion battery hybrid and first Mercedes hybrid) Automobile  2010: Mazda Tribute Crossover
Why Hybrids? • Regenerative braking actually makes city driving more economical than on the highway. • Fuel efficiency is greatly increased (twice). • Emissions are greatly decreased. • Dependency on fossils fuels can be decreased. • Hybrids can be run on alternative fuels as well. • Emissions from vehicles are causing global warming and human sickness. • Natural gas extraction for the world will peak within a decade or two. • Hybrid vehicles produce much less emissions and use about 50% less fuel than the average new vehicle in the same class. (Partial- Zero emissions) Global-Warming: Still an Issue… • Hybrids are not zero-emission vehicles. • Will cut down emissions of global-warming pollutants by a third to a half. • Later models may cut these emissions down by even more.
Components of a Hybrid Car  Gasoline Engine  Fuel Tank  Electric Motor  Generator  Batteries  Transmission Hybrid car model:
 Gasoline engine  Much like our engines but smaller and is made with advanced technologies to reduce emissions and increase efficiency  Fuel Tank  Energy storing device for the gasoline engine  Gas has a much larger density than the batteries  Electric Motor  Advance electronics allow it to act as either an motor or a generator. Ex: When needed it can take power from the batteries to accelerate the car.  Generator  Similar to an electric motor, just it acts only to produce electrical power  Batteries  Energy storage device for the electric motor  Transmission  Transmission on a hybrid performs the same as a transmission on our cars
 How a transmission works is that it takes power from the engine or motor and sends to the driveshaft which turns your axle to move your car What makes it a "Hybrid"? Any vehicle is hybrid when it combines two or more sources of power. The gasoline-electric hybrid car is just that -- a cross between a gasoline-powered car and an electric car. Let's start with a few diagrams to explain the differences. Figure 1 shows a gas-powered car. It has a fuel tank, which supplies gasoline to the engine. The engine then turns a transmission, which turns the wheels.
Figure 1. Gasoline-powered car Figure 2. Below shows an electric car, which has a set of batteries that provides electricity to an electric motor. The motor turns a transmission, and the transmission turns the wheels. Figure 2. Electric car
Hybrid Structure You can combine the two power sources found in a hybrid car in different ways. One way, known as a parallel hybrid, has a fuel tank, which supplies gasoline to the engine. But it also has a set of batteries that supplies power to an electric motor. Both the engine and the electric motor can turn the transmission at the same time, and the transmission then turns the wheels. Figure 3 shows a typical parallel hybrid. We'll notice that the fuel tank and gas engine connect to the transmission. The batteries and electric motor also connect to the transmission independently. As a result, in a parallel hybrid, both the electric motor and the gas engine can provide propulsion power.
Figure 3. Parallel hybrid car By contrast, in a series hybrid (Figure 4 below) the gasoline engine turns a generator, and the generator can either charge the batteries or power an electric motor that drives the transmission. Thus, the gasoline engine never directly powers the vehicle.
Figure 4. Series hybrid car
HOW DO HYBRID CARS WORK? http://www.youtube.com/watch?v=LV2W36fPWng Hybrid Performance:  The key for the hybrid car is its ability to use a smaller engine  A conventional engine is sized for peak power requirement whereas Hybrid engines are small.  The hybrid engine is sized for running at the average power not the peak. But when it does reach that point that it needs help up a hill or to pass someone, it draws extra power from the batteries and the electric motor to get the job done. Hybrid Efficiency: Smaller Engines are more efficient Recovers energy and stores it into the batter Regenerative braking Sometimes it will shut the engine off
Hybrid Maintenance: Warranties: o The average warranty for a hybrid now is around either 8 yr/ 100,000 mile or even 10 year/ 150,000 mile Brake pads: No maintenance Batteries: o $6800 for new Toyota and Honda hybrid o But batteries tested to go for 180,000 miles and some Advanced technology: Regenerative braking Electric motor drive/assist Automatic start/shutoff Regenerative braking: Recaptures kinetic energy normally lost as heat during braking. Electric motor acts as a generator when brakes are applied. Converts kinetic energy into electrical energy, stored in batteries.
Electric motor drive/assist: Additional power to assist engine accelerating, passing and up-hill driving. So, allows smaller and more efficient engine to be used. Automatic Start/Shutoff: Automatically shuts off the engine when the vehicle comes to a stop and restarts it when the accelerator is pressed. This prevents the accelerator is pressed. Some EPA (Environmental Protection Agency) facts: • Every gallon of gasoline your vehicle burns puts 20 pounds of CO 2 into the atmosphere. • A 5 mpg difference in fuel economy equates to about 2,800 pounds of CO2 a year.
Recent Advances: Revolution in Battery Technology: Today’s automotive starter batteries: Lead-acid RAV4 EV (and Toyota Prius hybrid battery): Nickel Metal-hydride New batteries based on Lithium, Li-ion or Li-polymer: 5x lighter for same energy! These advances make possible large battery storage for vehicles. BMW’s BRIGHT IDEA: BMW has emerged onto the hybrid gas-electric vehicle scene with its X3 SUV that features super capacitors instead of batteries to store energy. The “super caps” are located in the rocker panel area of the X3 to give it a low center of gravity.
Advantages: Excellent gas mileage Fewer tailpipe emissions Lighter batteries than electric vehicles Regenerative braking system stores electrical energy in batteries Uses less fuel to recharge batteries 20% -25% better mileage than ICE 30% reduction in emissions Disadvantages: Reduced, but not emission-free HECs are partial zero-emission vehicles (PZEVs) – they produce zero emissions only when engine is not running More expensive than conventional Vehicles Has a payback period in average use Expensive Batteries are expensive and toxic waste
Current Models of HECs: •Chevrolet Volt •Honda Accord Hybrid •Honda Civic Hybrid •Ford Escape Hybrid •GMC Silverado Hybrid •GMC Sierra Hybrid •Toyota Prius •Toyota Highlander Hybrid •Honda Insight References: • www.howstuffworks.com • www.wikipedia.org • www.hybridcars.com • www.greencar.com • www.alternativefuels.about.com • Electric and Hybrid cars: A History by Judy Anderson • All About Electric and Hybrid Cars by Stephanie Bearce
CONCLUSION: • Present day automobiles, not only stress on power, performance & luxury, but also focus on emissions, efficiency & reliability. • The demand for fossil fuels will be at a critical stage in the coming future, resulting in high prices of fuels. • The present emission rates from the vehicles are so high that they add to the global warming. • There is a need for clean & less emission vehicles. • Hence, Hybrids are the vehicles of the future.

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In this document
Powered by AI

Hybrid cars combine gasoline engines with electric motors for better fuel efficiency and lower emissions.

Hybrid cars use dual-power sources, improving power and fuel economy; hybrid examples include mopeds.

Timeline of hybrid car development from the first electric vehicle in 1839 to modern models.

Hybrids enhance fuel efficiency, reduce emissions and dependency on fossil fuels, aiding global warming.

Includes gasoline engines, electric motors, batteries, and transmissions, explaining their roles.

Comparison of gasoline and electric cars; details on parallel vs. series hybrids for power sources.

Hybrid cars exploit smaller engines for efficiency, using power from batteries for performance.

Maintenance, warranty, and technology like regenerative braking that enhances hybrid performance.

Advancements in battery technology and innovative energy storage solutions such as super capacitors.

Discusses benefits like gas mileage and emissions reduction versus high costs and battery issues.

Lists popular current hybrid models including Toyota Prius, Honda Civic, Chevrolet Volt, etc.

Emphasizes hybrids as future vehicles that address pollution and efficiency amidst rising fuel costs.

Hybrid cars

  • 1.
    HYBRID CARS Introduction In an era where energy conservation has become the latest topic of discussion not only among the erudite but also among the ordinary responsible citizens, fuel efficiency along with minimum pollution has become the benchmark for any new automobile. And in the same context “Hybrid Cars” come as the latest addition. By the name itself it can be inferred that a hybrid car is an improvisation to the traditional gasoline engine run car combined with the power of an electric motor.
  • 2.
    As more andmore people catch on to the wave of the automotive future - the hybrid car, more and more questions arise regarding these efficient, but somewhat mysterious vehicles. But just how do they work, are they reliable enough, and are they capable of being the car of the future? What is a Hybrid Car? A hybrid car is any car that combines two or more sources of power, such as gasoline and a rechargeable battery. A hybrid-electric vehicle (HEV) combines the power of a conventional internal combustion engine with an electric motor. These dual engine systems can be configured for different purposes such as increasing the car’s power and improving fuel economy. In fact, many people have probably owned a hybrid vehicle at some point. For example, a mo-ped (a motorized pedal bike) is a type of hybrid because it combines the power of a gasoline engine with the pedal power of its rider. Evolution of the Hybrid:
  • 3.
     1839: Firstelectric vehicle  1886: Electric powered taxicab in England  1900: Pieper introduced hybrid  1905: Gas-Electric car  1999: Honda Insight released in US (70 mpg)  2000: Toyota Prius available in US  2002: Honda Civic Hybrid introduced  2004: Toyota Prius II introduced; Ford Escape Hybrid introduced  2005: Lexus RX 400h Automobile 2006 model, 3MZ-FE V6 engine  2006: Toyota Camry Hybrid Automobile 2007 model, 2AZ-FXE engine
  • 4.
     2009: MercedesS400 Blue Hybrid(first lithium-ion battery hybrid and first Mercedes hybrid) Automobile  2010: Mazda Tribute Crossover
  • 5.
    Why Hybrids? • Regenerative braking actually makes city driving more economical than on the highway. • Fuel efficiency is greatly increased (twice). • Emissions are greatly decreased. • Dependency on fossils fuels can be decreased. • Hybrids can be run on alternative fuels as well. • Emissions from vehicles are causing global warming and human sickness. • Natural gas extraction for the world will peak within a decade or two. • Hybrid vehicles produce much less emissions and use about 50% less fuel than the average new vehicle in the same class. (Partial- Zero emissions) Global-Warming: Still an Issue… • Hybrids are not zero-emission vehicles. • Will cut down emissions of global-warming pollutants by a third to a half. • Later models may cut these emissions down by even more.
  • 6.
    Components of aHybrid Car  Gasoline Engine  Fuel Tank  Electric Motor  Generator  Batteries  Transmission Hybrid car model:
  • 7.
     Gasoline engine  Much like our engines but smaller and is made with advanced technologies to reduce emissions and increase efficiency  Fuel Tank  Energy storing device for the gasoline engine  Gas has a much larger density than the batteries  Electric Motor  Advance electronics allow it to act as either an motor or a generator. Ex: When needed it can take power from the batteries to accelerate the car.  Generator  Similar to an electric motor, just it acts only to produce electrical power  Batteries  Energy storage device for the electric motor  Transmission  Transmission on a hybrid performs the same as a transmission on our cars
  • 8.
     How atransmission works is that it takes power from the engine or motor and sends to the driveshaft which turns your axle to move your car What makes it a "Hybrid"? Any vehicle is hybrid when it combines two or more sources of power. The gasoline-electric hybrid car is just that -- a cross between a gasoline-powered car and an electric car. Let's start with a few diagrams to explain the differences. Figure 1 shows a gas-powered car. It has a fuel tank, which supplies gasoline to the engine. The engine then turns a transmission, which turns the wheels.
  • 9.
    Figure 1. Gasoline-poweredcar Figure 2. Below shows an electric car, which has a set of batteries that provides electricity to an electric motor. The motor turns a transmission, and the transmission turns the wheels. Figure 2. Electric car
  • 10.
    Hybrid Structure You cancombine the two power sources found in a hybrid car in different ways. One way, known as a parallel hybrid, has a fuel tank, which supplies gasoline to the engine. But it also has a set of batteries that supplies power to an electric motor. Both the engine and the electric motor can turn the transmission at the same time, and the transmission then turns the wheels. Figure 3 shows a typical parallel hybrid. We'll notice that the fuel tank and gas engine connect to the transmission. The batteries and electric motor also connect to the transmission independently. As a result, in a parallel hybrid, both the electric motor and the gas engine can provide propulsion power.
  • 11.
    Figure 3. Parallelhybrid car By contrast, in a series hybrid (Figure 4 below) the gasoline engine turns a generator, and the generator can either charge the batteries or power an electric motor that drives the transmission. Thus, the gasoline engine never directly powers the vehicle.
  • 12.
    Figure 4. Serieshybrid car
  • 13.
    HOW DO HYBRIDCARS WORK? http://www.youtube.com/watch?v=LV2W36fPWng Hybrid Performance:  The key for the hybrid car is its ability to use a smaller engine  A conventional engine is sized for peak power requirement whereas Hybrid engines are small.  The hybrid engine is sized for running at the average power not the peak. But when it does reach that point that it needs help up a hill or to pass someone, it draws extra power from the batteries and the electric motor to get the job done. Hybrid Efficiency: Smaller Engines are more efficient Recovers energy and stores it into the batter Regenerative braking Sometimes it will shut the engine off
  • 14.
    Hybrid Maintenance: Warranties: o The average warranty for a hybrid now is around either 8 yr/ 100,000 mile or even 10 year/ 150,000 mile Brake pads: No maintenance Batteries: o $6800 for new Toyota and Honda hybrid o But batteries tested to go for 180,000 miles and some Advanced technology: Regenerative braking Electric motor drive/assist Automatic start/shutoff Regenerative braking: Recaptures kinetic energy normally lost as heat during braking. Electric motor acts as a generator when brakes are applied. Converts kinetic energy into electrical energy, stored in batteries.
  • 15.
    Electric motor drive/assist: Additional power to assist engine accelerating, passing and up-hill driving. So, allows smaller and more efficient engine to be used. Automatic Start/Shutoff: Automatically shuts off the engine when the vehicle comes to a stop and restarts it when the accelerator is pressed. This prevents the accelerator is pressed. Some EPA (Environmental Protection Agency) facts: • Every gallon of gasoline your vehicle burns puts 20 pounds of CO 2 into the atmosphere. • A 5 mpg difference in fuel economy equates to about 2,800 pounds of CO2 a year.
  • 16.
    Recent Advances: Revolution inBattery Technology: Today’s automotive starter batteries: Lead-acid RAV4 EV (and Toyota Prius hybrid battery): Nickel Metal-hydride New batteries based on Lithium, Li-ion or Li-polymer: 5x lighter for same energy! These advances make possible large battery storage for vehicles. BMW’s BRIGHT IDEA: BMW has emerged onto the hybrid gas-electric vehicle scene with its X3 SUV that features super capacitors instead of batteries to store energy. The “super caps” are located in the rocker panel area of the X3 to give it a low center of gravity.
  • 17.
    Advantages: Excellent gas mileage Fewer tailpipe emissions Lighter batteries than electric vehicles Regenerative braking system stores electrical energy in batteries Uses less fuel to recharge batteries 20% -25% better mileage than ICE 30% reduction in emissions Disadvantages: Reduced, but not emission-free HECs are partial zero-emission vehicles (PZEVs) – they produce zero emissions only when engine is not running More expensive than conventional Vehicles Has a payback period in average use Expensive Batteries are expensive and toxic waste
  • 18.
    Current Models ofHECs: •Chevrolet Volt •Honda Accord Hybrid •Honda Civic Hybrid •Ford Escape Hybrid •GMC Silverado Hybrid •GMC Sierra Hybrid •Toyota Prius •Toyota Highlander Hybrid •Honda Insight References: • www.howstuffworks.com • www.wikipedia.org • www.hybridcars.com • www.greencar.com • www.alternativefuels.about.com • Electric and Hybrid cars: A History by Judy Anderson • All About Electric and Hybrid Cars by Stephanie Bearce
  • 19.
    CONCLUSION: •Present day automobiles, not only stress on power, performance & luxury, but also focus on emissions, efficiency & reliability. • The demand for fossil fuels will be at a critical stage in the coming future, resulting in high prices of fuels. • The present emission rates from the vehicles are so high that they add to the global warming. • There is a need for clean & less emission vehicles. • Hence, Hybrids are the vehicles of the future.