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Fuel economy-maximizing behaviors describe techniques that drivers can use to optimize their automobile fuel economy. Fuel economy in automobiles is the amount of Fuel required to move the Automobile over a given Distance. The energy in fuel consumed in driving is lost in many ways, including engine inefficiency, aerodynamic drag, rolling friction, and kinetic energy lost to braking (absent regenerative braking). Engine efficiency of thermal engines is the relationship between the total Energy contained in the Fuel, and the amount of energy used to perform useful work In Fluid dynamics, drag (sometimes called fluid resistance) is the force that resists the movement of a Solid object through a Fluid (a Rolling resistance, sometimes called rolling friction or rolling drag, is the resistance that occurs when a round object such as a ball or Tire The kinetic energy of an object is the extra Energy which it possesses due to its motion A brake is a device for slowing or stopping the motion of a Machine or Vehicle, or alternatively a device to restrain it from starting to move again A regenerative brake is a mechanism that reduces Vehicle speed by converting some of its Kinetic energy into another useful form of energy Driver behavior can influence all of these. The city mileage of conventional cars is lower than highway mileage due to: 1) a high proportion of idling time, 2) operation mostly at very inefficient low-output engine operating points, and 3) more frequent braking.

Contents

Terminology

Various terms describe drivers using unusual driving techniques to maximize fuel efficiency. A few of these are:

Techniques used to maximize fuel economy

Techniques used to improve fuel economy include basic techniques that can be used by most drivers, and advanced techniques that are more specialized, but can be used to achieve extremely high mileage.

Basic techniques

Maintenance

Key parameters to maintain are high tire pressure[5], tire balance and wheel alignment[6], and engine oil with low-kinematic viscosity[1] referred to as low "weight" motor oil, which is filled just to the low-level mark. Cold inflation pressure is the inflation Pressure of Tires before the Car is driven and the tires warmed up Viscosity is a measure of the resistance of a Fluid which is being deformed by either Shear stress or Extensional stress. Motor oil, or engine oil, is an Oil used for lubrication of various Internal combustion engines While the main function is to lubricate Moving [5] Inflating tires to the maximum recommended air pressure means that less energy is required to move the vehicle. [5] Under-inflated tires can lower fuel efficiency by approximately 1. 4 percent for every 1 psi drop in pressure of all four tires. [7] Equally important is the proper maintenance of the Engine Control Module and the sensors it relies on to control engine operation, particularly the oxygen sensor. An engine control unit (ECU is an Electronic control unit which controls various aspects of an Internal combustion engine 's operation An oxygen sensor, or lambda sensor is an electronic device that measures the proportion of Oxygen (O2 in the gas or liquid being analyzed [5]

Minimizing mass

Drivers can also increase fuel economy by driving lighter-weight vehicles and minimizing the amount of luggage, tools, and equipment carried in the vehicle.

Efficient speeds

Maintaining an efficient speed is an important factor in fuel efficiency [1] Optimal efficiency can be expected while cruising with no stops, at minimal throttle and with the transmission in the highest gear. The optimum speed varies with the type of vehicle, although it is usually reported to be in the range of 35 to 55 mph[8][9] [10]. For instance a 2004 Chevrolet Impala had an optimum at 42 mph (70 km/h), and was within 15% of that from 29 to 57 mph (45 to 95 km/h)[8]. Drivers of vehicles with fuel-economy displays can check their own vehicles by cruising at different speeds and monitoring the readout.

Acceleration and deceleration (braking)

Fuel efficiency varies with the vehicle, but generally acceleration is most efficient at near full throttle openings [11] It is also important to keep the engine RPM in an efficient range, so acceleration is more fuel-efficient when up-shifting occurs at a lower RPM. Low-RPM up-shifting is easily executed with a manual transmission.

Generally fuel economy is maximized when acceleration and braking are minimized. So a fuel-efficient strategy is to anticipate what is happening ahead, and drive in such a way so as to minimize acceleration and braking, and maximize coasting time. Gentle acceleration and deceleration is helpful in avoiding unnecessary acceleration. The need to brake in a given situation is in some cases based on unpredictable events which require the driver to slow or stop the vehicle at a fixed distance ahead. Traveling at higher speeds results in less time available to let up on the accelerator and coast. Also the kinetic energy is higher, so more energy is lost in braking. At medium speeds, the driver has more "degrees of freedom", and can elect to accelerate, coast or decelerate depending on whichever is expected to maximize overall fuel economy.

While approaching a red signal drivers may choose to brake far away from the light to try and maintain as much forward momentum as possible. For example, a driver is approaching a red light that he knows will turn green in a few seconds. Instead of coasting up to the light and stopping the driver hits his brakes farther back: he will now be travelling at a slower speed for a longer time, allowing the light to turn green before he arrives. The driver will never have to fully stop, as accelerating from just a few MPH is much more efficient than a full stop.

Conventional brakes dissipate kinetic energy as heat, which is irrecoverable. The kinetic energy of an object is the extra Energy which it possesses due to its motion Regenerative braking, used by hybrid/electric vehicles, recovers some of the kinetic energy, but some energy is lost in the conversion, and the braking power is limited by the battery's maximum charge rate and efficiency. A regenerative brake is a mechanism that reduces Vehicle speed by converting some of its Kinetic energy into another useful form of energy

Coasting or gliding

The alternative to acceleration and braking is coasting. Coasting is an efficient means of slowing down, because kinetic energy is dissipated as aerodynamic drag and rolling resistance, which always must be overcome by the vehicle during travel. Note This article is currently under renovation and may at times appear disjoint Rolling resistance, sometimes called rolling friction or rolling drag, is the resistance that occurs when a round object such as a ball or Tire Coasting normally entails losses in the engine as well, which may be idling, consuming fuel, and/or adding friction. For a discussion of the controversial technique of coasting with the engine off, see the section on advanced techniques below.

Fuel type

It is commonly believed that efficiency of a gasoline engine is related to the fuel's octane level; however, this is not true in most situations. Octane rating is only a measure of the fuel's propensity to cause an engine to "ping", this ping is due to "pre-combustion", which occurs when the fuel burns too rapidly (before the piston reaches top dead center). The octane rating is a measure of the resistance of Gasoline and other Fuels to Detonation ( Engine knocking) in spark-ignition Higher octane fuels burn more slowly at high pressures. For the vast majority of vehicles (i. e. vehicles with "standard" compression ratios), standard octane fuel will work fine and not cause pinging. Using high octane fuel in a vehicle that does not need it is generally considered an unnecessary expense[12], although Toyota has measured slight differences in efficiency due to octane number even when knock is not an issue [13]. Most vehicles equipped with emissions systems have sensors that will automatically adjust the timing, if and when ping is detected, so low octane fuel can be used even if the engine is designed for high octane, at some reduction in efficiency. If the engine is designed for high octane then higher octane fuel will result in higher performance (with full-open throttle), but not necessarily fuel cost savings, since the high-octane is only needed with the throttle fully open. For other vehicles that have problems with ping, it may be due to a maintenance problem, such as carbon buildup inside the cylinder, using spark plugs with the improper heat range or ignition timing problems. In such cases, higher octane fuel may help, but this is an expensive fix, proper repair might make more long term sense. There is slightly less energy in a gallon of high octane fuel, than low octane[14]. Ping is detrimental to an engine; it will decrease fuel economy and will damage the engine over time.

Trip computer

Modern hybrids come with built-in trip computers which display real-time fuel economy (MPG), which helps the driver adjust driving habits. However, most gasoline powered vehicles do not have this as a standard option (although some luxury vehicles do). However, most vehicles produced after 1996, have one of three standardized interfaces for "on-board diagnostics", which provides information including the rate of fuel consumption, and the vehicle speed. On-Board Diagnostics, or OBD, in an Automotive context is a generic term referring to a vehicle's self-diagnostic and reporting capability This streaming data is sufficient to calculate the real-time fuel economy.

Generic aftermarket or "add-on" products are available, such as the "ScanGauge",[15] which will connect to a vehicle's onboard computer, read the real-time information, and calculate and display the instantaneous fuel economy. The automotive aftermarket is the part of the automotive industry concerned with the Manufacturing, Remanufacturing, Distribution, Retailing, This information assists the driver by displaying the fuel consumption. This provides a general indicator to the driver who can then infer in real-time how driving techniques affect gas mileage. This can help the astute driver to learn how to drive more efficiently, [1] However, such a device does not do all the work for the driver. The device only measures fuel consumption, and fuel economy. It does not indicate braking statistics, for example, nor does it teach a driver how to "time a traffic light" by adjusting the vehicle speed, such that the vehicle arrives at the intersection when the light is green, and braking is minimized.

Advanced techniques

These are less broadly applicable, and some may compromise safety.

Pulse and glide

This method consists of accelerating to a given speed (the "pulse"), followed by a period of coasting (the "glide"), and then repeating the process. The glide is most efficient when the engine is not running. Because some cars inject extra fuel when the starter is activated, this was originally best accomplished with a manual transmission. [16] Hybrid vehicles, such as the Toyota Prius, are ideally suited to performing this technique as well: the internal combustion engine, as well as the charging system, can be shut off for the glide by simply manipulating the accelerator. The Toyota Prius is a hybrid electric Mid-size car developed and manufactured by the Toyota Motor Corporation The internal combustion engine is an engine in which the Combustion of Fuel and an Oxidizer (typically air occurs in a confined space called a

Auto-stop, forced stop, and draft-assisted forced stop

In the auto-stop maneuver, the vehicle's transmission is put in neutral, the engine is turned off (a "forced stop"), and the vehicle coasts to a stop. It is possible to coast in neutral with either a manual or automatic transmission. Please be aware that modern automatic transmissions/transaxles depend on an engine driven fluid pump for lubrication, and coasting with the engine off may lead to damage or failure of the transmission. To perform the maneuver, the driver shifts into neutral, and lets the tachometer stabilize, then keys the ignition back to the first position, referred to as "IG-I", to shut off the engine and electronics. The driver then keys forward to IG-II to start the electronics and continue coasting. [5] The key should remain in the ignition in the IG-II position, and not the IG-I position [17], in order to avoid engaging the steering wheel lock. [18] The driver recovers from "stealth mode" by starting the engine in the normal way, by turning the key to IG-III to crank the starter motor, and then releasing the key back to IG-II. Before putting the transmission in gear, if necessary, the driver may "rev" the engine to match the vehicle's gear and speed. The fuel economy from this advanced technique is increased noticeably over any short distance trip, largely because there are no engine idling losses (see figure below). [5] Most modern automatics' computer systems do a very good job at keeping the transmission in the proper gear while coasting in neutral, and the driver should not be conscious of the tachometer when re-engaging, but rather just press half-way down on the accelerator when re-engaging.

Some, but not all, hypermilers use this maneuver, and some may use it more safely than others. The technique is used for general coasting, or as part of the pulse-and-glide maneuver, or when going down hills or in other situations when potential energy or momentum will propel the vehicle without engine power. [1] Some hypermilers may use this maneuver while going downhill, around a corner, and without braking;[17] however, that practice is in all likelihood more dangerous than an auto-stop on a level and straight road, where stopping distance is shorter and visibility is greater. Vehicle control may be somewhat compromised, and this can be more-or-less dangerous or safe depending on the situation. Turning the engine off will cause the power brake assist to be lost after a few applications of the brake pedal. Power steering is quickly lost, although it is not needed at high speed, only at low speed. [5] Steering is still possible at low speed, but can often require considerably more arm strength to turn the wheel.

For safety reasons, the maneuver is not recommended for use in traffic, since the driver will want the car to be in gear if sudden acceleration is needed as an evasive maneuver. The driver should first look for traffic behind the vehicle before attempting the maneuver. It can be considered more courteous to not coast if another vehicle is closely following. [18] The proper etiquette and acceptable driving practices are controversial, and is worsened by a lack of communication between drivers. Both sides of the debate are often argued passionately, yet sometimes neither of the proposed driving methods is in complete accordance with the rules of the road. Both hypermilers and regular drivers may at different times violate the same rule yet blame the other type of driver.

Despite the potential risks, it does in fact save fuel to turn the engine off instead of idling. Traffic lights are in most cases predictable, and it is often possible to anticipate when a light will turn green. Some traffic lights (in Europe) have timers on them, which assists the driver in using this tactic. [18]

Draft-assisted forced stop, a variation of the forced (auto)stop (sometimes abbreviated as D-FAS), involves turning off the engine and gliding in neutral while drafting a larger vehicle, in order to take advantage of the reduced wind resistance in its immediate wake (This practice is illegal in some areas due to its danger); while tailgating itself is inherently risky, the danger of collision is increased with D-FAS as hydraulic power for power brakes is used up after a few applications of the brake pedal, and there is a loss of hydraulic pressure that provides power steering, [19] however, there is less need for power steering at high speed. In Fluid dynamics, drag (sometimes called fluid resistance) is the force that resists the movement of a Solid object through a Fluid (a A wake is the region of Turbulence immediately to the rear of a solid body caused by the flow of Air or Water around the body A brake is a device for slowing or stopping the motion of a Machine or Vehicle, or alternatively a device to restrain it from starting to move again Power steering is a system for reducing the Steering effort on vehicles by using an external power source to assist in turning the roadwheels. [5]

Some hybrids must keep the engine running whenever the vehicle is in motion and the transmission engaged, although they still have an "auto-stop" feature which engages when the vehicle stops, avoiding waste. Maximizing use of auto-stop on these vehicles is critical because idling causes a severe drop in instantaneous fuel-mileage efficiency to zero miles per gallon, and this lowers the average (or accumulated) fuel-mileage efficiency.

Hybrid and electric engines

Main articles: Hybrid vehicle, Plug-in hybrid, and Electric vehicle

The most effective commonly available hybrid vehicles in the hypermilage marathons are the Honda Insight Hybrid, the Toyota Prius Hybrid, and the Honda Civic Hybrid. A hybrid vehicle is a vehicle that uses two or more distinct power sources to propel the vehicle A plug-in hybrid electric vehicle ( PHEV) is a Hybrid vehicle with batteries that can be recharged by connecting a plug to an Electric power The Electric Vehicle was an American Automobile manufactured only in 1899 () is a Multinational corporation, engine Manufacturer and engineering corporation headquartered in Japan. The Honda Insight is a Hybrid electric vehicle manufactured by Honda in its first generation as a three-door hatchback from model years 2000 to 2006 (pronounced) is a Multinational corporation headquartered in Japan, and is currently the world's largest Automaker. The Toyota Prius is a hybrid electric Mid-size car developed and manufactured by the Toyota Motor Corporation () is a Multinational corporation, engine Manufacturer and engineering corporation headquartered in Japan. See also Honda Civic The Honda Civic Hybrid is a hybrid version of the Honda Civic sedan. Other hybrids have also done very well. Some historical non-hybrid vehicles such as the Honda Civic CR-X HF and the Smart Fortwo have also done remarkably well on mileage. This article is about the first and second generation CR-Xs for the third generation version see Honda Civic del Sol. The smart fortwo is a rear-engined two-seater It was first shown at the 1998 Paris Motor Show. The Toyota and Ford hybrids use two motor generators called a series-parallel hybrid with unique characteristics different from the single motor generators of the Honda and GM hybrids (as of January 2007). The Honda motor generator is integrated with the engine, the Integrated Motor Assist (IMA) that enhances the low-end torque of the engine. Integrated Motor Assist (commonly abbreviated as IMA) is Honda 's Hybrid car technology introduced in 1999 on the Insight. The current GM hybrids turn-off the engine at a stop and restart it when ready to leave.

The Toyota and Ford hybrids have a threshold speed—around 42 mph in the case of the Prius—above which the engine must run to protect the transmission system. Below this model-dependent speed, the car will automatically switch between either battery-powered mode or engine power with battery recharge. These hybrids typically get their best fuel efficiency below this model-dependent threshold speed. Coasting can be achieved by using Neutral transmission range. The Honda IMA vehicles have a limited, battery-only, powered capability, although after-market modding has made the Insight capable of running in electric only-mode [7]. They achieve higher fuel economy [8]. Another way to save fuel includes turning off the engine on manual transmission vehicles when coasting.

The GM hybrids have an engine auto-stop when halted. As of January 2007, they have no battery-only, powered capability. In late 2007, GM will introduce two two-mode hybrid, full-size SUVs, which can be powered by electric motors, V8 engines, or a combination of both.

Energy losses

Example energy flows for a late-model midsize passenger car: (a) urban driving; (b) highway driving. Source: U.S. Department of Energy [6]
Example energy flows for a late-model midsize passenger car: (a) urban driving; (b) highway driving. Source: U. S. Department of Energy [6] [20]

Understanding the distribution of energy losses in a vehicle can help drivers travel more efficiently. Most of the fuel energy loss occurs in the thermodynamic losses of the engine. In Physics, thermodynamics (from the Greek θερμη therme meaning " Heat " and δυναμις dynamis meaning " The second largest loss is from idling, or when the engine is in "standby", which explains the large gains available from shutting off the engine. Very little fuel energy actually reaches the axle. However, any mechanical energy that doesn't go to the axle is energy that doesn't have to be created by the engine, and thus reduces loss in the inefficiency of the engine. [21]

In this respect, the data for fuel energy wasted in braking, rolling resistance, and aerodynamic drag are all somewhat misleading, because they do not reflect all the energy that was wasted up to that point in the process of delivering energy to the wheels. The image reports that on non-highway (urban) driving, 6% of the fuel's energy is dissipated in braking; however, by dividing this figure by the energy that actually reaches the axle (13%), one can find that that 46% of the energy reaching the axle goes to the brakes. Also, additional energy can potentially be recovered when going down hills, which may not be reflected in these figures. [22] Any statistic such as this must be based on averages of certain driving behaviors and/or protocols, which are known to vary widely, and these are precisely the behaviors which hypermilers leverage to the full extent possible.

Safety

Geoff Sundstrom, director of AAA Public Affairs, notes that "saving fuel and conserving energy are important, but so is safety, and preventing crashes. "[1] On the highway, the most fuel-efficient driving is often done between the legal minimum speed and the speed limit, often around 55 mph, which coincides with the vehicle's maximum fuel efficiency. This speed is very often much slower than the average highway vehicle. This practice is safe, because one avoids dangerous high speeds. [1] However, driving at speeds much lower than other vehicles can pose other significant risks, such as causing aggressive drivers to tailgate the slower vehicle. [1] Coasting in neutral and/or with the engine off may lead to reduced control in some situations.

Tailgating

On some roads, the norm is to drive above the speed limit, and a driver traveling at a legal speed can easily and inadvertently incite road rage in another driver. In particular, slower driving may lead to faster drivers tailgating the slow vehicle, which is a dangerous situation, particularly at high speeds.

There are many reported accounts of road rage and tailgating by aggressive drivers, when hypermilers drive in a manner that other drivers are unaccustomed to, such as coasting to a stop. Road rage is the behavior by a driver of an automobile or other motor vehicle which thus causes collisions or incidents on roadways Tailgating is the practice of driving on a road too closely behind another vehicle such as less than the travel distance in two seconds or equivalently one vehicle-length [23]

The risk of tailgating is largely caused by the accident avoidance time being reduced to much less than the driver reaction time. For maximum safety, driving instructors advocate using the "3 second rule" (the distance between your car and the car in front of you should be 3 seconds of driving time at your current speed), regardless of speed. In the US, if an accident occurs due to tailgating, the tailgater is liable for injury and damages in some states.

The risk of severe road rage may be lessened by permitting aggressive drivers the opportunity to pass when it is safe to do so. Road rage is the behavior by a driver of an automobile or other motor vehicle which thus causes collisions or incidents on roadways

[24]

Discovery Channel's Mythbusters found a 40% decrease in fuel consumption when tailing a tractor trailer at less than 10 ft but, they pointed out that drafting a big rig at such close distances is life-threatening and extremely dangerous. MythBusters is a Popular science Television program produced by Australian firm Beyond Television Productions originally for the The recommended minimum safe driving distance from a big rig is 150 ft.

Coasting in neutral

Those who warn that coasting can be dangerous claim that the driver has less control of the vehicle, and will take longer to react in an emergency. [25]

In a collision-avoidance emergency, the safe technique focuses entirely on controlled braking, and not at all on acceleration. The proper technique is to use threshold braking (maximum deceleration without skidding), then to wait one second for the weight to shift onto the front wheels in order to increase vehicle cornering stability and to increase the maximum lateral acceleration that is possible without skidding, and then to turn the vehicle rather quickly and sharply to avoid the object. If the lead vehicle initiates an emergency stop, the trailing vehicle is likely to need 3 seconds to avoid a collision. However, this technique requires caution as too much weight transfering to the front and, hence away from the rear tires can cause an oversteer (fishtail) situation, particularly in conjunction with the pendulum effect that a sudden left-right (or vice-versa) transition can cause. [24]

Driving in neutral or coasting without engine power is not limited to the "auto-stop" maneuver used in hypermiling. During normal driving, situations may occur where there is a similar loss of engine power.

One function of the driving laws is to help increase safety. However, the safety issues are not always clear cut, and often neither are the laws. A driver legally does need to know how to control the vehicle safely when the car is in neutral. The general practice of coasting in neutral is against the law in many American states, yet there are exceptions to this law, and some places advocate its use in certain circumstances, for example: "If you are on ice and skidding in a straight line, step on the clutch or shift to neutral. " [26] Also, in a stuck throttle emergency, the safe procedure is to put the transmission in neutral, and if that is ineffective, to turn off the engine. [27] Also, a driver legally needs to have the ability to bring the vehicle to a stop under any circumstances, including when the engine stalls during normal driving. In the event that there is a loss of engine power, decelerating to a stop is recommended as the safest action. As a safety feature, vehicles are designed to retain some limited ability to steer and brake even when all engine power is lost. However, in newer vehicles, coasting in neutral may not be the most efficient method. On most cars with computer-controlled, closed-loop electronic fuel injection (including direct injection), no fuel is injected when coasting in gear as the wheels are turning the differential/transmission which in turn keeps the engine from stopping. In neutral, the fuel system must inject enough fuel to keep the engine idling as the engine is effectively disconnected from the transmission/transaxle.

See also

References

  1. ^ a b c d e f g h Diken, Chris; Erica Francis. Alternative propulsion is a term used frequently for Powertrain concepts differing from the Internal combustion engine concept used in only Petroleum fueled Carpooling (also known as car-sharing, ride-sharing, lift-sharing) is the shared use of a car by the driver and one or more passengers usually Fuel economy in automobiles is the amount of Fuel required to move the Automobile over a given Distance. A Low-energy vehicle is any type of vehicle that uses less energy than a regular Petroleum fuel vehicle A plug-in hybrid electric vehicle ( PHEV) is a Hybrid vehicle with batteries that can be recharged by connecting a plug to an Electric power Fuel efficiency, in its basic sense is the same as Thermal efficiency, meaning the efficiency of a process that converts chemical potential energy contained in a carrier "Ten fuel-saving tips from a hypermiler", MSNBC.  "The term was coined by Wayne Gerdes. 'Gerdes isn’t just a hypermiler. He’s the hypermiler. He’s the man who coined the term "hypermiler"'" 
  2. ^ New York Times article on Mobil Economy Run - BOB KNOLL - December 24, 2006
  3. ^ Gaffney, Dennis. "This Guy Can Get 59 MPG in a Plain Old Accord. Beat That, Punk.", Mother Jones, 2007-01-01. Year 2007 ( MMVII) was a Common year starting on Monday of the Gregorian calendar in the 21st century. New Year See also New Year The Ancient Romans began their consular year on January 1st since 153 BC Retrieved on 2007-04-20. Year 2007 ( MMVII) was a Common year starting on Monday of the Gregorian calendar in the 21st century. Events 1303 - The University of Rome La Sapienza is instituted by Pope Boniface VIII.  
  4. ^ Ministry of Education, Science and Culture, ed. (1979) "Japanese Scientific Terms, Electrical Engineering Edition" Tokyo: Koronasha. 3054-000010-2353
  5. ^ a b c d e f g h Gerdes, Wayne (2006-07-24). Year 2006 ( MMVI) was a Common year starting on Sunday of the Gregorian calendar. Events 1132 - Battle of Nocera between Ranulf II of Alife and Roger II of Sicily. The Why’s and how to Hypermile. CleanMPG. com.
  6. ^ "Stretch Your Gas, Mile for Mile", The Washington Post, The Washington Post Company, 2006-05-28. Year 2006 ( MMVI) was a Common year starting on Sunday of the Gregorian calendar. Events 585 BC - A Solar eclipse occurs as predicted by Greek philosopher and scientist Thales, while Alyattes is battling Retrieved on 2008-06-03. 2008 ( MMVIII) is the current year in accordance with the Gregorian calendar, a Leap year that started on Tuesday of the Common Events 350 - Roman usurper Nepotianus, of the Constantinian dynasty, proclaims himself Roman Emperor, entering  
  7. ^ TRANSPORTATION RESEARCH BOARD SPECIAL REPORT 286 TIRES AND PASSENGER VEHICLE FUEL ECONOMY p46 (Schuring)
  8. ^ a b [1] A graph of fuel consumption vs. speed for a Chevy Impala
  9. ^ [2] Graph of fuel consumption vs. speed for a BMW
  10. ^ Modeling Light-Duty Vehicle Emissions Based on Instantaneous Speed and Acceleration Levels, [3], kyoungho Ahn, 2002 Virginia Tech PhD Thesis, Fig. 5-7
  11. ^ [4] Q: How do you get 116 mpg (US) in a Metro XFi? A: Pulse and glide.
  12. ^ http://www.faqs.org/faqs/autos/gasoline-faq/part3/preamble.html Section 6. 13
  13. ^ SAE paper 2007012007
  14. ^ Bosch Automotive Handbook
  15. ^ ScanGauge
  16. ^ [5] Q: How do you get 116 mpg (US) in a Metro XFi? A: Pulse and glide.
  17. ^ a b Hypermiling: Quest for Ultimate Fuel Economy.
  18. ^ a b c Advanced Gas Mileage Tips from hi-mpg.org.
  19. ^ Dennis Gaffney. This Guy Can Get 59 MPG in a Plain Old Accord. Beat That, Punk.. Mother Jones, January/February 2007. Mother Jones is an independent Nonprofit Magazine rooted in liberal political values and known for its Investigative reporting Retrieved 2007-05-11. Year 2007 ( MMVII) was a Common year starting on Monday of the Gregorian calendar in the 21st century. Events 330 - Byzantium is renamed ''Nova Roma'' during a dedication ceremony but is more popularly referred to as Constantinople
  20. ^ TRANSPORTATION RESEARCH BOARD SPECIAL REPORT 286 TIRES AND PASSENGER VEHICLE FUEL ECONOMY Fig 3-1, p.63 of pdf, p.40 of report
  21. ^ TRANSPORTATION RESEARCH BOARD SPECIAL REPORT 286 TIRES AND PASSENGER VEHICLE FUEL ECONOMY Fig 3-1, p.63 of pdf, p.40 of report
  22. ^ http://www.trb.org/publications/sr/sr286.pdf TRANSPORTATION RESEARCH BOARD SPECIAL REPORT 286 TIRES AND PASSENGER VEHICLE FUEL ECONOMY Fig 3-1, p. 63 of pdf, p. 40 of report
  23. ^ Hypermiler : the Prius owners group
  24. ^ a b Skid School. Stevens Advanced Driver Training.
  25. ^ Driving & Driving Test Tips: Coasting in Neutral to Save Gas, minor extent, engine brakes
  26. ^ www. mto. gov. on. ca/english/safety/winterdrive/winterdrive. htm
  27. ^ How To Survive the Top 10 Driving Emergencies

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