NationMaster - Encyclopedia: Fuel economy in automobiles

Fuel economy in automobiles is the amount of fuel required to move the automobile over a given distance. While the fuel efficiency of petroleum engines has improved markedly in recent decades, this does not necessarily translate into fuel economy of cars, as people in developed countries tend to buy bigger and heavier cars. Image File history File links Gnome-globe. ... Image File history File links Size of this preview: 800 Ã— 355 pixelsFull resolutionâ€Ž (970 Ã— 430 pixels, file size: 24 KB, MIME type: image/jpeg) File historyClick on a date/time to view the file as it appeared at that time. ... Image File history File links Size of this preview: 800 Ã— 355 pixelsFull resolutionâ€Ž (970 Ã— 430 pixels, file size: 24 KB, MIME type: image/jpeg) File historyClick on a date/time to view the file as it appeared at that time. ... The Honda Airwave is an automobile produced by Honda Motor Company of Japan. ... For other uses, see Fuel (disambiguation). ... Car redirects here. ... Distance is a numerical description of how far apart objects are at any given moment in time. ... 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 fuel into kinetic energy or work. ... Petro redirects here. ... A colored automobile engine 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 combustion chamber. ... A developed country is a country that has achieved (currently or historically) a high degree of industrialization, and which enjoys the higher standards of living which wealth and technology make possible. ...

Units of measure

The two most common ways to measure automobile fuel economy are: Image File history File links Chart_MPG_to_Litre-100km. ... Image File history File links Chart_MPG_to_Litre-100km. ...

To convert between L/(100 km) and miles per U.S. gallon, divide 235 by the number in question. (For miles per imperial gallon, use 282 instead of 235.) For example, to convert from 30 mpg (U.S.) to L/(100 km), divide 235 by 30, giving 7.83 L/(100 km); or from 10 L/(100 km) to mpg U.S., divide 235 by 10 (23.5 mpg). To convert from L/100 km to km/L, divide between 100 and calculate the reciprocal of the result. The litre or liter (see spelling differences) is a unit of volume. ... â€œkmâ€ redirects here. ... â€œMilesâ€ redirects here. ... The gallon (abbreviation: gal) is a unit of volume. ... U.S. customary units, commonly known in the United States as English units or standard units, are units of measurement that are currently used in the U.S., in some cases alongside units from SI (the International System of Unitsâ€”the modern metric system). ... The Imperial units are an irregularly standardized system of units that have been used in the United Kingdom and its former colonies, including the Commonwealth countries. ... Look up reciprocal in Wiktionary, the free dictionary. ...

A related measure is the amount of carbon dioxide produced as a result of the combustion process, typically measured in grams of CO₂ per kilometre (CO₂ g/km). A petrol (gasoline) engine will produce around 2.3 kg of carbon dioxide for each litre of petrol consumed (19 lb/gal).^[1] A typical diesel engine produces 2.8 kg/L (23 lb/gal)^[2] though typically burns fewer litres per kilometre (and is thus typically more fuel efficient for an otherwise identical car). Since the CO₂ emissions are relatively constant per litre, fuel efficiency is directly related to emissions of CO₂ per kilometre.^[3] Carbon dioxide (chemical formula: ) is a chemical compound composed of two oxygen atoms covalently bonded to a single carbon atom. ...

Diminishing return

Because miles per gallon is the inverse of actual fuel consumption (gallons per mile), each additional mile per gallon represents less saved fuel. For example, switching from a 10 mpg vehicle to a 15 mpg vehicle saves three times as much gas as switching from a 50 mpg vehicle to a 100 mpg vehicle.

A vehicle getting 10 mpg would consume 0.1 gallons per mile (1/mpg). Reducing fuel consumption by increments of 0.01 gal/mile results in the following measurements:

Fuel economy statistics

The choice of car and how it is driven drastically affects the fuel economy. A top fuel dragster can consume 6 U.S. gallons (23 L) of nitromethane for a quarter-mile (400 m) run in about 4.5 seconds, which comes out to 24 gallons per mile (5600 L per 100 km). The other extreme was set by a French entrant in the Eco-Marathon in 2004, who managed 3401 km/l, or more than 8000 mpg ^[6]. Clocked Speed = 314 mph (506 km/h), Kwinana Race Track, W.A., 2005 Top fuel dragster time (4. ... Drag racing is a form of auto racing in which cars attempt to complete a fairly short, straight and level course in the shortest amount of time. ... The gallon (abbreviation: gal) is a unit of volume. ... Flash point 35 Â°C R/S statement R: S: RTECS number PA9800000 Related compounds Related nitro compounds nitroethane Related compounds methyl nitrite methyl nitrate Except where noted otherwise, data are given for materials in their standard state (at 25 Â°C, 100 kPa) Infobox disclaimer and references Nitromethane is an organic... The Eco-Marathon is an annual competition sponsored by Shell, in which vehicles take fuel consumption to the extreme -- the current record is 12,665 miles per gallon (MPG). ...

Both such vehicles are extremes, and most people drive ordinary cars that typically average 15 to 40 miles per US gallon ( 19 to 50 miles per imperial gallon) or (5.6 to 15 L per 100 km). However, due to environmental concerns caused by CO₂ emissions, new EU regulations are being introduced to reduce the average emissions, of cars sold beginning in 2012, to 130 g/km of CO₂, equivalent to 4.5 L per 100 km (52 mpg US, 63 MPG imperial) for a diesel-fueled car, and 5.0 L per 100 km (47 mpg US, 56 MPG imperial) for a gasoline (petrol)-fueled car.^[7] EU fuel economy testing is done on a rolling road with two segments, ECE15 and EUDC, which correspond to city and highway driving, respectively. The city driving cycle simulates a 4.052 km (2.5 mile) urban trip at an average speed of 18.7 km/h (11.6 mph) and at a maximum speed of 50 km/h (31 mph), while the highway cycle lasts 400 seconds (6 minutes 40 seconds) at an average speed 62.6 km/h (39 mph) and a top speed of 120 km/h (74.6 mph).^[8]

It should be borne in mind that the average consumption across the fleet is not immediately directly affected by the new vehicle fuel economy, for example Australia's car fleet average in 2004 was 11.5 l/100 km (20.5 mpg),^[9] compared with the average new car consumption in the same year of 25.3 mpUSg.^[5]

Physics background

The power to overcome air resistance increases roughly with the cube of the speed, and thus the energy required per unit distance is roughly proportional to the square of speed. Because air resistance increases so rapidly with speed, above about 30 mph (48 km/h), it becomes a dominant limiting factor. Driving at 45 rather than 65 mph (72 rather than 105 km/h), results in about one-third the power to overcome wind resistance, or about one half the energy per unit distance, and much greater fuel economy can be achieved. Increasing speed to 90 mph (145 km/h) from 65 mph (105 km/h) increases the power requirement by 2.6 times, the energy by 1.9 times, and drastically decreases fuel economy. In practice, rather than doubling or halving the fuel economy, the difference is actually closer to 40-50%, because engine efficiency varies greatly with the torque/speed operating point. Rolling resistance, which is broadly proportional to speed, is also a factor particularly at lower speeds. An object moving through a gas or liquid experiences a force in direction opposite to its motion. ...

There were complaints when the speed limit was lowered from 65 mph to 55 mph that it could lower, instead of increase fuel economy, and in fact the 1997 Toyota Celica gets 1 mpg better mileage at 65 than it does at 55 (43.5 vs 42.5), although almost 5 mpg better at 60 than at 65 (48.4 vs 43.5). Other vehicles tested had from 1.4 to 20.2% better mileage at 55 mph vs. 65 mph.^[10] speed will be limiting factor for the economy.

U.S. government regulations

U.S. Energy Tax Act

The Energy Tax Act of 1978^[11] in the U.S. established a gas guzzler tax on the sale of new model year vehicles whose fuel economy fails to meet certain statutory levels. The tax applies only to cars (not trucks) and is collected by the IRS. Its purpose is to discourage the production and purchase of fuel-inefficient vehicles. The tax was phased in over ten years with rates increasing over time. It applies only to manufacturers and importers of vehicles, although presumably some or all of the tax is passed along to automobile consumers in the form of higher prices. Only new vehicles are subject to the tax, so no tax is imposed on used car sales. The tax is graduated to apply a higher tax rate for less-fuel-efficient vehicles. To determine the tax rate, manufacturers test all the vehicles at their laboratories for fuel economy. The U.S. Environmental Protection Agency confirms a portion of those tests at an EPA lab. The Energy Tax Act (Pub. ... The Energy Tax Act (Pub. ... Taxes redirects here. ... Seal of the Internal Revenue Service Tax rates around the world Tax revenue as % of GDP Part of the Taxation series IRS redirects here. ... EPA redirects here. ...

EPA testing procedure through 2007

Two separate fuel economy tests simulate city driving and highway driving: the city driving program consists of starting with a cold engine and making 23 stops over a period of 31 minutes for an average speed of 20 mph (32 km/h) and with a top speed of 56 mph (90 km/h); the highway program uses a warmed-up engine and makes no stops, averaging 48 mph (77 km/h) with a top speed of 60 mph (97 km/h) over a 10 mile (16 km) distance. The measurements are then adjusted downward by 10% (city) and 22% (highway) to more accurately reflect real-world results. A weight average of city (55%) and highway (45%) fuel economies is used to determine the tax.^[12]

In some cases, this tax may only apply to certain variants of a given model - for example, the 2004–2006 Pontiac GTO did incur the tax when ordered with the four-speed automatic transmission, but did not incur the tax when ordered with the six-speed manual transmission. 1965 Pontiac GTO convertible The Pontiac GTO was an automobile built by Pontiac from 1964 to 1974, and by General Motors Holden in Australia from 2004 to 2006. ...

Because EPA figures are almost always higher than real-world mileage, EPA has modified the method starting with 2008.

New 2008– EPA testing procedure

As a means of reflecting real world fuel economy more accurately, the EPA adds three new tests^[13] that will combine with the current city and highway cycles to determine fuel economy of new vehicles, beginning with the 2008 model year. A high speed/quick acceleration loops lasts 10 minutes, covers 8 miles (13 km), averages 48 mph (77 km/h) and reaches a top speed of 80 mph (130 km/h). Four stops are included, and brisk acceleration maximizes at a rate of 8.46 mph (13.62 km/h) per second. The engine begins warm and air conditioning is not used. Ambient temperature varies between 68 to 86 °F (30 °C).

The air conditioning test raises ambient temperatures to 95 °F (35 °C), and the vehicle's climate control system is put to use. Lasting 9.9 minutes, the 3.6-mile (5.8 km) loop averages 22 mph (35 km/h) and maximizes at a rate of 54.8 mph (88.2 km/h). Five stops are included, idling occurs 19 percent of the time and acceleration of 5.1 mph/sec is achieved. Engine temperatures begin warm. Lastly, a cold temperature cycle uses the same parameters as the current city loop, except that ambient temperature is set to 20 °F (−7 °C).

CAFE standards

The Corporate Average Fuel Economy (CAFE) regulations in the United States, first enacted by Congress in 1975,^{[citation needed]} are federal regulations intended to improve the average fuel economy of cars and light trucks (trucks, vans and sport utility vehicles) sold in the US in the wake of the 1973 Arab Oil Embargo. Historically, it is the sales-weighted average fuel economy of a manufacturer's fleet of current model year passenger cars or light trucks, manufactured for sale in the United States. Under Truck CAFE standards 2008–2011 this changes to a "footprint" model where larger trucks are allowed to consume more fuel. The standards are limited to vehicles under a certain weight, but those weight classes will be expanding in 2011 if current law (as of April 2006) holds. The Corporate Average Fuel Economy (CAFE) regulations in the United States, first enacted by Congress in 1975,[1] are federal regulations intended to improve the average fuel economy of cars and light trucks (trucks, vans and sport utility vehicles) sold in the US in the wake of the 1973 Arab... This article is about the road vehicle. ... A fourth-generation (2006-) Ford Explorer, the best-selling mid-size SUV in the United States. ... This article or section should be merged with 1973 energy crisis On October 16th, 1973, as part of the political strategy that included the Yom Kippur War, OPEC cut production of oil, and placed an embargo on shipments of crude oil to the West, with the Netherlands, specifically targetted. ... Fleet vehicles are groups of automobiles with a single owner, typically a company or corporation, rather than an individual or family. ... The model year of a product is a number used to describe approximately when a product was produced. ...

State regulations

The states are pre-empted by federal law, and are not allowed to make fuel efficiency standards. However, California has a special dispensation from the Clean Air Act to make emissions standards (which other states may adopt instead of the federal standards). The California Air Resources Board is implementing some legislation which limits greenhouse gas emissions. A legal dispute has emerged over whether this is effectually a fuel efficiency standard. California Air Resources Board (CARB) is the clean air agency of the state of California in the United States. ... Top: Increasing atmospheric levels as measured in the atmosphere and ice cores. ...

European standards

In the European Union advertising has to show CO2-emission and fuel consumption data in a clear way as described in the UK Statutory Instrument 2004 No 1661.^[14] The industry usually places this information in footnotes along with price and other details.

Energy considerations

Ideally, a car traveling at a constant velocity and constant grade in a vacuum with frictionless wheels could travel at any speed without consuming any energy beyond what is needed to get the car up to speed. With ideal regenerative braking, this energy could be completely recovered. In real-world conditions, energy is lost in a number of ways: Image File history File links This is a lossless scalable vector image. ... Regenerative braking is any technology which allows a vehicle to recapture and store part of the kinetic energy that would otherwise be lost to heat when 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. ... For other uses, see Revolutions per minute (disambiguation). ... An object moving through a gas or liquid experiences a force in direction opposite to its motion. ... An object moving through a gas or liquid experiences a force in direction opposite to its motion. ... Rolling friction is the friction that occurs when an object (e. ... Regenerative braking is any technology which allows a vehicle to recapture and store part of the kinetic energy that would otherwise be lost to heat when braking. ... â€œGearboxâ€ redirects here. ... A manual transmission (also known as a stick shift, straight drive, or standard transmission) is a type of transmission used in automotive applications. ... The automatic gear selector in a Ford Five Hundred vehicle An automatic transmission (commonly abbreviated as AT) is an automobile gearbox that can change gear ratios automatically as the vehicle moves, thus freeing the driver from having to shift gears manually (similar but larger devices are also used for railroad...

Fuel economy-boosting technologies (see also Low-energy vehicle)

Many aftermarket consumer products exist which are purported to increase fuel economy; many of these claims have been discredited. In the United States, the Environmental Protection Agency maintains a list of devices that have been tested by independent laboratories and makes the test results available to the public.^[16] A low-energy vehicle is any type of vehicle that uses less energy than a regular vehicle. ... Aluminum is a soft and lightweight metal with a dull silvery appearance, due to a thin layer of oxidation that forms quickly when it is exposed to air. ... Bundle of fiberglass Fiberglass (also called fibreglass and glass fibre) is material made from extremely fine fibers of glass. ... For other uses, see Plastic (disambiguation). ... HSLA steel (high strength low alloy steel) is a type of steel alloy that provides many benefits over regular steel alloys. ... Carbon fiber composite is a strong, light and very expensive material. ... For other uses, see Steel (disambiguation). ... General Name, symbol, number iron, Fe, 26 Chemical series transition metals Group, period, block 8, 4, d Appearance lustrous metallic with a grayish tinge Standard atomic weight 55. ... An object moving through a gas or liquid experiences a force in direction opposite to its motion. ... A lubricant (colloquially, lube) is a substance introduced between two moving surfaces to reduce the friction and wear between them. ... A typical container of motor oil, with some in a glass. ... ZF torque converter A cut-away model of a torque converter A torque converter is a modified form of a hydrodynamic fluid coupling, and like the fluid coupling, is used to transfer rotating power from a prime mover, such as an internal combustion engine or electric motor, to a rotating... See: Hybrid Vehicle ... The Honda Insight has been the most fuel efficient of the hybrids. ... Mild hybrids are essentially conventional vehicles with oversized starter motors, allowing the engine to be turned off whenever the car is coasting, braking, or stopped, yet restart quickly and cleanly. ... Regenerative braking is any technology which allows a vehicle to recapture and store part of the kinetic energy that would otherwise be lost to heat when braking. ... The stratified charge engine is a type of internal-combustion engine, similar in some ways to the Diesel cycle, but running on normal gasoline. ... This article does not cite any references or sources. ... Homogeneous Charge Compression Ignition, or HCCI, is a form of internal combustion in which well mixed fuel and oxidizer (typically air) are compressed to the point of auto-ignition. ... Variable valve timing, or VVT, is a generic term for an automobile piston engine technology. ... A supercharger (or blower ) is a gas compressor that forces more air into the combustion chamber(s) of an internal combustion engine than is achievable with ambient atmospheric pressure (as seen in a naturally-aspirated engine, see forced induction). ... A Twincharger system is a combination of both a turbocharger and a supercharger used together to produce positive manifold pressure (Boost) without the spool time associated with turbochargers (Lag). Twincharging permits high power outputs from small capacity engines by allowing engines of a small displacement to operate at a higher... An aftermarket fuel economy device is a device sold on the aftermarket that claims to improve the fuel economy and possibly the fuel emissions of a vehicle. ...

Fuel economy data reliability

The mandatory publication of the fuel consumption by the manufacturer led some to use dubious practices to reach better values in the past. If the test is on a test stand, the vehicle may detect open doors and adapt the engine control. Also when driven according to the test regime, the parameters may adapt automatically. Test laboratories use a "golden car" that is tested in each one to check that each lab produces the same set of measurements for a given drive cycle.^[17]

Correctly aligning the vehicle wheels is something that should be normal practice for the vehicle users. Tire pressures and lubricants have to be as recommended by the manufacturer (Higher tire pressures are required on a particular dyno type, but this is to compensate for the different rolling resistance of the dyno, not to produce an unrealistic load on the vehicle). Normally the quoted figures a manufacturer publishes have to be proved by the relevant authority witnessing vehicle/engine tests. A lot of Governments independently test emissions from customer vehicles, and as a final measure can force a recall of all of a particular type of vehicle if the customer vehicles do not fulfil manufacturers' claims within reasonable limits. The expense and bad publicity from such a recall means manufacturers should be very cautious not to publish unrealistic figures. The US Federal government retests 10-15% of models^[18]), to make sure that the manufacturer's tests are accurate.

Fuel economy maximizing behaviors

Governments, various environmentalist organizations, and companies like Toyota and Shell Oil Company have historically urged drivers to maintain adequate air pressure in tires and careful acceleration/deceleration habits. Fuel economy-maximizing behaviors describe techniques that drivers can use to optimize their automobile fuel economy. ... Bold textHello ... Toyota Motor Corporation ) is a multinational corporation headquartered in Japan, and currently is the worlds largest automaker. ... The Shell emblem known as the Pecten Shell Oil Company (SOC) is the Houston, Texas based wholly-owned subsidiary of Royal Dutch Shell. ... Firestone tire This article is about pneumatic tires. ...

Fuel economy as part of quality management regimes

Environmental management systems EMAS as well as good fleet management do include record keeping of the fuel consumption of the fleet. Quality management on top of this uses those figures to steer the measures acting on the fleets. You may check whether procurement, driving, and maintenance in total have contributed to changes in the fleets overall consumption.^[19] EMAS may refer to: Edinburgh Multiple Access System European Eco Management & Audit Scheme [1] This is a disambiguation page — a navigational aid which lists other pages that might otherwise share the same title. ...

References

^ dpiw.tas.gov.au^{[dead link]}
^ What is a carbon footprint - definition of carbon footprint | Time for change
^ sugre.info conversion tool
^ Chinese Fuel Economy Laws
^ ^a ^b ^c Comparison of Passenger Vehicle Fuel Economy and GHG Emission Standards Around the World at Pew Center on Global Climate Change
^ Shell Eco-marathon - Shell Eco-marathon Facts
^ European strategy targets car emissions
^ Vehicle test cycles
^ Myth: Cars are becoming more fuel efficient
^ Steady Speed Fuel Economy table 4-24
^ Frequently Asked Questions
^ How the EPA Tests and Rates Fuel Economy
^ Earthcars: EPA fuel economy ratings - what's coming in 2008
^ Statutory Instrument 2004 No 1661 at Vehicle Certification Agency
^ An Overview of Current Automatic, Manual and Continuously Variable Transmission Efficiencies and Their Projected Future Improvements
^ Gas Saving and Emission Reduction Devices Evaluation | Cars and Light Trucks | US EPA
^ http://rsc-aamg.org/Documents/Papers/ENSpeakerAbstracts.pdf Golden car description
^ http://www.fueleconomy.gov/feg/how_tested.shtml EPA
^ The EU sponsored RECODRIVE project is further developing this approach

Contents

Units of measure

Diminishing return

Fuel economy statistics

Physics background

U.S. government regulations

U.S. Energy Tax Act

EPA testing procedure through 2007

New 2008– EPA testing procedure

CAFE standards

State regulations

European standards

Energy considerations

Fuel economy-boosting technologies (see also Low-energy vehicle)

Fuel economy data reliability

Fuel economy maximizing behaviors

Fuel economy as part of quality management regimes

References

See also

External links

Contents

Units of measure GA_googleFillSlot("encyclopedia_square");

Diminishing return

Fuel economy statistics

Physics background

U.S. government regulations

U.S. Energy Tax Act

EPA testing procedure through 2007

New 2008– EPA testing procedure

CAFE standards

State regulations

European standards

Energy considerations

Fuel economy-boosting technologies (see also Low-energy vehicle)

Fuel economy data reliability

Fuel economy maximizing behaviors

Fuel economy as part of quality management regimes

References

See also

External links

Units of measure