Fuel Economy Maximization
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Energy-efficient driving techniques are used by drivers who wish to reduce their fuel consumption, and thus maximize
fuel efficiency Fuel efficiency is a form of thermal efficiency, meaning the ratio of effort to result of a process that converts chemical potential energy contained in a carrier (fuel) into kinetic energy or work. Overall fuel efficiency may vary per device, wh ...
. The use of these techniques is called " hypermiling". Simple fuel-efficiency techniques can result in reduction in fuel consumption without resorting to radical fuel-saving techniques that can be unlawful and dangerous, such as tailgating larger vehicles.


Techniques


Maintenance

Underinflated tires wear out faster and lose energy to
rolling resistance Rolling resistance, sometimes called rolling friction or rolling drag, is the force resisting the motion when a body (such as a ball, tire, or wheel) rolls on a surface. It is mainly caused by non-elastic effects; that is, not all the energy nee ...
because of tire deformation. The loss for a car is approximately 1.0 percent for every drop in pressure of all four tires. Improper wheel alignment and high engine oil kinematic viscosity also reduce fuel efficiency.


Mass and improving aerodynamics

Drivers can increase fuel efficiency by minimizing transported mass, i.e. the number of people or the amount of cargo, tools, and equipment carried in the vehicle. Removing common unnecessary accessories such as roof racks, brush guards, wind deflectors (or "
spoiler Spoiler is a security vulnerability on modern computer central processing units that use speculative execution. It exploits side-effects of speculative execution to improve the efficiency of Rowhammer and other related memory and cache attacks. Ac ...
s", when designed for downforce and not enhanced flow separation), running boards, and push bars, as well as using narrower and lower profile tires will improve fuel efficiency by reducing weight,
aerodynamic drag In fluid dynamics, drag (sometimes called air resistance, a type of friction, or fluid resistance, another type of friction or fluid friction) is a force acting opposite to the relative motion of any object moving with respect to a surrounding fl ...
, and
rolling resistance Rolling resistance, sometimes called rolling friction or rolling drag, is the force resisting the motion when a body (such as a ball, tire, or wheel) rolls on a surface. It is mainly caused by non-elastic effects; that is, not all the energy nee ...
. Some cars also use a half size spare tire, for weight/cost/space saving purposes. On a typical vehicle, every extra 100 pounds increases fuel consumption by 2 percent. Removing roof racks (and accessories) can increase fuel efficiency by up to 20 percent.


Maintaining an efficient speed

Maintaining an efficient speed is an important factor in fuel efficiency. Optimal efficiency can be expected while cruising at a steady speed, at minimal throttle and with the transmission in the highest gear (see Choice of gear, below). The optimal speed varies with the type of vehicle, although it is usually reported to be between 35 mph (56 km/h) and 50 mph (80 km/h). For instance, a 2004 Chevrolet Impala had an optimum at 42 mph (70 km/h), and was within 15 percent of that from 29 to 57 mph (45 to 95 km/h). At higher speeds, wind resistance plays an increasing role in reducing energy efficiency. Hybrids typically get their best fuel efficiency below this model-dependent threshold speed. The car will automatically switch between either battery powered mode or engine power with battery recharge.
Electric car An electric car, battery electric car, or all-electric car is an automobile that is propelled by one or more electric motors, using only energy stored in batteries. Compared to internal combustion engine (ICE) vehicles, electric cars are quie ...
s, such as the
Tesla Model S The Tesla Model S is a Battery electric vehicle, battery-powered liftback car serving as the flagship model of Tesla, Inc. The Model S features a dual-motor, all-wheel drive layout, although earlier versions of the Model S featured a rear-moto ...
, may go up to at 39 km/h (24 mph).Andersen, Ina. "http://www.tu.no/industri/2015/08/26/norske-bjorn-kjorte-728-kilometer-i-en-tesla--pa-en-lading Norske Bjørn kjørte 728 kilometer i en Tesla – på én lading]" ''
Teknisk Ukeblad ''Teknisk Ukeblad'' (''TU'', en, Technical Weekly Magazine) is a Norwegian engineering magazine. The magazine has its headquarters in Oslo, Norway. History and profile ''TU'' has appeared weekly since 13 April 1883 and was published by Ingeniørf ...
'', 26 August 2015
In English
Road capacity affects speed and therefore fuel efficiency as well. Studies have shown speeds just above allow greatest throughput when roads are congested. Individual drivers can improve their fuel efficiency and that of others by avoiding roads and times where traffic slows to below . Communities can improve fuel efficiency by adopting
speed limit Speed limits on road traffic, as used in most countries, set the legal maximum speed at which vehicles may travel on a given stretch of road. Speed limits are generally indicated on a traffic sign reflecting the maximum permitted speed - expres ...
s or policies to prevent or discourage drivers from entering traffic that is approaching the point where speeds are slowed below . '' Congestion pricing'' is based on this principle; it raises the price of road access at times of higher usage, to prevent cars from entering traffic and lowering speeds below efficient levels. Research has shown that mandated speed limits can be modified to improve energy efficiency anywhere from 2 to 18 percent, depending on compliance with lower speed limits.


Choice of gear (manual transmissions)

Engine efficiency varies with speed and torque. For driving at a steady speed one cannot choose any
operating point {{unreferenced, date=April 2013 The operating point is a specific point within the operation characteristic of a technical device. This point will be engaged because of the properties of the system and the outside influences and parameters. In el ...
for the engine—rather there is a specific amount of power needed to maintain the chosen speed. A manual transmission lets the driver choose between several points along the powerband. For a
turbo diesel The term turbo-diesel, also written as turbodiesel and turbo diesel, refers to any diesel engine equipped with a turbocharger. As with other engine types, turbocharging a diesel engine can significantly increase its efficiency and power output, ...
too low a gear will move the engine into a high-rpm, low-torque region in which the efficiency drops off rapidly, and thus best efficiency is achieved near the higher gear.http://s3.amazonaws.com/mark_tranchant/images/tdi-bsfc.png Typical brake-specific fuel consumption map for a small turbo-diesel. In a gasoline engine, efficiency typically drops off more rapidly than in a diesel because of throttling losses. Because cruising at an efficient speed uses much less than the maximum power of the engine, the optimum operating point for cruising at low power is typically at very low engine speed, around or below 1000 rpm. This explains the usefulness of very high "overdrive" gears for highway cruising. For instance, a small car might need only to cruise at . It is likely to be geared for 2500 rpm or so at that speed, yet for maximum efficiency the engine should be running at about 1000 rpm to generate that power as efficiently as possible for that engine (although the actual figures will vary by engine and vehicle).


Acceleration and deceleration (braking)

Fuel efficiency varies with the vehicle. Fuel efficiency during acceleration generally improves as RPM increases until a point somewhere near peak torque ( brake specific fuel consumption). However, accelerating to a greater than necessary speed without paying attention to what is ahead may require braking and then after that, additional acceleration. One study from 2001 recommended accelerating briskly, but smoothly before shifting in manual cars. Generally, fuel efficiency 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. The need to brake is sometimes caused by unpredictable events. At higher speeds, there is less time to allow vehicles to slow down by coasting. Kinetic energy is higher, so more energy is lost in braking. At medium speeds, the driver has more time to choose whether to accelerate, coast or decelerate in order to maximize overall fuel efficiency. While approaching a red signal, drivers may choose to "time a traffic light" by easing off the throttle before the signal. By allowing their vehicle to slow down early and coast, they will give time for the light to turn green before they arrive, preventing energy loss from having to stop. Due to stop and go traffic, driving during rush hours is fuel inefficient and produces more toxic fumes. Conventional brakes dissipate
kinetic energy In physics, the kinetic energy of an object is the energy that it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity. Having gained this energy during its accele ...
as heat, which is irrecoverable. 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.


Coasting or gliding

An alternative to acceleration or braking is
coast The coast, also known as the coastline or seashore, is defined as the area where land meets the ocean, or as a line that forms the boundary between the land and the coastline. The Earth has around of coastline. Coasts are important zones in n ...
ing, i.e. gliding along without
propulsion Propulsion is the generation of force by any combination of pushing or pulling to modify the translational motion of an object, which is typically a rigid body (or an articulated rigid body) but may also concern a fluid. The term is derived from ...
. Coasting dissipates stored energy (
kinetic energy In physics, the kinetic energy of an object is the energy that it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity. Having gained this energy during its accele ...
and gravitational potential energy) against
aerodynamic drag In fluid dynamics, drag (sometimes called air resistance, a type of friction, or fluid resistance, another type of friction or fluid friction) is a force acting opposite to the relative motion of any object moving with respect to a surrounding fl ...
and
rolling resistance Rolling resistance, sometimes called rolling friction or rolling drag, is the force resisting the motion when a body (such as a ball, tire, or wheel) rolls on a surface. It is mainly caused by non-elastic effects; that is, not all the energy nee ...
which must always be overcome by the vehicle during travel. If coasting uphill, stored energy is also expended by grade resistance, but this energy is not dissipated since it becomes stored as gravitational potential energy which might be used later on. Using stored energy (via coasting) for these purposes is more efficient than dissipating it in friction braking. When coasting with the engine running and manual transmission in neutral, or clutch depressed, there will still be some fuel consumption due to the engine needing to maintain idle engine speed. Coasting with a vehicle not in gear is prohibited by law in most U.S. states, mostly if on downhill. An example is Maine Revised Statutes Title 29-A, Chapter 19, §2064 "An operator, when traveling on a downgrade, may not coast with the gears of the vehicle in neutral". Some regulations differ between commercial vehicles not to disengage the clutch for a downgrade, and passenger vehicles to set the transmission to neutral. These regulations point on how drivers operate a vehicle. Not using the engine on longer, precipitous downgrade roads, or excessively using the brake might cause a failure due to overheating brakes. Turning the engine off instead of idling does save fuel. Traffic lights are predictable, and it is often possible to anticipate when a light will turn green. A support is the
Start-stop system A vehicle start-stop system or stop-start system automatically shuts down and restarts the internal combustion engine to reduce the amount of time the engine spends idling, thereby reducing fuel consumption and emissions. This is most advanta ...
, turning the engine off and on automatically during a stop. Some traffic lights have timers on them, which assist the driver in using this tactic. 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.


Anticipating traffic

A driver may improve their fuel efficiency by anticipating the movement of other vehicles or sudden changes to the situation the driver is currently in. For example, a driver who stops quickly, or turns without signaling, reduces the options another driver has for maximizing their performance. By always giving road users as much information about their intentions as possible, a driver can help other road users reduce their fuel usage (as well as increase their safety). Similarly, anticipation of road features such as traffic lights can reduce the need for excessive braking and acceleration. Drivers should also anticipate the behaviour of pedestrians or animals in the vicinity, so they can react to a developing situation involving them appropriately.


Minimizing ancillary losses

Using air conditioning requires the generation of up to of extra power to maintain a given speed. A/C systems cycle on and off, or vary their output, as required by the occupants so they rarely run at full power continuously. Switching off the A/C and rolling down the windows may prevent this loss of energy, though it will increase drag, so that cost savings may be less than is generally anticipated. Using the passenger heating system slows the rise to
operating temperature An operating temperature is the allowable temperature range of the local ambient environment at which an electrical or mechanical device operates. The device will operate effectively within a specified temperature range which varies based on the de ...
for the engine. Either the choke in a carburetor-equipped car (1970's or earlier) or the fuel injection computer in modern vehicles will add more fuel to the fuel-air mixture until normal operating temperature is reached, decreasing fuel efficiency.


Fuel type

Using high octane gasoline fuel in a vehicle that does not need it is generally considered an unnecessary expense, although Toyota ''has'' measured slight differences in efficiency due to octane number even when knock is not an issue. All vehicles in the United States built since 1996 are equipped with OBD-II on-board diagnostics and most models will have knock sensors that will automatically adjust the timing if and when pinging is detected, so low octane fuel can be used in an engine designed for high octane, with some reduction in efficiency and performance. If the engine is designed for high octane then higher octane fuel will result in higher efficiency and performance under certain load and mixture conditions. The energy released during combustion of hydrocarbon fuel increases as the molecule chain length decreases, so gasoline fuels with higher ratios of the shorter chain alkanes such as heptane, hexane, pentane, etc. can be used under certain load conditions and combustion chamber geometries to increase engine output which can lead to lower fuel consumption, although these fuels will be more susceptible to predetonation ping in high compression ratio engines. Gasoline direct injection compression ignition engines make more efficient use of the higher combustion energy short chain hydrocarbons as the fuel is injected directly into the combustion chamber during high compression which auto-ignites the fuel, minimizing the amount of time that the fuel is available in the combustion chamber for predetonation.


Pulse and glide

''Pulse and glide'' (PnG) or ''burn and coast'' driving strategy consists of rapid acceleration to a given speed (the "pulse" or "burn"), followed by a period of coasting or gliding down to a lower speed, at which point the burn-coast sequence is repeated.Jeongwoo Lee. ''Vehicle Inertia Impact on Fuel Consumption of Conventional and Hybrid Electric Vehicles Using Acceleration and Coast Driving Strategy''. Ph.D thesis. Virginia Polytechnic Institute, September 4, 2009.
/ref>https://doi.org/10.1177/0954407011420214 . Strategies to minimize the fuel consumption of passenger cars during car-following scenarios. Journal of Automobile Engineering, vol.226, Issue 3, pp.419-429, 2012. Coasting is most efficient when the engine is not running, although some gains can be realized with the engine on (to maintain power to brakes, steering and ancillaries) and the vehicle in neutral. Most modern petrol vehicles cut off the fuel supply completely when coasting (over-running) in gear, although the moving engine adds considerable frictional drag and speed is lost more quickly than with the engine declutched from the drivetrain. The pulse-and-glide strategy is proven to be an efficient control design both in car-following and free-driving scenarios,S. Eben Li, X. Hu, K. Li, C. Ahn
Mechanism of vehicular periodic operation for optimal fuel economy in free-driving scenarios. IET Intelligent Transport Systems, vol.9, Issue 3, pp.306-313, 2014.
with 20% fuel saving. In the PnG strategy, the control of the engine and the transmission determines the fuel-saving performance, and it is obtained by solving an optimal control problem (OCP). Due to a discrete gear ratio, strong nonlinear engine fuel characteristics, and different dynamics in the pulse/glide mode, the OCP is a switching nonlinear mixed-integer problem.S. Xu, S. Eben Li, X. Zhang, B. Cheng, H. Peng
Fuel-Optimal Cruising Strategy for Road Vehicles With Step-Gear Mechanical Transmission. IEEE Transactions on Intelligent Transportation Systems, vol.99, pp.1-12, 2015.
S. Eben Li, Q. Guo, L. Xin, B. Cheng, K. Li
Fuel-Saving Servo-Loop Control for an Adaptive Cruise Control System of Road Vehicles With Step-Gear Transmission. IEEE Transactions on Vehicular Technology, vol.66, Issue 3, pp.2033-2043, 2017.
Some hybrid vehicles are well-suited to performing pulse and glide.S. Xu, S. Eben Li, H. Peng, B. Cheng, X. Zhang, Z. Pan
Fuel-Saving Cruising Strategies for Parallel HEVs. IEEE Transactions on Vehicular Technology, vol.65, Issue 6, pp.4676-4686, 2015.
In a series-parallel hybrid (see
hybrid vehicle drivetrain Hybrid vehicle drivetrains transmit power to the driving wheels for hybrid vehicles. A hybrid vehicle has multiple forms of motive power. Hybrids come in many configurations. For example, a hybrid may receive its energy by burning gasoline, but s ...
), the
internal combustion engine An internal combustion engine (ICE or IC engine) is a heat engine in which the combustion of a fuel occurs with an oxidizer (usually air) in a combustion chamber that is an integral part of the working fluid flow circuit. In an internal combus ...
and charging system can be shut off for the glide by simply manipulating the accelerator. However based on simulation, more gains in economy are obtained in non-hybrid vehicles. This control strategy can also be used in vehicle platoon (The platooning of automated vehicles has the potential of significantly enhancing the fuel efficiency of road transportation), and this control method performs much better than conventional linear quadratic controllers.S. Eben Li, R. Li, J. Wang, X. Hu, B. Cheng, K. Li
Stabilizing Periodic Control of Automated Vehicle Platoon With Minimized Fuel Consumption. IEEE Transactions on Transportation Electrification, vol.3, Issue 1, pp.259-271, 2016.
Pulse and glide ratio of combustion engine in hybrid vehicles points on it by gear ratio in its
consumption map A consumption map or efficiency map shows the brake-specific fuel consumption in g per kWh over mean effective pressure per rotational speed of an internal combustion engine. The x-axis shows the rotational speed range. The y-axis represents the l ...
, battery capacity, battery level, load, depending on acceleration, wind drag and its factor of speed.


Causes of pulse-and-glide energy saving

Much of the time, automobile engines operate at only a fraction of their maximal efficiency, resulting in lower fuel efficiency (or what is the same thing, higher specific fuel consumption (SFC)). Charts that show the SFC for every feasible combination of torque (or Brake Mean Effective Pressure) and RPM are called Brake specific fuel consumption maps. Using such a map, one can find the efficiency of the engine at various combinations of
rpm Revolutions per minute (abbreviated rpm, RPM, rev/min, r/min, or with the notation min−1) is a unit of rotational speed or rotational frequency for rotating machines. Standards ISO 80000-3:2019 defines a unit of rotation as the dimensionl ...
,
torque In physics and mechanics, torque is the rotational equivalent of linear force. It is also referred to as the moment of force (also abbreviated to moment). It represents the capability of a force to produce change in the rotational motion of th ...
, etc. During the pulse (acceleration) phase of pulse and glide, the efficiency is near maximal due to the high
torque In physics and mechanics, torque is the rotational equivalent of linear force. It is also referred to as the moment of force (also abbreviated to moment). It represents the capability of a force to produce change in the rotational motion of th ...
and much of this energy is stored as
kinetic energy In physics, the kinetic energy of an object is the energy that it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity. Having gained this energy during its accele ...
of the moving vehicle. This efficiently-obtained kinetic energy is then used in the glide phase to overcome rolling resistance and aerodynamic drag. In other words, going between periods of very efficient acceleration and gliding gives an overall efficiency that is usually significantly higher than just cruising at a constant speed. Computer calculations have predicted that in rare cases (at low speeds where the torque required for cruising at steady speed is low) it's possible to double (or even triple) fuel economy. More realistic simulations that account for other traffic suggest improvements of 20 percent are more likely. In other words, in the real world one is unlikely to see fuel efficiency double or triple. Such a failure is due to signals, stop signs, and considerations for other traffic; all of these factors interfering with the pulse and glide technique. But improvements in fuel economy of 20 percent or so are still feasible.Chuck Squatriglia, "Hypermilers push the limits of fuel efficiency" in Wired (Internet magazine) 6 October 200

/ref>


Drafting or Slipstreaming

''Drafting or Slipstreaming'' occurs where a smaller vehicle drives (or coasts) close behind a vehicle ahead of it so that it is shielded from wind. Aside from being illegal in many jurisdictions it is often dangerous. Scale-model wind tunnel and real-world tests of a car ten feet behind a semi-truck showed a reduction of over 90 percent for the wind force (aerodynamic drag). The gain in efficiency is reported to be 20–40 percent.Dennis Gaffney
This Guy Can Get 59 MPG in a Plain Old Accord. Beat That, Punk.
'' Mother Jones (magazine), Mother Jones'', January/February 2007. Retrieved 2007-05-11.


Energy losses

Most of the fuel energy loss in cars occurs in the
thermodynamic Thermodynamics is a branch of physics that deals with heat, work, and temperature, and their relation to energy, entropy, and the physical properties of matter and radiation. The behavior of these quantities is governed by the four laws of ther ...
losses of the engine. The next biggest loss is from idling, or when the engine is in ''standby'', which explains the large gains available from shutting off the engine. 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 percent of the fuel's energy is dissipated in braking; however, by dividing this figure by the energy that actually reaches the axle (13 percent), one can find that 46 percent 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.


Safety

There is sometimes a tradeoff between saving fuel and preventing crashes. In the US, the speed at which fuel efficiency is maximized often lies below the speed limit, typically ; however, traffic flow is often faster than this. The speed differential between cars raises the risk of collision. Drafting increases risk of collision when there is a separation of fewer than three seconds from the preceding vehicle. Coasting is another technique for increasing fuel efficiency. Shifting gears and/or restarting the engine increase the time required for an avoidance maneuver that involves acceleration. Therefore, some believe the reduction of control associated with coasting is an unacceptable risk. However it is also likely that an operator skilled in maximising efficiency through anticipation of other road users and traffic signals will be more aware of their surroundings and consequently safer. Efficient drivers minimise their use of brakes and tend to leave larger gaps in front of them. Should an unforeseen event occur such drivers will usually have more braking force available than a driver that brakes heavily through habit. The main issue with safety and hypermiling is the lack of temperature in the brake system. This is extremely relevant in older vehicles in the winter. Disc brake systems gain efficiency with higher temps. Emergency braking with freezing brakes at highway speeds results in a number of issues from increased stopping distance to pulling to one side.


See also

*
Alternative fuel vehicle An alternative fuel vehicle is a motor vehicle that runs on alternative fuel rather than traditional petroleum fuels (petrol or diesel fuel, petrodiesel). The term also refers to any technology (e.g. electric car, hybrid electric vehicles, Solar ...
* Carpool *
Fuel economy in automobiles The fuel economy of an automobile relates distance traveled by a vehicle and the amount of fuel consumed. Consumption can be expressed in terms of volume of fuel to travel a distance, or the distance traveled per unit volume of fuel consumed. S ...
*
Fuel efficiency Fuel efficiency is a form of thermal efficiency, meaning the ratio of effort to result of a process that converts chemical potential energy contained in a carrier (fuel) into kinetic energy or work. Overall fuel efficiency may vary per device, wh ...
* Fuel saving device *
Plug-in hybrid A plug-in hybrid electric vehicle (PHEV) is a hybrid electric vehicle whose battery pack can be recharged by plugging a charging cable into an external electric power source, in addition to internally by its on-board internal combustion engin ...


References

* Jansen. Philip "Driver Influence on the Fuel Consumption of a Hybrid Electric Vehicle: Research on the Fuel Economy Benefits of the Burn and Coast Driving Technique" (Master of Science Thesis) Delft University of Technology, Netherlands. July 26, 201
PDF


External links

{{wiktionary, hypermiling
Natural Resources Canada

FuelEconomy.gov

Lowest to Highest MPG Cars

Hypermiling / Fuel saving tips
Driving techniques Energy conservation Transport economics