What this all means, and it is
very well detailed, is that only one dollar out of five actually goes to moving
the car. Considering that the car also
weighs around ten times the weight of the load, one could just as easily say
that a mere ten cents out of the original five dollars actually moves the
individual. Getting rid of this wastage is difficult with the present protocols
but the advent of electrics will slash deep into the cost structure.
I expect to see a small vehicle
pull up to my doorstep to take me directly to my destination inside of this
decade. These vehicles will be an
utility and need merely to be requested for the best available option to appear. The target weight will be well under a
thousand pounds and it will be completely computer operated. Because all available vehicles are on call
24/7 there will always be a flood of self aware robotic cars nearby. Cars will no longer by hanger queens although
no owner will be able to dump material in the car as a defacto storage bin.
In the meantime there are and
will continue to be plenty of internal combustion systems in place and cutting
friction in half is valuable.
One-third of car fuel consumption is due to friction loss
by Staff Writers
In 2009, a total of 208,000 million litres of fuel was burned in cars
worldwide just to overcome friction.
No less than one third of a car's fuel consumption is spent in overcoming
friction, and this friction loss has a direct impact on both fuel consumption
and emissions.
However, new technology can reduce friction by anything from 10% to 80%
in various components of a car, according to a joint study by VTT Technical
Research Centre of Finland
and Argonne National Laboratory (ANL) in USA . It should thus be possible to
reduce car's fuel consumption and emissions by 18% within the next 5 to 10
years and up to 61% within 15 to 25 years.
There are 612 million cars in the world today. The average car clocks
up about 13,000 km per year, and in the meantime burns 340 litres of fuel just
to overcome friction, costing the driver EUR 510 per year.
Of the energy output of fuel in a car engine, 33% is spent in exhaust,
29% in cooling and 38% in mechanical energy, of which friction losses account
for 33% and air resistance for 5%. By comparison, an electric car has only half
the friction loss of that of a car with a conventional internal combustion
engine.
Annual friction loss in an average car worldwide amounts to 11,860 MJ:
of this, 35% is spent in overcoming rolling resistance in the wheels, 35% in
the engine itself, 15% in the gearbox and 15% in braking. With current
technology, only 21.5% of the energy output of the fuel is used to actually
move the car; the rest is wasted.
Worldwide savings with new technology
A recent VTT and ANL study shows that friction in cars can be reduced with new technologies such as new surface coatings, surface textures, lubricant additives, low-viscosity lubricants, ionic liquids and low-friction tyres inflated to pressures higher than normal.
Friction can be reduced by 10% to 50% using new surface technologies
such as diamond-like carbon materials and nanocomposites. Laser texturing can
be employed to etch a microtopography on the surface of the material to guide
the lubricant flow and internal pressures so as to reduce friction by 25% to
50% and fuel consumption by 4%. Ionic liquids are made up of electrically
charged molecules that repel one another, enabling a further 25% to 50%
reduction in friction.
In 2009, a total of 208,000 million litres of fuel was burned in cars
worldwide just to overcome friction; this amounts to 7.3 million TJ
(terajoules) of energy.
Theoretically, introducing the best current technological solutions in
all of the world's cars could save EUR 348,000 million per year; the best
scientifically proven solutions known today could save EUR 576,000 million per
year, and the best solutions to emerge over the next 10 years could save EUR
659,000 million per year.
Realistically, though, over a period of 5 to 10 years of enhanced
action and product development measures could be expected to enable savings of
117,000 million litres in fuel consumption per year, representing an 18%
reduction from the present level. Furthermore, in realistic terms, carbon
dioxide emissions could be expected to decrease by 290 million tonnes per year
and financial savings to amount to EUR 174,000 million per year in the short
term.
Drivers can influence fuel consumption
A driver can significantly influence the fuel consumption of his or her car. A reduction of 10% in driving speed, e.g. from 110 km/h to 100 km/h, translates into a 16% saving in fuel consumption. Slower speeds also allow for higher tyre pressures; an increase from 2 bar to 2.5 bar can translate into a 3% saving in fuel consumption.
VTT and ANL calculated friction loss in cars worldwide using a method
that incorporated total crude oil consumption and fuel consumption of cars, the
energy consumption of an average car, and the energy that an average car uses
to overcome friction.
Friction losses were accounted for in the subsystems of a car - tyres,
engine, gearbox, brakes - and also in its components, such as gears, bearings,
gaskets and pistons. The friction losses caused at friction points and
lubrication points were also considered.
The study was conducted at the Metal Products and Mechanical
Engineering strategic competence cluster in the DEMAPP programme, co-ordinated
by FIMECC Oy, where practical solutions for minimising friction loss are also
being developed. The study was funded by the Finnish Funding Agency for
Technology and Innovation (Tekes), VTT and FIMECC Oy, and the Argonne National
Laboratory, Department of Energy (Chicago ,
USA ).
The recent research report on friction loss in cars and the potential
for reducing energy consumption and carbon dioxide emissions was published in
the Tribology International scientific journal. The article can be
accessed here.
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