Common rail injection systems are becoming
increasingly common on today`s high-tech diesel engines. David Laidlaw,
Komatsu Australia`s product manager, articulated dump trucks and large
dozers, looks at the reasons why.
You
may have started hearing the term `common rail injection` system in
some recent television advertising for prestige diesel-engined cars.
Well, it`s also a term you`ll hear a lot more of in relation to earthmoving equipment.
Common
rail injection (CRI) systems are delivering substantial benefits in
terms of emissions and fuel consumption; they are seen by many as giving
diesel engines the potential to become much cleaner than petrol engines
in the future.
Komatsu,
and a number of other heavy equipment manufacturers, are starting to
introduce CRI system engines; in this article, I`ll look at how they
work and what they mean for equipment owners and users.
First of all, what are the advantages of common rail injection systems?
In summary, they are as follows:
-- Cleaner / lower emissions and higher outputs due to high-pressure injection at in all usage ranges
-- More efficient combustion
-- Improved fuel efficiency
-- Reduction in noise and emission due to injection rate control
-- Improved performance due to increased flexibility in injection timing setting
-- Faster and smoother acceleration
-- Independent control of injection pressure in response to rotation and load.
How a CRI system works
Key
CRI components are the supply pump, a `common rail`, an injector,
sensors to detect running condition of engine and a computer (ECM) to
control these devices.
A
CRI system injects fuel to the engine at much higher pressures than
conventional fuel injection systems. Typically, CRI injection pressures
are around 20,000 psi, compared with 4000-5000 psi for a conventional
system.
High-pressure fuel
from the supply pump is distributed to an injector mounted on each
cylinder by means of the common rail, with fuel injection quantity and
timing determined by controlling the injectors.
Compared with conventional injection system characteristics, a CRI system has the following features:
--
Injected fuel quantity and injection pressure are independent of each
other, and are definable for each and every engine operating condition,
allowing optimum air/fuel mix formation
-- At the
beginning of the injection process (during the ignition lag between the
start of injection and the start of combustion), injected fuel
quantities are very low.
Environmental benefits
Engine
manufacturers have developed CRI systems as a method of getting diesel
emission levels down to internationally specified standards.
You
will have noticed that most new machines now being released have
engines capable of meeting US and European `Tier II` emissions
standards. In 2005, even more stringent `Tier III` standards will be
introduced, and CRI engines will be essential to meet their
requirements.
The end
result is that equipment fitted with such engines produces substantially
lower emissions than earlier models -- even those just a few years old.
The other major advantage is in fuel consumption -- which goes directly to a machine owner`s bottom line.
Typically, CRI engines provide fuel savings of 10-20% compared with equivalent sized earlier-model machines.
It
has to be said that in Australia, CRI engines are not yet able to meet
their full potential in terms of emissions levels and fuel consumption
due to relatively high sulphur levels still allowed in Australian
diesel.
Our sulphur PPM
levels are significantly higher than those permitted in the US or
Europe, but the federal government is about to introduce pricing
incentives to encourage rapid take up of low sulphur fuel. High-sulphur
fuels will be phased out in the next few years.
However,
even with our high sulphur PPM levels, the high-pressure, clean-burning
CRI engines are substantially more fuel efficient and less polluting.
It`s just that the best is yet to come.
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