There are no industry standard tests that evaluate
the performance or the compatibility of aftermarket
additives in finished oil. Aftermarket additives may
not be compatible with the finished oil's additive
package, which could lower the performance of the
finished oil. The aftermarket additive could fail to mix
with the finished oil. This could produce sludge in the
crankcase. Perkins discourages the use of
aftermarket additives in finished oils.
To achieve the best performance from a Perkins
engine, conform to the following guidelines:
• Select the correct oil, or a commercial oil that
meets the “EMA Recommended Guideline on
Diesel Engine Oil” or the recommended API
classification.
• See the appropriate “Lubricant Viscosities” table in
order to find the correct oil viscosity grade for your
engine.
• At the specified interval, service the engine. Use
new oil and install a new oil filter.
• Perform maintenance at the intervals that are
specified in the Operation and Maintenance
Manual, “Maintenance Interval Schedule”.
Oil analysis
Some engines may be equipped with an oil sampling
valve. If oil analysis is required the oil sampling valve
is used to obtain samples of the engine oil. The oil
analysis will complement the preventive maintenance
program.
The oil analysis is a diagnostic tool that is used to
determine oil performance and component wear
rates. Contamination can be identified and measured
through the use of the oil analysis. The oil analysis
includes the following tests:
• The Wear Rate Analysis monitors the wear of the
engine's metals. The amount of wear metal and
type of wear metal that is in the oil is analyzed.
The increase in the rate of engine wear metal in
the oil is as important as the quantity of engine
wear metal in the oil.
• Tests are conducted in order to detect
contamination of the oil by water, glycol or fuel.
• The Oil Condition Analysis determines the loss of
the oil's lubricating properties. An infrared analysis
is used to compare the properties of new oil to the
properties of the used oil sample. This analysis
allows technicians to determine the amount of
deterioration of the oil during use. This analysis
also allows technicians to verify the performance
of the oil according to the specification during the
entire oil change interval.
i02883936
Fluid
Recommendations
Fuel
Specifications
Fuel
Recommendations
To
get
the
correct
power
and
performance
from
the
engine,
use
a
fuel
of
the
correct
quality.
The
recommended
fuel
specification
for
Perkins
engines
is
shown
below:
• Cetane number
45 minimum
• Viscosity
2,0 to 4.5 cSt at 40 °C (104 °F)
• Density
0.835 to 0.855 Kg/liter
• Sulfur
0.2% of mass, maximum
• Distillation
85% at 350 °C (662 °F)
• Lubricity
460 micrometers maximum wear
scar on “ISO 12156 - 1”
Cetane number
This indicates the properties of ignition of the fuel.
Fuel with a low cetane number can be the root cause
of problems during cold start. This will affect
combustion.
Viscosity
This is the resistance to flow of a fluid. If this
resistance is outside the limits, the engine and the
engine starting performance in particular can be
affected.
Sulfur
High sulfur content of the fuel is not normally found in
Europe, North America or Australasia. This can
cause engine wear. When only high sulfur fuels are
available, it will be necessary that high alkaline
lubricating oil is used in the engine or that the
lubricating oil change interval is reduced.
Distillation
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