KRYOTEC ENGINE

24

OIL CONSUMPTION TEST AND DIAGNOSIS

The following diagnostic procedures are used to

determine the source of excessive internal oil

Consumption, these procedures and tests apply to

vehicles with 50,000 miles or less.

NOTE

Engine oil consumption may be greater than

normal during engine break-in. Repairs should be

delayed until vehicle has been driven at least

7,500 miles.

Severe service (high ambient temperature, short

trips, heavy loading, trailer towing, off-road, or law

enforcement use) may result in greater oil

consumption than normal.

Sustained high speed driving and high engine

RPM operation may result in increased oil

consumption.

Failure to comply with the recommended oil type

and viscosity rating, as outlined in the owner's

manual, may impact oil economy as well as fuel

economy.

Oil consumption may increase with vehicle age

and mileage due to normal engine wear.

NOTE

Because a few drops of external oil leakage per

mile can quickly account for the loss of one quart

of oil in a few hundred miles, ensure no external

engine oil leaks are present.

• Oil leakage is not the same as oil consumption

and all external leakage must be eliminated

before any action can be taken to verify and/or

correct oil consumption complaints.

• Verify that the engine has the correct oil level

dipstick and dipstick tube installed.

• Verify that the engine is not being run in an

overfilled condition. Check the oil level 15 minutes

after a hot shutdown with the vehicle parked on a

level surface. In no case should the level be

above MAX or the FULL mark on the dipstick.

OIL CONSUMPTION TEST

1. Check the oil level at least 15 minutes after a

hot shutdown.

2. If the oil level is low, top off with the proper

viscosity and API service level engine oil. Add one

bottle of MOPAR® 4-In-1 Leak Detection Dye into

the engine oil.

3. Tamper proof the oil pan drain plug, oil filter,

dipstick and oil fill cap.

4. Record the vehicle mileage.

5. Instruct the customer to drive the vehicle as

usual.

6. Ask the customer to return to the servicing

dealer after accumulating 800 km., Check the oil

level at least 15 minutes after a hot shut down. If

the oil level is half way between the "FULL" and

"ADD" mark continue with the next step.

7. Using a black light, re-check for any external

engine oil leaks, repair as necessary, if no

external engine oil leaks are present, continue

with oil consumption diagnosis.

OIL CONSUMPTION DIAGNOSIS

1. Perform a cylinder compression test and

cylinder leak down test using the standard leak

down gauge following manufacturers suggested

best practices.

2. If one or more cylinders have more than 15%

leak down further engine tear down and

inspection will be required.

3. If the compression is good it can be assumed

the valve guide seals or valve guides are at fault.

TOP 18 REASONS THAT MAY LEAD TO

ENGINE OIL CONSUMPTION

1.

Tapered and Out-of-Round Cylinders

The increased piston clearances permit the

pistons to rock in the worn cylinders. While tilted

momentarily, an abnormally large volume of oil is

permitted to enter on one side of the piston. The

rings, also tilted in the cylinder, permit oil to enter

on one side. Upon reversal of the piston on each

stroke, some of this oil is passed into the

combustion chamber.

2.

Distorted Cylinders

This may be caused by unequal heat distribution

or unequal tightening of cylinder head bolts. This

condition presents a surface which the rings may

not be able to follow completely. In this case,

there may be areas where the rings will not

remove all of the excess oil. When combustion

takes place, this oil will be burned and cause high

oil consumption.

3.

Improper operation of "Closed Crankcase

Ventilation (CCV)" system

The main purpose of the Closed Crankcase

Ventilation (CCV) is to recirculate blow-by gases

back from the crankcase area through the engine

to consume unburned hydrocarbons. The system

uses a filter, tubing, and rubber hoses that route

crankcase blow by gases to the intake manifold.

Vacuum within the engine intake manifold pulls

the blow by gases out of the crankcase into the

combustion chamber along with the regular intake

air and fuel mixture.

The CCV system can become clogged with

sludge and varnish deposits and trap blow by