Cylinder head FORD KUGA 2011 1.G User Guide

Cylinder Head(21 165 6)
Special Tool(s)303-361B
Compressor, Valve Spring
E62757
303-361B-06
Adapter for 303-361B
E62041
303-508
Pliers, Valve Stem Seal
21211
Disassembly
1.Special Tool(s): 303-361B, 303-361B-06
E66326
303-361B
303-361B-06
2.Special Tool(s): 303-508
E66114
303-508
Assembly
3.To install, reverse the assembly procedure.
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Engine— 2.5L Duratec (147kW/200PS) - VI5303-01-
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DISASSEMBLY AND ASSEMBLY OF SUBASSEMBLIES
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Action
Possible Sources
Symptom
• CHECK for signs of contamina-tion such as strange odors from
the fuel tank.
• If contaminated fuel is found, DRAIN the complete fuel
system. FLUSH the fuel system
through with clean gasoline.
REFER to: Fuel Tank Draining
(310-00 Fuel System -
General Information, General
Procedures).
INSTALL a new fuel filter.
• INSPECT the fuel injectors. CLEAN the fuel injectors or
INSTALL a new set of injectors
as required only after the
checks have been carried out.
REFER to: Fuel Injectors (303-
04 Fuel Charging and
Controls - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• INSTALL a new fuel rail.
REFER to: Fuel Rail(303-04
Fuel Charging and Controls -
2.5L Duratec (147kW/200PS)
- VI5, Removal and Installa-
tion).
• Incorrect or contaminated fuel.
• INSPECT for visible signs ofdamage or blockage. CLEAN,
REPAIR or INSTALL new parts
as necessary.
• Positive crankcase ventilation
(PCV) system.
• REMOVE the cylinder head.INSPECT the cylinder head,
pistons and cylinder bores for
signs of wear or damage.
REFER to: Cylinder Head (303-
01 Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Worn or damaged valve
guide(s), piston ring(s), cylinder
bore(s), cylinder head or
gasket.
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Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 14
DIAGNOSIS AND TESTING
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Action
Possible Sources
Symptom
• CHECK for signs of contamina-tion such as strange odors from
the fuel tank.
• If contaminated fuel is found, DRAIN the complete fuel
system. FLUSH the fuel system
through with clean gasoline.
REFER to: Fuel Tank Draining
(310-00 Fuel System -
General Information, General
Procedures).
INSTALL a new fuel filter.
• INSPECT the fuel injectors. CLEAN the fuel injectors or
INSTALL a new set of injectors
as required only after the
checks have been carried out.
REFER to: Fuel Injectors (303-
04 Fuel Charging and
Controls - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• INSTALL a new fuel rail.
REFER to: Fuel Rail(303-04
Fuel Charging and Controls -
2.5L Duratec (147kW/200PS)
- VI5, Removal and Installa-
tion).
• Incorrect or contaminated fuel.
• White smoke
• CARRY OUT a cooling systempressure test.
REFER to: Engine Cooling
(303-03 Engine Cooling,
Diagnosis and Testing).
• REMOVE the cylinder head. INSPECT the cylinder head,
cylinder head gasket and
cylinder bores for wear or
damage.
REFER to: Cylinder Head (303-
01 Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Coolant in the combustion
chamber.
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303-04A- 15
Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 15
DIAGNOSIS AND TESTING
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Action
Possible Sources
Symptom
• INSPECT the fuel injectors.CLEAN the fuel injectors or
INSTALL a new set of injectors
as required only after the
checks have been carried out.
REFER to: Fuel Injectors (303-
04 Fuel Charging and
Controls - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Fuel injectors.
• Carry out a full enginediagnosis using the guided
diagnostic menu in the Ford
diagnostic equipment.
• Fuel rail fuel pressure sensor.
• CHECK the engine compres-sion.
REFER to: Engine(303-00
Engine System - General
Information, Diagnosis and
Testing).
• Low cylinder compression.
• REMOVE the cylinder head.INSPECT the cylinder head,
valves, tappets and camshafts
for signs of wear or damage.
REFER to: Cylinder Head (303-
01 Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Worn or damaged valve(s),
tappet(s) or camshaft(s).
• REMOVE the cylinder head.INSPECT the cylinder head
gasket and cylinder bores for
wear or damage.
REFER to: Cylinder Head (303-
01 Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Damaged cylinder head gasket.
• CHECK the engine oil level.REFILL as necessary.
• Low engine oil level.
• Engine knock at idle
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Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 17
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Action
Possible Sources
Symptom
• CHECK the valve timing.REFER to: Timing Belt (303-01
Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Incorrect valve timing.
• REMOVE the cylinder head.INSPECT the cylinder head
and pistons for signs carbon
build up.
REFER to: Cylinder Head (303-
01 Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Excessive carbon build up.
• INSPECT the engine compon-ents.
• Worn or damaged oil pump.
• Worn or damaged timing chain
or sprocket.
• Major mechanical engine failure.
• Carry out a full enginediagnosis using the guided
diagnostic menu in the Ford
diagnostic equipment.
• KS.
• Engine knock during accelera-
tion
• INSPECT the fuel injectors.CLEAN the fuel injectors or
INSTALL a new set of injectors
as required only after the
checks have been carried out.
REFER to: Fuel Injectors (303-
04 Fuel Charging and
Controls - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
• Fuel injectors.
• REFER to:Engine(303-00
Engine System - General
Information, Diagnosis and
Testing).
• Major mechanical engine
failure.
• CHECK the braking system.REFER to: Brake System (206-
00 Brake System - General
Information, Diagnosis and
Testing).
• Brakes binding.
• Excessive fuel consumption
• ADVISE the customer aboutthe effects of overloading the
vehicle and wind resistance on
the fuel consumption.
• Vehicle overloaded, or
excessive wind resistance (roof
racks, towing etc).
• INSTALL a new air cleanerelement.
• Air cleaner element blocked.
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Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 19
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6
79108
123
4
5
6
79108
E97592
Description
Item
Exhaust manifold
1
PCV (positive crankcase ventilation)- hose
Comments:to cylinder head
2
Vacuum line - recirculated air valve
Comments:to intake manifold
3
Coolant return pipe
4Description
Item
Turbo boost pressure controller
5
Oil supply pipe - TC
6
Wastegate control valve
7
TC
Comments:Contains the recirculated air valve
8
Coolant supply pipe
9
Oil return pipe - TC
10
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Fuel Charging and Controls - Turbocharger
—
2.5L Duratec (147kW/200PS) - VI5
303-04B- 3
DESCRIPTION AND OPERATION
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Turbocharger – Overview
Turbocharger(s)
CAUTION: Do not switch off the engine
while it is running at high speed. If the
engine is switched off while it is running
at high speed, the turbocharger will
continue to run after the engine oil
pressure has already dropped to zero. This
will cause premature wear in the
turbocharger bearings.
A TC consists of an exhaust turbine located in the
exhaust gas flow, this turbine is connected to a
compressor by a shaft. The turbine is made to
rotate by the exhaust gas flow from the engine and
thus drives the compressor. The compressor
increases the pressure in the engine intake tract
so that a greater mass of air enters the cylinder
during the intake stroke.
The turbine housing of the TC is integrated into the
exhaust manifold. This construction offers
thermodynamic advantages compared with the
usual construction, the maximum exhaust
temperature is up to 1050°C.
The maximum boost pressure is 0.65 bar.
The exhaust manifold is secured to the exhaust
side of the cylinder head with 12 self-locking nuts.
The exhaust manifold gasket is a multi-layer steel
gasket and cannot be reused. In order to
compensate for the thermal expansion of the
exhaust manifold, the flange of the TC is provided
with two grooves.
The TC and the exhaust manifold are joined by a
hose clip. The hose clip must not be loosened or
removed. The TC and the exhaust manifold are
not available as separate replacement parts,
exchange is only possible as a complete unit.
The turbocharger heat shield is secured to the
exhaust manifold by four bolts. Two of the bolts
have spring washers underneath their heads.
During removal, make a note of the installation
location of the spring washers to refer to during
installation.
The recirculated air valve is built into the TC
housing and cannot be changed.
The Ford diagnostic unit can test the operation of
the wastegate control valve using actuator
diagnosis.
The boost pressure regulator is set in the factory.
Adjustments to the boost pressure regulator must never be attempted. A red colored seal is applied
to the adjustment nut of the operating rod, in order
to monitor the factory setting of the boost pressure.
The bearings of the TC are lubricated with engine
oil. The engine oil passes from the cylinder block
through the oil supply pipe to the TC. The oil is
returned to the oil pan through the oil return pipe,
The TC is cooled by the engine coolant circuit.
When installing hoses and lines, make certain that
their ends are free of oil residues and dirt.
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Fuel Charging and Controls - Turbocharger
—
2.5L Duratec (147kW/200PS) - VI5
303-04B- 4
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Crankshaft Position (CKP) sensor
E89994
The CKP sensor can be checked during starting
by measuring the resistance and/or voltage with
the oscilloscope.
The engine cannot work without the CKP signal.
A limp-home mode is therefore not possible. The
engine is switched off or the engine will not start
and a fault is stored in the error memory of the
PCM.
Camshaft adjuster solenoid valve
E96870
For work on the camshaft adjuster solenoids,
extreme cleanliness must be ensured as even
slight impurities can result in failure. The camshaft
adjustment solenoids for the intake and exhaust
camshafts differ only in terms of the position of the
fastening point by which they are fixed to the
cylinder head cover.
If a fault is detected in the camshaft adjustment
solenoids, the solenoids are no longer actuated.
Manifold absolute pressure and
temperature sensor
E96146
During installation of the MAPT sensor, correct
sealing must be ensured to ensure that no
infiltrated air can penetrate into the intake manifold
from outside.
If the MAP (manifold absolute pressure) sensor
fails, the PCM operates with a substitute value.
Accelerator pedal position (APP)
sensor
E74146
The APP (accelerator pedal position) sensor
comprises two separate sensors.
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than to a change in the throttle valve position. The
ignition timing also changes much more quickly.
To keep the ignition point as close as possible to
the knock limit and so optimize the efficiency of the
engine, two KS are installed in the engine, which
pick up the mechanical vibrations of the engine
and convert them into an electrical signal for the
PCM.
TIE42093
1
2
A
B1
2
Description
Item
Normal combustion
A
Knocking combustion
B
Pressure characteristic in cylinder
1
Output signal from KS
2
The term "knocking" is used to describe
combustion processes in which the flame front
propagation speed reaches the speed of sound.
This can happen towards the end of combustion
in particular, when unburnt air/fuel mixture on the
combustion chamber walls self-ignites due to the
increase in pressure following initiation of regular
combustion. The resulting pressure peaks damage
the pistons, cylinder head gasket and cylinder
head.
The cylinder in which combustion knock is
occurring is identified from the camshaft position (CMP sensors) and crankshaft position (CKP
sensor) information.
If the PCM detects combustion knock, the ignition
timing for the cylinder in question is gradually
retarded for a few crankshaft revolutions until
combustion knock stops. After that the ignition point
is slowly returned to the calculated value. This
facilitates individual cylinder ignition, which makes
it possible for the engine to operate at optimum
efficiency at the knock limit.
Engine fueling
Fuel is supplied by a non-return fuel system.
Fuel pressure and fuel delivery rate are regulated
by the PCM with the aid of the FPDM. The fuel
pump is supplied with a cycled voltage by the
FPDM. By cycling the voltage, the fuel pump output
can be steplessly adjusted. The fuel pressure can
be steplessly regulated between 3 and 5 bar.
Adjusting the fuel pump output has the following
advantages:
• The fuel pump's power consumption is reduced,
thereby reducing the load on the vehicle's power
supply system.
• The fuel pump's service life is increased.
• Fuel pump noise is reduced.
Fuel pressure regulator
The PCM calculates the required fuel pressure
based on the operating conditions. The PCM
transmits a corresponding PWM signal to the
FPDM. With the aid of this signal, the FPDM
actuates the pump by sending, in turn, a PWM
signal to the ground connection of the fuel pump.
The fuel pump can be steplessly regulated by
varying the pulse width of the PWM signal.
The PCM continuously monitors the fuel pressure
in the fuel rail by means of the fuel temperature/fuel
pressure sensor. If the pressure deviates from the
calculated value, the PCM adapts the PWM signal
to the FPDM accordingly. Thus the fuel pressure
levels out at approx. 4 bar.
For safety reasons, the PCM switches off fuel
delivery if the SRS (supplemental restraint system)
module detects a crash.
Regulation of injected fuel quantity
The electromagnetically controlled injectors dose
and atomize the fuel. The quantity of injected fuel
is regulated by the duration of actuation of the fuel
injectors. The fuel injectors are either closed (not
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Electronic Engine Controls— 2.5L Duratec (147kW/200PS) - VI5303-14-
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DESCRIPTION AND OPERATION
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