fuel consumption FORD KUGA 2011 1.G Workshop Manual

reprogrammed. However, if the engine hasn't been
run since the last programmed start, the fuel-fired
booster heater will not start up the second time so
as to prevent the battery from being discharged.
The length of time required to pre-heat the vehicle
is calculated in the control unit of the fuel-fired
booster heater and is based on two temperature
values:
• Ambient air temperature: this message is taken
from the GEM via the CAN bus.
• Coolant temperature: this is determined via an internal sensor in the fuel-fired booster heater.
The maximum heating time is 30 minutes at an
outside air temperature of -10 °C or lower. The
heating time decreases proportionally with
increasing ambient temperature until the ambient
temperature is between +15 °C and +20 °C. Then
the minimum heating time is 10 minutes. The
parking heater is deactivated at temperatures
above +20 °C.
The sequence for a programmed start of the
booster heater is as follows:
• Two minutes before the start of the maximum heating time the driver information
system/instrument cluster sends an activation
message to the fuel-fired booster heater via the
CAN bus.
• The fuel-fired booster heater calculates the required heating time and, if necessary, sends
a delay request on the CAN bus.
• At the calculated time, the fuel-fired booster heater starts up. The conditions for start-up are:
engine not running and amount of fuel in the
fuel tank is above 14% of maximum.
• When the coolant temperature reaches +30 °C, the control unit of the fuel-fired booster heater
sends a request to switch on the passenger
compartment blower.
• Eight minutes after the programmed switch-off time, the booster heater stops heating mode
and starts a run-on operation to clean the
system's spark plugs.
• Ten minutes after the switch-off time, the post-cleaning operation is complete. The
additional ten minutes run-on time provides
some leeway in case the driver is late arriving.
After a programmed start-up of the booster heater
it is switched off again after the heating time has
elapsed (or if the fuel level in the fuel tank drops
below 8%). The booster heater stops within 2 minutes of the engine starting. This leaves enough
time to check whether the switch-on conditions for
boost heat mode have been met, thus preventing
the booster heater from having to switch off and
switch back on again. The heater can be switched
off manually at any time from the menu.
Whilst the fuel-fired booster heater is in additional
heating mode and/or parking heating mode, the
instrument cluster receives a fuel consumption
signal; this is used to re-calculate the vehicle's
remaining range and fuel consumption data.
Emergency shutoff
In the event of an accident in which the airbags
are deployed, the control unit of the fuel-fired
booster heater receives a message on the CAN
bus from the restraints control module (RCM).
When this message is received, the booster heater
system switches off immediately.
The booster heater control module deactivates the
system and does not respond to further messages
on the CAN bus. The booster heater control module
needs to be activated with WDS.
Component Description
Electric Booster Heater
The electric booster heater consists of three
individual heating elements, which are incorporated
into a single housing. It is controlled by the generic
electronic module (GEM), taking into account the
following factors:
Detailed illustration of fuel-fired heater
G1066982en
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Auxiliary Climate Control
412-02-14
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Engine
Special Tool(s) / General EquipmentSocket, Spark Plug
303-499
ES21202
Compression Test Adapter
303-1056
E42936
Ford diagnostic equipment
Materials
Specification
Name
WSK-M2G349-A7
Adhesive - Loctite 243 1. Verify the customer concern by operating the
system
2. Visually inspect for obvious signs of mechanical or electrical damage.
3. If an obvious cause for an observed or reported concern is found, correct the cause (if possible)
before proceeding to the next step.
4. If the cause is not visually evident, verify the symptom and refer to the Symptom Chart.
Visual Inspection Chart
Electrical
Mechanical
– Fuse(s)
– Loose or corrodedconnector(s)
– Control module
– Damaged or worn switch(es)
– Coolant leaks
– Oil leaks
– Fuel system leaks
– Visibly damaged or
worn parts
– Loose or missing nuts or bolts
Action
Possible Sources
Symptom
• CHECK for evidence of oilleaks on components. Use an
ultraviolet (UV) leak tester if an
oil leak is not evident. INSTALL
new gaskets or components as
required.
• Oil leaks on components that
are either coated in oil them-
selves or on components local
to them.
• Loss of oil
• CHECK the coolant expansiontank for a film of oil on the
coolant surface. INSTALL a
new oil cooler or oil cooler
gasket.
• Internal or external leak at the
oil cooler.
• INSTALL a new crankshaftseal.
• Leak at the crankshaft seal.
• CHECK for cracks in oil-carrying components of the
basic engine by means of a UV
leak test. INSTALL new
components or seals as
necessary.
• Leaks from oil carrying
components or basic engine.
• DETERMINE the last type ofengine oil used and compare
with the specification. Change
the engine oil to the specifica-
tion.
• Use of the wrong type of engine
oil.
• Oil consumption
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Engine System - General Information
303-00- 2
DIAGNOSIS AND TESTING
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Action
Possible Sources
Symptom
• Check the cooling systemcomponents. Engine - 2.5L
Duratec-ST (VI5) -
REFER to: Engine Cooling
(303-03 Engine Cooling,
Diagnosis and Testing).
Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
REFER to: Engine Cooling
(303-03 Engine Cooling,
Diagnosis and Testing).
• Cooling system components.
• Coolant consumption
• INSTALL a new oil cooler.
• Oil cooler.
• CHECK the cylinder headgasket for damage. CHECK the
cylinder head for distortion.
• Damaged gaskets or warped
mating faces.
• DETERMINE the damagedengine component(s) and
install new component(s) as
necessary.
• Cracks or fractures in engine
components surrounded by
coolant, such as cylinder liners
and cylinder head combustion
chamber.
• CHECK the battery and cables.REFER to: Charging System
(414-00 Charging System -
General Information,
Diagnosis and Testing).
• Battery or cables.
• Engine will not crank
• CHECK the starting system.Engine - 2.5L Duratec-ST (VI5)
-
REFER to: Starting System
(303-06 Starting System -
2.5L Duratec (147kW/200PS)
- VI5, Diagnosis and Testing).
Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
• Starter motor or cables.
• CHECK the fuel level.
• Fuel tank is empty.
• Engine cranks but will not start
• Drain the water from the fuelsystem.
• Water in fuel (diesel engine
only).
• INSTALL a new fuel filter.Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
• Fuel filter blocked.
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Engine System - General Information
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Action
Possible Sources
Symptom
• CHECK the timing belt/timingchain and sprockets/pulleys.
INSTALL new components as
necessary. Engine - 2.5L
Duratec-ST (VI5) -
REFER to: Timing Belt (303-01
Engine - 2.5L Duratec
(147kW/200PS) - VI5,
Removal and Installation).
Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
• Broken or damaged timing
belt/timing chain or
pulley/sprocket.
• CHECK the fuel system.Engine - 2.5L Duratec-ST (VI5)
-
REFER to: Fuel Charging and
Controls (303-04 Fuel Char-
ging and Controls - 2.5L
Duratec (147kW/200PS) -
VI5, Diagnosis and Testing).
Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
• Fuel system.
• Very poor power output or fuel
consumption too high or engine
running rough.
• CHECK the intake air system.Engine - 2.5L Duratec-ST (VI5)
-
REFER to: Intake Air Distribu-
tion and Filtering (303-12
Intake Air Distribution and
Filtering - 2.5L Duratec
(147kW/200PS) - VI5,
Diagnosis and Testing).
Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
• Engine intake air system.
• CHECK the exhaust system.
• Exhaust system blocked.
• CHECK the engine manage-ment system. Engine - 2.5L
Duratec-ST (VI5) -
REFER to: Electronic Engine
Controls (303-14 Electronic
Engine Controls - 2.5L
Duratec (147kW/200PS) -
VI5, Diagnosis and Testing).
Engine - 2.0L Duratorq-TDCi
(DW) Diesel -
• Engine management system.
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Engine System - General Information
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Engine – System Operation and Component Description
System Operation
The variable camshaft timing occurs
electro-hydraulically and individually for both
camshafts.
The camshaft adjusters work according to the vane
cell principle and have an adjustment range of 52°
crank angle on the intake side and 47° crank angle
on the exhaust side. On starting the engine and
during idling, both camshafts are mechanically
locked in their starting positions. The exhaust
camshaft is in the early position and the intake
camshaft is in the late position. The camshaftadjuster on the exhaust side has a torsion spring
which compensates the camshaft drive torque.
This ensures that the assembly can return to the
starting position under all operating conditions and
when the engine is turned off.
Internal exhaust gas recirculation can be realized
through continuous adjustment of the timings. This
results in better fuel consumption and more
favorable combustion temperatures which produce
less pollutants. This means that pollutant level IV
can be adhered to with a 3-way catalytic converter.
The variable timings also make it possible to
optimize performance with wide open throttle.
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Action
Possible Sources
Symptom
• Carry out a full enginediagnosis using the guided
diagnostic menu in the Ford
diagnostic equipment.
• Fuel injection supply manifold
fuel pressure sensor.
• REFER to:Engine Ignition
(303-07 Engine Ignition - 2.5L
Duratec (147kW/200PS) -
VI5, Diagnosis and Testing).
• Engine ignition.
• Engine stumbling
• 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.
• Check the fuel system pres-sure.
• Low fuel system pressure.
• Carry out a full enginediagnosis using the guided
diagnostic menu in the Ford
diagnostic equipment.
• Fuel rail fuel pressure sensor.
• REFER to:Engine Ignition
(303-07 Engine Ignition - 2.5L
Duratec (147kW/200PS) -
VI5, Diagnosis and Testing).
• Engine ignition.
• Engine lacks power
• CHECK the braking system.REFER to: Brake System (206-
00 Brake System - General
Information, Diagnosis and
Testing).
• Brakes binding.
• 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 as necessary.
• Air cleaner element blocked.
• Check the fuel system pres-sure.
• Low fuel system pressure.
• INSPECT the fuel lines.INSTALL new components as
necessary. TEST the system
for normal operation.
• Kinked or restricted fuel lines.
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9
Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 9
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Action
Possible Sources
Symptom
• Carry out a full enginediagnosis using the guided
diagnostic menu in the Ford
diagnostic equipment.
• Fuel rail fuel pressure sensor.
• REMOVE and visuallyINSPECT the catalytic
converter for damage. INSTALL
a new catalytic converter as
necessary.
REFER to: Catalytic Converter
(309-00 Exhaust System -
2.5L Duratec (147kW/200PS)
- VI5, Removal and Installa-
tion).
• Catalytic converter blocked.
• INSTALL a new air cleanerelement.
• Air cleaner element blocked.
• Black smoke at cruising speeds
• Carry out a full enginediagnosis using the guided
diagnostic menu in the Ford
diagnostic equipment.
• ECT sensor.
• 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.
• REMOVE and visuallyINSPECT the catalytic
converter for damage. INSTALL
a new catalytic converter as
necessary.
REFER to: Catalytic Converter
(309-00 Exhaust System -
2.5L Duratec (147kW/200PS)
- VI5, Removal and Installa-
tion).
• Catalytic converter blocked.
• CARRY OUT a controlled oilconsumption test over 1000 km
(600 miles). CONFIRM that the
oil consumption is less than 0.1
litre per 1000 km (600 miles).
• Engine burning oil.
• Blue smoke
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Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 13
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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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19
Fuel Charging and Controls
— 2.5L Duratec (147kW/200PS) -
VI5
303-04A- 19
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Description
Item
CKP sensor
1
Tooth pitch
2
Flywheel ring gear
3
Reference mark
4
Voltage (sinusoidal-like signal curve)
5Description
Item
60-2 pulses per revolution of the
crankshaft
6
Tooth center
7
Reference mark
8
Tooth pitch
9
The acceleration of the flywheel at each power
stroke results in a change in the CKP signal.
During the power stroke, the combustion pressure
acting on the piston causes an acceleration of the
crankshaft and thus also of the flywheel. This is
apparent in the voltage curve from slightly higher
frequencies and amplitudes of the CKP signal.
Calculation of the ignition angle
Since propagation of the flame front in the air/fuel
mixture always takes the same amount of time, the
ignition of the air/fuel mixture has to take place
earlier or later depending on the engine speed.
The higher the speed, the earlier ignition must
occur. This ensures that maximum combustion
pressure is achieved immediately after Top Dead
Center and that maximum combustion pressure
acts on the piston.
When starting the engine, ignition timing is
determined by the CMP purely from the ignition
map and information on camshaft position (CKP
sensors) and crankshaft position (PCM sensor).
As soon as the engine is running, the following
data are used as a basis for calculating the ignition
angle:
• the engine speed,
• the engine load,
• the coolant temperature and
• the KS signal.
The ignition angle has a major impact on engine
operation. It affects
• engine performance
• exhaust emissions
• fuel consumption,
• combustion knock behavior and
• engine temperature.
The higher the engine load, i.e. the torque demand,
the richer the air/fuel mixture, the longer the
combustion period and the earlier the ignition. The PCM calculates engine load using the MAF
sensor signal, the throttle position and engine
speed. This is done using ignition maps that are
stored in the PCM. The ignition timing is adjusted
according to the operating condition of the engine,
for cold starting for example.
Ignition map
2
E96319
1
3
Description
Item
Engine load.
1
Engine speed
2
Ignition angle
3
The ignition maps were calculated in a series of
tests. Particular attention is paid to the emission
behaviour, power and fuel consumption of the
engine. The ignition map is stored in the data
memory of the PCM.
By adjusting the ignition timing it is also possible
to influence the engine speed to some extent
without having to change the throttle valve position.
This has advantages for idling stabilization, as the
engine speed and hence the engine torque respond
far more quickly to a change in the ignition timing
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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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