2007 MITSUBISHI LANCER EVOLUTION fuel

INTAKE AND EXHAUST -Intake ManifoldINTAKE AND EXHAUST -Intake Manifold15-17
28 2325
26
2719
20 2221
23
24
30
23
29
20±2 N·m
20±2 N·m5.0±1.0 N·m
20±2 N·m
9.0±1.0 N·m
22±4 N·m 20±2 N·m 36±6 N·m
9.0±1.0 N·m
31±3 N·m 9.0±1.0 N·m 11±1 N·m
19. Vacuum hose
20. Fuel pressure solenoid valve
21. PCV hose
DAlternator (Refer to GROUP 16.)
22. Vacuum hose and Vacuum pipe
assembly connecting bolt
23. Vacuum tank, EGR solenoid valve,
Secondary air control solenoid
valve, Vacuum hose assembly24. Intake manifold stay
25. EGR valve
26. EGR gasket
27. Alternator brace stay
28. Intake manifold
29. Intake manifold gasket
30. Purge control solenoid valve
assembly
REMOVAL SERVICE POINTS
AA"DELIVERY PIPE, INJECTOR AND FUEL
PRESSURE REGULATOR ASSEMBLY REMOVAL
The delivery pipe must be removed with the injector and
fuel pressure regulator attached.
Caution
Take care not to drop delivery pipe, injector, or fuel
pressure regulator assembly when removing those parts.

INTAKE AND EXHAUST -Intake Manifold15-18
INSTALLATION SERVICE POINTS
"AAFUEL HIGH-PRESSURE HOSE CONNECTION
1. Apply a drop of new engine oil to the O-ring.
Caution
Be sure not to let engine oil enter the delivery pipe.
2. While turning the injector, high-pressure fuel hose and
fuel pressure regulator to the right and left, install the
delivery pipe, while being careful not to damage the O-ring.
After installing, check that the hose turns smoothly.
3. If it does not turn smoothly, the O-ring may be trapped,
remove the injector, high-pressure fuel hose or fuel
pressure regulator and then re-insert it into the delivery
pipe and check once again.
4. Tighten the high-pressure fuel hose to the specified torque.
Tightening torque: 5.0±1.0 N⋅m
INSPECTION
Check the following points; replace the part if a problem is
found.
INTAKE MANIFOLD CHECK
1. Check for damage or cracking of any part.
2. Check for obstruction of the negative pressure (vacuum)
outlet port, and for obstruction of the water passage or
gas passage.
3. Using a straight edge and thickness gauge, check for
distortion of the cylinder head installation surface.
Standard value: 0.15 mm
Limit: 0.20 mm

ENGINE ELECTRICAL -Charging System16-11
1
234
5
8.8±1.0 N·m 22±4 N·m
23±3 N·m11±1 N·m
13±1 N·m
8
(Engine oil)
679
10
20±2 N·m 36±6 N·m
1211
44±10 N·m
14±3 N·m
13
1415 18
1617
9.0±1.0 N·m
9.0±1.0 N·m5.0±1.0 N·m
Removal steps
1. Oil level gauge and guide assembly
2. O-ring
3. Fuel pressure solenoid valve
connector
4. Fuel pressure solenoid valve
assembly
5. Detonation sensor connector
6. Purge control solenoid valve
connector
7. Purge control solenoid valve assembly
8. Injector connector
AA"9. Delivery pipe, injector, and fuel
pressure regulator assembly10. Insulator
11. Insulator
AB"12. Drive belt
13. Alternator connector
DEngine mounting
(Refer to GROUP 32.)
AC"14. Alternator
15. Water pump pulley
16. Alternator brace
17. Oxygen sensor connector
18. Alternator brace stay

ENGINE ELECTRICAL -Charging System16-12
REMOVAL SERVICE POINTS
AA"DELIVERY PIPE, INJECTOR, AND FUEL
PRESSURE REGULATOR ASSEMBLY REMOVAL
After loosening the installed parts, set the related parts
aside to make some space for removing the alternator.
AB"DRIVE BELT REMOVAL
Due to the adoption of the Serpentine drive system with
the auto-tensioner, the following operation is required:
1. Insert the 12.7sq. spinner handle into the tool hole of
the auto-tensioner and rotate it counterclockwise until
the auto-tensioner reaches to the stopper.
2. Align hole A with hole B for fixing by inserting the L-shaped
hexagon wrench, then remove the drive belt.
Caution
When the drive belt is reused, use a chalk to
indicate an arrow of rotation direction on the
back of the belt so that it can be re-assembled in
the same direction as before.
AC"ALTERNATOR REMOVAL
Push up the engine with a garage jack to the top and
remove the alternator upward from the engine room.
Hole A
L-shaped
hexagon
wrench
Hole B

ENGINE ELECTRICAL -Ignition System16-26
IGNITION SYSTEM
GENERAL INFORMATION
This system is equipped with two ignition coils (A
and B) with built-in power transistors for the No.
1 and No. 4 cylinders and the No. 2 and No. 3
cylinders respectively.
Interruption of the primary current flowing in the
primary side of ignition coil A generates a high
voltage in the secondary side of ignition coil A.
The high voltage thus generated is applied to the
spark plugs of No. 1 and No. 4 cylinders to generate
sparks. At the time that the sparks are generated
at both spark plugs, if one cylinder is at the
compression stroke, the other cylinder is at the
exhaust stroke, so that ignition of the compressed
air/fuel mixture occurs only for the cylinder which
is at the compression stroke.
In the same way, when the primary current flowing
in ignition coil B is interrupted, the high voltage
thus generated is applied to the spark plugs of
No. 2 and No. 3 cylinders.
The Engine-ECU turns the two power transistors
inside the ignition coils alternately on and off. Thiscauses the primary currents in the ignition coils
to be alternately interrupted and allowed to flow
to fire the cylinders in the order 1-3-4-2.
The Engine-ECU determines which ignition coil
should be controlled by means of the signals from
the camshaft position sensor which is incorporated
in the camshaft and from the crank angle sensor
which is incorporated in the crankshaft. It also
detects the crankshaft position in order to provide
ignition at the most appropriate timing in response
to the engine operation conditions. It also detects
the crankshaft position in order to provide ignition
at the most appropriate timing in response to the
engine operation conditions.
When the engine is cold or operated at high
altitudes, the ignition timing is slightly advanced
to provide optimum performance.
When the automatic transmission shifts gears, the
ignition timing is also retarded in order to reduce
output torque, thereby alleviating shifting shocks.
SYSTEM DIAGRAM
Barometric pressure sensor
Intake air temperature sensor
Engine coolant temperature sensor
Camshaft position sensor
Crank angle sensor
Ignition switch - ST
Vehicle speed signalEngine-ECU
Ignition coil A
Ignition coil B Ignition switch
Spark plugBattery
To tachometerCylinder No. Air flow sensor
1 4
23
Detonation sensor

ENGINE AND EMISSION CONTROL -Emission Control System17-4
EMISSION CONTROL SYSTEM
GENERAL INFORMATION
The emission control system consists of the following subsystems:
DCrankcase emission control system
DEvaporative emission control system
DExhaust emission control system
ItemsNameSpecification
Crankcase emission
control systemPositive crankcase ventilation (PCV) valveVariable flow type
(Purpose: HC reduction)
Evaporative emission
control systemCanister
Purge control solenoid valve
Check valveEquipped
Duty cycle type solenoid valve
Equipped
(Purpose: HC reduction)
Exhaust emission
control systemAir-fuel ratio control device - MPI systemOxygen sensor feedback type
(Purpose: CO, HC, NOx reduction)
Exhaust gas recirculation system
DEGR valve
DEGR control solenoid valveEquipped
Single type
Duty cycle type solenoid valve
(Purpose: NOx reduction)
Catalytic converterMonolith type
(Purpose: CO, HC, NOx reduction)
EMISSION CONTROL DEVICE REFERENCE TABLE
Related partsCrankcase
emission
control
systemEvaporative
emission
control
systemAir/fuel
ratio
control
systemCatalytic
converterExhaust
gas
recirculation
systemReference
page
PCV valve×17-9
Purge control solenoid valve×17-12
Check valve×17-12
MPI system component××GROUP 13A
Catalytic converter×17-19
EGR valve×17-15
EGR control solenoid valve×17-16

ENGINE AND EMISSION CONTROL -Emission Control System17-5
SERVICE SPECIFICATIONS
ItemsStandard value
Purge control solenoid valve coil resistance (at 20_C)Ω30 - 34
EGR control solenoid valve coil resistance (at 20_C)Ω29 - 35
VACUUM HOSE
VACUUM HOSE PIPING DIAGRAM
Fuel
pressure
control
solenoid
valve
Oxygen
sensor
(front)
Check
valve
Fuel
pressure
regulator
PCV valve To
fuel tank
Oxygen sensor (rear) From
fuel pump
Air
inletEGR control
solenoid valve
Purge
control
solenoid
valveCanisterFrom
fuel tank
EGR
valve Injector
Three - way
catalytic converter A
P
E

ENGINE AND EMISSION CONTROL -Emission Control System17-6
VACUUM CIRCUIT DIAGRAM
Vacuum hose colour
B: Black
G: Green
L: Light blue
R: Red
W: White
Y: YellowFrom air
cleaner
Intake manifoldThrottle body
To
combustion
chamber
Fuel pressure
regulator
EGR control
solenoid valve
Canister
EGR valve
Brown
Check valve Vacuum
tank
Fuel pressure
solenoid valve
Air by-pass valve
Secondary air control
solenoid valve
Secondary air
control valvePurge control
solenoid valve
Air cleaner
Waste gate
solenoid valveWaste gate
actuator