length LAND ROVER DISCOVERY 2002 Workshop Manual

GENERAL DATA
04-1
GENERAL DATA
Engine - Td5
General
Type 2.5 litre in-line direct injection diesel, turbocharged and intercooled
Cylinder arrangement 5 in-line, No. 1 cylinder at front of engine
Bore 84.450 mm (3.3248 in)
Stroke 88.950 mm (3.5020 in)
Capacity 2498 cm
3 (152.5 in3)
Firing order 1 - 2 - 4 - 5 - 3
Compression ratio 19.5 : 1
Direction of rotation Clockwise viewed from the front of the engine
Dimensions:

Length 766 mm (30.1 in)

Width 708 mm (27.8 in)

Height 788 mm (31.0 in)
Injection timing Controlled by ECM
Injectors:

Make/Type Lucas EV1

Nominal operating pressure:

Pre EU3 models 1500 bar (21750 lbf.in
2)

EU3 models 1750 bar (25500 lbf.in
2)
Maximum governed speed 4850 rev/min
Maximum overrun speed 5460 rev/min
Idle speed:

Manual gearbox 740 ± 50 rev/min

Automatic gearbox 760 ± 50 rev/min
Glow plugs Beru 12 V. Four plugs in cylinders 1, 2, 3 and 4
Turbocharger Garrett GT 20
Emissions standard:

Pre EU3 models ECD 2

EU3 models ECD 3
Valve timing
Inlet valves:

Opens 14° BTDC

Closes 33° ABDC
Exhaust valves:

Opens 57° BBDC

Closes 14° ATDC

GENERAL DATA
04-4
Engine - V8
General
Cylinder arrangement 90° V8, numbered from the front of the engine:

Left bank cylinders 1, 3, 5 and 7

Right bank cylinders 2, 4, 6 and 8
Bore 94.00 mm (3.70 in)
Stroke:

4.0 litre

4.6 litre71.04 mm (2.80 in)
81.92 mm (3.22 in)
Capacity:

4.0 litre

4.6 litre3950 cm
3 (241 in3)
4554 cm3 (278 in3)
Firing order 1 - 8 - 4 - 3 - 6 - 5 - 7 - 2
Compression ratio:

Low - 4.0 litre 8.23:1

High - 4.0 and 4.6 litre 9.35:1
Direction of rotation Clockwise viewed from the front of the engine
Maximum power - 4.0 litre:

Low compression ratio 132 kW (177 bhp) at 4750 rev/min

High compression ratio - UK/Japan/ROW 136 kW (182 bhp) at 4750 rev/min

High compression ratio - NAS 140 kW (187 bhp) at 4750 rev/min
Maximum power - 4.6 litre 162 kW (217 bhp) at 4750 rev/min
Maximum engine speed:

Continuous5000 rev/min

Intermittent 5250 rev/min
Weight (fully dressed, wet)

Manual 194 Kg (435 lb)

Automatic 179 Kg (402 lb)
Dimensions:

Length - Manual 767 mm (30.2 in) (Including fan)

Length - Automatic 777 mm (30.5 in) (Including fan and drive plate)

Width 652 mm (25.7 in)

Height 746 mm (29.4 in)
Spark plugs:

Make/Type - 4.0 litre Champion RC11 PYP B4

Make/type - 4.6 litre Champion RN11 YCC

Gap - 4.0 and 4.6 litre 1.00 ± 0.05 mm (0.040 ± 0.002 in) Non-adjustable
Coils:

Make Bosch 0221 503 407

Type Twin coils
Fuel injection system:

Make Bosch Motronic 5.2.1 Type 4146

Type Multiport fuel injection, electronically controlled with electro-
mechanical injectors

GENERAL DATA
04-6
Big-end bearings
Quantity 8
Material Glacier Vandervell GPL 2120/AS 124A
Diametrical clearance 0.015 - 0.016 mm (0.00059 - 0.00063 in)
End float 0.15 - 0.35 mm (0.0006 - 0.0138 in)
Gudgeon pins
Diameter 23.995 - 24.000 mm (0.9447 - 0.9449 in)
Clearance in piston 0.006 - 0.015 mm (0.00024 - 0.00059 in)
Fit in connecting rod Press fit
Length 60.00 - 60.50 mm (2.362 - 2.382 in)
Pistons
Type Solid skirt, elliptical open end with offset gudgeon pin
Material Aluminium AE413P
Clearance in cylinder bore.
Measured 10 mm (0.4 in) from bottom of skirt, 90° to
gudgeon pin.0.022 - 0.067 mm (0.0009 - 0.0026 in)
Diameter - Grade A 93.970 - 93.985 mm (3.6996 - 3.7002 in)
Diameter - Grade B 93.986 - 94.001 mm (3.7002 - 3.7008 in)
Piston rings
Type: 2 compression, 1 oil control

Top compression ring Barrel faced nitrided steel

2nd compression ring Tapered spherical

Oil control ring 3 piece AE Conoform
Piston ring fitted gap in cylinder bore:

Top compression ring gap 0.3 - 0.5 mm (0.012 - 0.020 in)

2nd compression ring gap 0.40 - 0.65 mm (0.016 - 0.026 in)

Oil control ring gap 0.38 - 1.40 mm (0.015 - 0.055 in)
Piston ring width:

Top compression ring width 1.21 - 1.23 mm (0.0476 - 0.0484 in)

2nd compression ring width 1.478 - 1.490 mm (0.0582 - 0.0587 in)

Oil control ring width 3.00 mm (0.1181 in)
Piston ring to groove clearance:

1st and 2nd compression rings 0.05 - 0.10 mm (0.002 - 0.004 in)
Camshaft
Bearings 5
Drive Chain, 9.52 mm (0.3748 in) pitch x 54 pitches
End float 0.075 - 0.25 mm (0.002 - 0.010 in)
Tappets
Type Hydraulic self adjusting
Outside diameter 21.386 - 21.407 mm (0.8420 - 0.8427 in)

GENERAL DATA
04-7
Valves
Stem diameter:

Inlet 8.664 - 8.679 mm (0.3411 - 0.3417 in)

Exhaust – 4.0 litre up to engine nos. 55D 05677A;
56D 50787A; 97D 05504A

Exhaust – 4.0 litre from engine nos. 55D 05678A;
56D 50788A; 97D 05505A and all 4.6 litre8.651 - 8.666 mm (0.3406 - 0.3412 in)
8.641 to 8.656 mm (0.340 to 0.341 in)
Head diameter:

Inlet 39.75 - 40.00 mm (1.5650 - 1.5748 in)

Exhaust 34.227 - 34.481 mm (1.3475 - 1.3575 in)
Seat face angle:

Inlet 46° 25' - 46° 00'

Exhaust 46° 25' - 46° 00'
Valve face angle:

Inlet 45° 00' - 45° 30'

Exhaust 45° 00' - 45° 30'
Valve springs
Free length 48.8 mm (1.92 in)
Fitted length 40.93 mm (1.61 in)

GENERAL DATA
04-18
Dimensions
* Measurement taken with vehicle at unladen weight.
Weights
NOTE: The rear axle load for vehicles with self levelling suspension can be increased to a maximum of 1928 kg (4249
lb) when towing, provided road speed is limited to 60 mph (100 km/h).
NOTE: Axle weights are non additive. The individual maximum weights and gross vehicle weight must not be
exceeded.
Overall length - including towing hitch 4715 mm (185.6 in)
Overall length - including spare wheel 4705 mm (185.24 in)
Overall width (excluding mirrors) 1885 mm (74.2 in)
Overall height - Open sunroof * 2015 mm (79.3 in)
Overall height (without roof bars) * 1940 mm (76.40 in)
Minimum ground clearance * 253.5 mm (10.0 in)
Wheelbase 2540 mm (100.00 in)
Turning circle (kerb to kerb) 11.9 metres (39.1 feet)
Track - front 1540 mm (60.63 in)
Track - rear 1560 mm (61.42 in)
kgs lbs
Unladen weight:

V8 models 2095 - 2235 4619 - 4928

Td5 model 2150 - 2280 4740 - 5027
Max.GVW:

All 5 seat vehicles (coil springs) 2750 6063

All 7 seat Diesel engine vehicles (coil springs)
2880 6347

All 7 seat Petrol engine vehicles (coil springs)
2825 6215

V8 models with self levelling suspension 2825 6228

Td5 models with self levelling suspension 2880 6349
Max. front axle load 1200 2646
Max. rear axle load:

With coil springs 1720 3792

With self levelling suspension 1800 3968

MAINTENANCE
PROCEDURES 10-3
Seats and seat belts
Check
Front seat
Rear seat rear fixings
Rear seat front fixings
1.Check seat frames are secured to floor and
show no signs of movement.2.Check operation of seat slide and tilt
mechanisms, ensuring there is no excessive
play between seat cushion and seat back.
3.Fully extract seat belt and allow it to return
under its own recoil mechanism. Repeat for
other belts.
4. Check entire length of seat belt webbing for
signs of fraying or damage. Repeat for other
belts.

ENGINE - TD5
DESCRIPTION AND OPERATION 12-1-13
Two plastic dowels are used to locate the cylinder head to the cylinder block and must be replaced every time the
cylinder head is removed from the cylinder block.
Connecting rods
1Small-end oil holes
2Small-end bushing
3Connecting rod
4Serrated fracture
The connecting rods are machined, H-sectioned steel forgings which feature a fracture-split at the big-end between
the connecting rod and the bearing cap. The connecting rod features a serrated fracture across the big-end at right
angles to the length of the connecting rod, this forms a unique mating surface between the connecting rod and the
fractured end which is used as the big-end cap. The use of a fracture-split in the big-end of the connecting rod ensures
a perfect match for assembly on the crankshaft bearing journals and provides the connecting rod with strong
resistance to lateral movement.
The end-cap fixing bolts are offset to ensure that the cap is fitted to the connecting rod in the correct orientation. If the
end-cap is fitted incorrectly and the end-cap bolts tightened, the connecting rod must be replaced, since the matching
serrations will have been damaged.
The big-end bearing shells are plain split halves without location tags. On EU2 models the two halves of the bearing
shells are of different construction. The upper half bearing shell fitted to the connecting rod is treated using the
sputtering process. The connecting rod bearing shell can be identified by having a slightly darker colouration than the
end cap bearing shell and the back of the connecting rod bearing shell has a shinier finish than the front face.
On EU3 models both bearing shells are of the same construction as the connecting rod bearing shell.
The small-end of the connecting rod has a bushed solid eye which is free to move on the gudgeon pin, the bushing
is a hand-push interference fit. The steel bushing has two slots machined in its upper surface for providing oil
lubrication to the moving surface with the gudgeon pin. The oil slots must be correctly aligned to the oil slots provided
in the small end of the connecting rod. The small-end lubrication is supplied by squirt feed from the piston lubrication
jets.

ENGINE - TD5
12-1-60 REPAIRS
Gasket - sump
$% 12.60.38
Remove
1.Remove battery cover.
2.Disconnect battery earth lead.
3.Remove exhaust front pipe.

+ MANIFOLDS AND EXHAUST
SYSTEMS - Td5, REPAIRS, Pipe - front.
4.Drain engine oil.
5.Remove 2 bolts securing Active Cornering
Enhancement (ACE) pipes to front cross
member.
6.Remove bolt securing coolant pipe to front
cross member.
7.Remove bolt securing automatic gearbox oil
cooler pipe clip.
8.Remove 4 bolts securing sump to gearbox bell
housing. 9.Remove 2 bolts securing centrifuge drain pipe
to sump and discard gasket.
10.Using sequence shown and noting their
different lengths, remove 20 bolts securing
sump to engine.
11.Manoeuvre sump from beneath engine,
remove sump and discard gasket.

ENGINE - TD5
12-1-62 REPAIRS
Valve - relief - oil pressure
$% 12.60.56
Remove
1.Remove sump gasket.

+ ENGINE - Td5, REPAIRS, Gasket -
sump.
2.Remove and discard plug from oil pump
housing.
3.Remove spring and valve.
Refit
1.Clean valve, spring and plug.
2.Clean valve seating inside oil pump housing.
3.Check valve and bore for scoring and
corrosion. Light scoring may be removed using
grade 600 emery cloth soaked in oil.
4.Check spring for distortion, check free length of
spring: Spring free length = 42.00 mm (1.65 in).
CAUTION: Renew relief valve as an
assembly.
5.Lubricate valve and seating.
6.Fit valve and spring to pump.
7.Apply Loctite 243 sealant to threads of new
plug.
CAUTION: Do not attempt to fit original
plug.
8.Fit oil pump pressure relief valve plug and
tighten to 23 Nm (17 lbf.ft).
9.Fit sump gasket.

+ ENGINE - Td5, REPAIRS, Gasket -
sump.
10.Check engine oil level, top-up if necessary.
Switch - oil pressure
$% 12.60.50
Remove
1.Remove fixings and remove engine acoustic
cover.
2.Remove 3 bolts and remove exhaust manifold
heat shield.
3.Disconnect multiplug from oil pressure switch.
4.Position container below switch to catch oil
spillage.
5.Remove oil pressure switch from oil cooler
housing.

ENGINE - TD5
OVERHAUL 12-1-79
24.Compare figures obtained with camshaft
bearing clearance:
lCamshaft bearing clearance = 0.04 to 0.10
mm (0.002 to 0.004 in)
25.If any bearing clearance is found to exceed
figures given, repeat the above procedures
using a new camshaft. If, after repeating the
clearance check using a new camshaft the
clearances are still excessive, a new cylinder
head and camshaft carrier assembly must be
fitted.
26.Remove all traces of Plastigage using an oily
cloth, do not use a scraper.
27.On completion, discard camshaft carrier bolts.
28.Check free length of valve springs:
lFree length = 46.75 to 47.25 mm (1.84 to
1.86 in)
29. Replace valve springs as a set, if springs
are to be refitted, keep them in their fitted
order.
30.Clean carbon from valves, check valves for
burning, pitting or cracking; replace as
necessary.
31.Clean carbon from valve seat inserts, remove
all loose particles on completion.
32.Check valve seat inserts for pitting and burning.
It is not permissible to recut or replace valve
seat inserts.
33.Remove carbon deposits from valve guides
using tool LRT-12-186 inserted from the
combustion chamber face side of cylinder
head. Ensure all loose particles of carbon are
removed on completion.
34.Check and record diameter of each valve stem:
lValve stem diameter - Inlet = 6.907 to 6.923
mm (0.2719 to 0.2725 in)
lValve stem diameter - Exhaust = 6.897 to
6.913 mm (0.2715 to 0.2721 in)35.Renew any valve if stem diameter is less than
specified.
36.Check and record valve stem to guide
clearance using the following procedures.
37.Insert each valve into its respective guide.
38.Extend valve head 10 mm (0.375 in) out of
valve seat and position a DTI gauge to rear of
valve head.
39.Move valve towards front of cylinder head and
zero DTI gauge ensuring that stylus of gauge
remains in contact with valve head.
40.Move valve towards rear of cylinder head,
record gauge reading to give valve stem to
guide clearance:
lInlet valve = 0.025 to 0.059 mm (0.0009 to
0.0023 in)
lExhaust valve = 0.035 to 0.069 mm (0.0013
to 0.0027 in)
41.If stem to guide clearance exceeds figures
given and valve stem diameters were as
specified, cylinder head assembly must be
replaced; it is not possible to replace valve
guides.
42.Repeat above procedures for remaining valves.
Keep valves in their fitted order.
43.Check face angle of each valve, renew any
valve with incorrect face angles, do not attempt
to recut.
lValve face angle - inlet = 29
° 48' ± 12'
lValve face angle - exhaust = 44
° 48' ± 12'
44.Lap each valve to its seat using grinding paste.
45.Apply Prussion Blue to valve seat, insert valve
into guide and press it firmly, without rotating
on to seat.
46.Remove valve and check that a continuous,
even line of Prussian Blue has been
transferred on to valve face. Note that line
does not have to be across whole width of
valve face.
47.Remove all traces of grinding paste on
completion.
48.Check valve head stand down using the
following procedures.