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Service Manual Trucks Group 250–600 Intake and Exhaust System D12, D12A, D12B, D12C PV776-TSP144524 Foreword The descriptions and service procedures contained in this manual are based on designs and methods studies carried out up to August 2000. The products are under continuous development. Vehicles and components produced after the above date may therefore have different specifications and repair methods. When this is believed to have a significant bearing on this manual, supplementary service bulletins will be issued to cover the changes. The new edition of this manual will update the changes. In service procedures where the title incorporates an operation number, this is a reference to an S.R.T. (Standard Repair Time). Service procedures which do not include an operation number in the title are for general information and no reference is made to an S.R.T. The following levels of observations, cautions and warnings are used in this Service Documentation: Note: Indicates a procedure, practice, or condition that must be followed in order to have the vehicle or component function in the manner intended. Caution: Indicates an unsafe practice where damage to the product could occur. Warning: Indicates an unsafe practice where personal injury or severe damage to the product could occur. Danger: Indicates an unsafe practice where serious personal injury or death could occur. Volvo Trucks North America, Inc. Greensboro, NC USA Order number: PV776-TSP144524 © 2000 Volvo Trucks North America, Inc., Greensboro, NC USA All rights reserved. No part of this publication may be reproduced, stored in retrieval system, or transmitted in any forms by any means, electronic, mechanical, photocopying, recording or otherwise, without the prior written permission of Volvo Trucks North America, Inc.. Contents General .................................................................................................... 3 Specifications ......................................................................................... 5 Intake and Exhaust System ..................................................................... 5 Tools ........................................................................................................ 7 Special Tools ......................................................................................... 7 Special Equipment ................................................................................. 8 Design and Function ............................................................................. 9 Intake and Exhaust System ..................................................................... 9 Preheater ............................................................................................... 9 D12C ................................................................................................. 9 Engines without Preheater ................................................................ 10 Engine Brake ....................................................................................... 11 D12C ............................................................................................... 12 Crankcase Ventilation .......................................................................... 18 D12C ............................................................................................... 18 Exhaust Pressure Governor ................................................................ 19 D12C ............................................................................................... 21 EPG Control Valve ............................................................................ 22 D12A ............................................................................................... 22 D12B ............................................................................................... 22 Air Restriction Indicator ....................................................................... 23 Turbocharger ........................................................................................ 24 D12A ............................................................................................... 24 Exhaust Manifold ................................................................................. 25 Tightening Sequence ........................................................................ 26 Troubleshooting ................................................................................... 27 Air Restriction Indicator, Checking ...................................................... 27 Service Procedures ............................................................................. Air Filter Element, Replacement ......................................................... Intake Manifold Gasket(s), Replacement ............................................ Removal .......................................................................................... Installation ....................................................................................... Turbocharger, Replacement ................................................................ Removal .......................................................................................... Installation ....................................................................................... Exhaust Manifold Gasket(s), Replacement ......................................... (Turbocharger Removed) ................................................................... Exhaust Pressure Governor, Replacement ......................................... Exhaust Pressure Governor, Overhaul ............................................... (Unit Removed) ................................................................................. Disassembly .................................................................................... Assembly ......................................................................................... Charge Air Cooler Leak Test, Checking .............................................. 29 29 30 31 31 32 32 33 34 34 35 36 36 36 37 39 System Check ...................................................................................... Boost Pressure, Checking ................................................................... Exhaust Backpressure, Checking ........................................................ Pressure Testing Outlet Location ...................................................... Backpressure Measuring Techniques ............................................... 41 41 42 42 42 Feedback Operation Numbers 1 2 Group 25 Intake and Exhaust System General General W2003244 D12C Engine This information covers the Intake and Exhaust System for the D12, D12A, D12B, and D12C engines. 3 4 Group 25 Intake and Exhaust System Specifications Specifications Intake and Exhaust System Maximum Restriction (Rated speed full load) ............................................................................... 6.2 kPa (H20) (25 in.) Air Cleaner torque Plastic .......................................................................................................................................... 9 ± 2 Nm (7 ± 2 ft–lbs) Metal ......................................................................................................................................... 20 ± 2 Nm (15 ± 2 ft-lbs) For Specifications, including torques, refer to: Service Manuals 200–890, Specifications, D12C 200–850, Specifiications, D12B 200–820, Specifications, D12A IMPACT Function Group 25 Info Type: Specifications 5 Group 25 Intake and Exhaust System 6 Specifications Group 25 Intake and Exhaust System Tools Tools Special Tools Servicing the VE D12 intake and exhaust systems requires the following special tools. The tools are available from parts departments of Volvo Trucks North America, Inc. When requesting tools, provide the appropriate number, preceded by ”999”, for example, 9992610. W0000406 9992610 Drift for overhauling exhaust pressure governor 9998225 Hollow drift for overhauling exhaust pressure governor 9996065 Gauge for checking boost pressure 9998246 9996666 Union for checking boost pressure Drift for overhauling exhaust pressure governor 9996662 Pressure gauge 9998288 Connecting washer for leakage test of charge air cooler 9996831 Vacuum gauge for checking pressure drop indicator 9998289 Sealing washer for leakage test of charge air cooler 7 Group 25 Intake and Exhaust System Tools Special Equipment Like the special tools, the following are available from the parts department of Volvo Trucks North America, Inc.. When requesting tools, provide the appropriate part number. W0001840 1159794 Torque wrench 10–100 Nm (7–73 ft-lb) 1159795 Torque wrench 40–340 Nm (30–250 ft-lb) W0001841 W0001842 1159796 8 Torque wrench 150–800 Nm (110–590 ft-lb) Group 25 Intake and Exhaust System Design and Function Design and Function Intake and Exhaust System Preheater Selected versions of the D12 are equipped with a preheater. Its purpose is to warm air in the intake manifold when starting the engine. This heated air eases starting at very low temperatures and reduces engine smoking when starting a cold engine. The following conditions are required to engage the preheater: • • The parking brake must be applied. The power take-off must not be engaged. The preheater does not engage at coolant temperatures over 10 C (50 F). At a coolant temperature of 10 C (50 F), the preheating time is 25 seconds. At coolant temperatures below –15 C (5 F), the preheating time is 55 seconds. Preheating time increases linearly between 10 C (50 F) and –15 C (5 F). T2006975 Fig. 1: Preheater The post-heating time is always the same as the preheating time. D12C The D12C is equipped with a new preheater. The function of the starting heater is similar for both vehicle variants, but the location of the relay differs. The preheater on both engine variants is grounded to the engine block through the intake manifold. W2003281 Fig. 2: Preheater, D12C 9 Group 25 Intake and Exhaust System Engines without Preheater On engines not equipped with a preheater, engine coolant temperature determines the point at which fuel injection begins while starting. The crankshaft rotates an extra number of turns to increase cylinder temperature before fuel injection begins. This gives more reliable starting and reduces exhaust emissions during cold starts down to about –15 C (5 F). This means that the crankshaft may need to rotate about 3–4 rotations before fuel injection begins and the engine fires. An exhaust pressure governor is activated during startup. 10 Design and Function Group 25 Intake and Exhaust System Design and Function Engine Brake W2003501 Fig. 3: D12 Engine 1 2 3 Camshaft Shutter Exhaust pressure governor 4 5 6 Rocker arm Control valve Shim The Volvo Engine Brake (VEB) is a combination of two brake systems: the exhaust brake and the compression brake. Exhaust brake The exhaust pressure governor uses a shutter mounted in the exhaust outlet from the turbocharger. This shutter, connected to the exhaust pressure governor plunger, can restrict the exhaust gas flow. This creates a braking effect during the exhaust stroke when the exhaust gases cannot evacuate freely and create an overpressure between the pistons and the shutter. Compression brake During the engine compression stroke and combustion (operating) stroke, the controlled opening of the exhaust valves creates an overpressure in the combustion chamber. This, in turn, produces a braking effect on the crankshaft. The camshaft on an engine with a compression brake has two extra lobes on each exhaust cam profile. The lifting height of the extra lobes is very low when compared to the normal exhaust lobes. To enable the extra lobes to open the exhaust valves, the exhaust rocker arms are arranged in a manner by which the valve clearance can be reduced during the braking sequence. ShimShims are available in thickness invtervals of 0.05 mm (0.0002 in). Sizes range from 2.0–2.4 mm (0.08– 0.094 in) and from 3.2–3.95 mm(0.126–0.156 in). Thickness is stamped on the shims. 11 Group 25 Intake and Exhaust System Design and Function D12C The VEB solenoid has been moved to the center of the rocker shaft. The oil supply is internal, rather than having the external piping visible. Control Valve The control valve is mounted on the cylinder head under the valve cover, and is connected to the oil system ahead of the rocker arm shaft. Its purpose is to reduce the oil pressure to the rocker arms while the engine is operating (compression brake not activated). There is always full system oil pressure to the control valve intake (1) because the intake is connected via a pipe to the lube oil gallery in the cylinder block. The oil pressure to the rocker arm shaft can be increased via a solenoid valve (2) mounted on the control valve, from approximately 100 kPa (14.5 psi) while the engine is operating, to more than 200 kPa (29 psi) during compression braking. While the engine is operating, the oil pressure is reduced after the control valve by the plunger (3) being held in balance by the force of a spring (4) and the oil pressure in the oil chamber (6) on the opposite side of the plunger. When the solenoid valve is activated, the oil chamber (6) is drained and the spring (4) presses the plunger (3) to its end position. The plunger completely opens the oil outlet (5) to increase oil pressure to the rocker arm shaft. T2006835 Fig. 4: Control Valve 1 2 3 4 5 6 12 Oil inlet Solenoid valve Plunger Spring Oil outlet Oil chamber Group 25 Intake and Exhaust System Design and Function Camshaft on Engine with Compression Brake The camshaft on an engine with a compression brake has an induction lobe (1) and a decompression lobe (2) — in addition to the normal exhaust lobe (3) — on each cam profile for the exhaust valves. The induction and decompression lobe lifting height is 0.8 mm (0.032 in.) above the basic circle, which is equivalent to approximately 1.1 mm (0.043 in.) at the valve bridge. The induction lobe is positioned so that it opens the exhaust valves at the end of the intake stroke and holds them open until the beginning of the compression stroke. The decompression lobe is positioned so that it opens the exhaust valves at the end of the compression stroke. In order for the induction and decompression lobes to open the exhaust valves, the valve clearance must be reduced to zero by the activation of the non-return valve and plunger located in the rocker arm for the exhaust valves. T2006826 Fig. 5: Cam Shaft Profile 1 2 3 Induction lobe Decompression lobe Exhaust lobe 13 Group 25 Intake and Exhaust System Design and Function Exhaust Rocker Arms The exhaust rocker arms on an engine with a compression brake are larger than those on a conventional engine. The rocker arm includes a non-return valve (2) and a plunger (3) with a pressure limiting valve, the purpose of which is to regulate the oil flow during compression braking. The rocker arm is held in its position against the valve bridge with the help of a spring tab (1). W2003502 The valve clearance is greater than that on an engine without a compression brake, because the induction and decompression lobes must not open the exhaust valves while the engine is in normal operating mode (compression brake not activated). Valve adjustment is carried out with shims which are placed on the valve bridge. Fig. 6: Rocker arm assembly, side view: 1 2 3 4 Spring tab Non-return valve Rocker arm plunger Shims Note: A maximum of two shims are allowed to obtain proper valve clearance. Non-Return Valve The engine brake has a non-return valve, consisting of a plunger (1), spring (2) and a ball (3) in the rocker arm. When oil from the rocker arm shaft enters the valve, the movement of the plunger is determined by the spring force and the oil pressure. When the oil pressure is low — approximately 100 kPa (14.5 psi); the control valve is in its normal engine operating position — the plunger (1) will not move out of its rest position because the oil pressure is not sufficient to overcome the spring force. The plunger pin prevents the ball (3) from entering the seating area, and the oil can then flow freely through the valve in both directions. When the control valve takes up the position for compression braking, the oil pressure increases to the non-return valve. The spring force in the non-return valve is such that when the oil pressure exceeds approximately 200 kPa (29 psi), the spring force is overcome and the plunger (1) moves so that it no longer influences the ball (3). The spring (5) presses the ball (3) against the seat and prevents the oil contained above the plunger (4) from flowing past the ball (3). This forms high oil pressure above the plunger (4). 14 T2006834 Fig. 7: Rocker arm assembly, top view: 1 2 3 4 5 Plunger Spring Ball Rocker arm plunger Spring Group 25 Intake and Exhaust System Design and Function Rocker Arm Plunger The purpose of the rocker arm plunger is to eliminate all valve clearance during the compression braking. Engine Operation When the engine is operating (compression brake not activated), there is reduced oil pressure — approx. 100 kPa (14.5 psi) — via the control valve to the rocker arm shaft and the rocker arm non-return valve (1) is open. Oil can flow freely through the non-return valve in both directions. As a result, no oil pressure is built up between the rocker arm plunger (2) and the rocker arm. The set valve clearance is great enough to prevent the camshaft induction and decompression lobes from opening the exhaust valves. The valve mechanism operates the same as on an engine without a compression brake; in other words, only the exhaust lobe opens the exhaust valves. T2006828 Fig. 8: Rocker Arm Plunger 1 2 Non-return valve Rocker arm plunger Compression Braking During compression braking, the control valve does not reduce the oil pressure, so an oil pressure of at least 200 kPa (29 psi) is delivered to the rocker arm shaft. The pressure in the rocker arm non-return valve (1) becomes so great that the plunger in the non-return valve is moved out of its rest position, and the ball now functions as a non-return valve. Pressure is built up between the rocker arm plunger (2) and the rocker arm. The plunger is pressed out and presses the rocker arm roller against the lobes on the camshaft. In this way, the valve clearance is eliminated and the lifting height on the induction and decompression lobes is sufficient to open the exhaust valves. The rocker arm plunger is fitted with a pressure limiting valve (3). When the oil pressure between the rocker arm plunger and the rocker arm becomes too great, the pressure limiting valve opens and oil can exit through the hole in the bottom of the plunger. The opening pressure of the pressure limiting valve is governed by the force of the valve spring. T2006836 Fig. 9: Rocker Arm Plunger 1 2 3 Non-return valve Rocker arm plunger Pressure limiting valve 15 Group 25 Intake and Exhaust System Design and Function Control System The engine brake is connected to the throttle pedal and is activated when the pedal is completely released, according to the selection made with the engine brake switch on the instrument panel. The selection made with this switch also regulates engine braking activated by the cruise control. Note: The engine brake functions as long as the engine control system has received signals from engine sensors indicating that the required preconditions for engine braking have been met. For example, the engine speed must be greater than 1100 rpm, the vehicle speed must be greater than 12 km/h (7.5 mph), and the engine tem perature must be above 70 C (160 F). The switch has three positions: T2006953 Fig. 10: Switch for engine brake 0 No engine brake engaged 1 Exhaust brake, EPG 2 Exhaust brake and compression brake, VEB Exhaust Brake When exhaust braking, the exhaust pressure governor (EPG) is activated with a control pressure of approximately 750 kPa (110 psi). At this point, the shutter is forced out of the EPG and into the shutter housing. This restricts the flow of exhaust gases out of the cylinders, as the shutter blocks the outlet from the turbocharger. Restricting the flow of exhaust gases forms an air cushion between the shutter and the piston crowns. During the exhaust stroke, this air cushion provides a braking effect on the pistons as the exhaust valves are then opened. The higher the engine speed during the exhaust braking, the greater the braking effect. T2006832 Fig. 11: Exhaust pressure governor 16 Group 25 Intake and Exhaust System Design and Function Compression Brake The exhaust brake is always engaged in conjunction with the compression brake. In the compression brake induction phase, the exhaust brake creates an overpressure in the exhaust manifold, making the compression brake more efficient. Induction phase The induction phase begins at the end of the intake stroke and continues slightly into the compression stroke. The piston travels towards its bottom dead center position and the camshaft induction lobe opens the exhaust valves for the time required to fill the cylinder with the overpressure created by the exhaust brake in the exhaust manifold. When the induction lobe closes the exhaust valves, the cylinder has an overpressure at the start of the compression stroke. This overpressure considerably increases the compression during the compression stroke, which in turn creates a powerful braking effect during the upward movement of the piston. T2006830 Fig. 12: Charging phase Decompression phase At the end of the compression stroke, when the piston is nearing its top dead center position, the camshaft decompression lobe opens the exhaust valves and releases the pressure out of the cylinder. Shortly before the bottom dead center position, the exhaust valves are opened by the ordinary exhaust lobe. During the exhaust stroke, the counterpressure is created in the exhaust manifold which, in turn, has a braking effect because the exhaust pressure governor shutter is still restricting the flow of exhaust gases out of the turbocharger. T2006831 Fig. 13: Decompression phase 17 Group 25 Intake and Exhaust System Design and Function Crankcase Ventilation D12C The D12C has new crankcase ventilation with its outlet from the upper timing gear cover. The timing gear cover is designed with an oil trap to prevent oil from escaping through the ventilation tube. T2012791 Fig. 14: Crankcase Ventilation, D12C W2003503 Fig. 15: Crankcase Ventilation, D12B and D12C W2003504 Fig. 16: Crankcase Ventilation, D12A 18 Group 25 Intake and Exhaust System Design and Function Exhaust Pressure Governor The exhaust pressure governor(EPG) acts as an exhaust brake when slowing the vehicle down. It also speeds engine warm-up by applying a load to the engine during idle and warm-up. Engine load is created by the (EPG) throttling the flow of exhaust gases, causing the engine to work against a backpressure. This increases combustion temperature and shortens the warm-up period. On engines without a pre-heater, the (EPG) is activated before the starter motor is engaged. For engines with a pre-heater, the (EPG) is activated after pre-heating, start-up and post-heating have taken place. The (EPG) is activated by a control pressure of about 200 kPa (29 psi), by a combi relay when it is used during starting and warm-up. When used for engine braking, the exhaust pressure governor is controlled by a single two-position switch if the engine is equipped with an exhaust brake only, and by dual two-position switches if the engine is equipped with a Volvo Engine Brake, or VEB (both exhaust brake and compression brake). T2006948 Fig. 17: Exhaust pressure governor (EPG) Engines with Exhaust Brake Only Two-position switch (ON/OFF) With the switch in the ON position, the exhaust pressure governor is activated by a control pressure of approx. 750 kPa (110 psi) subject to the following conditions: • • • • • • Accelerator pedal fully up. Clutch pedal fully up. Engine speed above 1100 rpm. Boost pressure below 52 kPa (7.5 psi). When using cruise control and preselected road speed is exceeded by 7 km/h (4 mph) (disengagement at 4 km/h (3 mph) over preselected speed). W2000731 Fig. 18: Exhaust brake switch for WX, WG and AC ABS not activated (continuous control). W3001324 Fig. 19: Exhaust brake switch for VN/VHD 19 Group 25 Intake and Exhaust System Design and Function Engines with VEB When the engine brake ON/OFF switch is in the ON position, the engine brake is activated according to the position of the engine brake HI/LO switch. With the HI/LO switch in the LO position, only the exhaust pressure governor is activated and is subject to the same conditions as for engines with an exhaust brake only. With the HI/LO switch in the HI position, the VEB is activated (both the exhaust pressure governor and compression brake are switched on). In addition to satisfying exhaust brake prerequisites, the following conditions must be met: • • Coolant temperature above 70 C (158 F). • Engine temperature must be above 43 C (110 F). W2001002 Vehicle speed must be greater than 12 km/h (7.5 mph). Fig. 20: Engine brake switches for WG and AC Dual two-position switches: 1 ON/OFF 2 HI (VEB)/LO (exhaust brake) For VN/VHD, engine exhaust brake switches are located on the dash (5); see Fig. 21: Engine brake switches for VN/VHD, page 20. W3004361 Fig. 21: Engine brake switches for VN/VHD 20 1 Left Dash Switches 2 Driving Light Switches 3 Pneuamtic Switches 4 Auxiliary Switches 5 Right Dash Switches Group 25 Intake and Exhaust System Design and Function D12C The EPG on the D12C has a new air valve. The valve is located on the right, rear edge of the engine block and is controlled by current from the EECU. There are two on/off valves and two reduction valves in the valve body. T2012788 Fig. 22: Exhaust Pressure Governor, D12C 21 Group 25 Intake and Exhaust System Design and Function EPG Control Valve The exhaust pressure governor is controlled by a valve that regulates air pressure to the EPG. The exhaust pressure governor operates using two different pressures: • When the exhaust pressure governor is activated during starting and keeping the engine warm, the control valve provides a control pressure of approximately 200 kPa (29 psi). • When the exhaust pressure governor is activated for engine braking, the control valve provides a control pressure of approximately 750 kPa (110 psi). D12A The D12A is provided with two solenoid valves, one for controlling the starting and engine warming pressure and one for controlling the pressure for engine braking. Both solenoid valves are located in a bracket on the cylinder head. D12B The D12B is provided with an EPG control valve that controls both the starting and engine warming pressure, and the pressure for engine braking. The valve is located at the lower rear edge on the right-hand side of the cylinder block. The EPG control valve on the D12B replaces the two solenoid valves on the D12A to perform the same function. 22 W2002624 Fig. 23: EPG control valve, D12B Group 25 Intake and Exhaust System Design and Function Air Restriction Indicator There are several types of restriction indicators which can be mounted in certain locations, such as on the air cleaner duct or on/above the instrument panel. The air restriction indicator mounted on the instrument panel permits continuous monitoring of the gauge. When either the flag or piston-type restriction gauge is mounted directly on the air cleaner, the piston is usually drawn downward into view as the element loads with dirt. It locks into full view only after the restriction (caused by a dirty element) reaches the rated value of the indicator. W2000740 Fig. 24: Air restriction indicator WX, WG , AC(dash mounted) W2003505 Fig. 25: Air restriction indicator VN, VHD, VNM (located beneath the air box) W2003506 Fig. 26: Air restriction indicator VN, VHD (located on the air pipe) W2000741 Fig. 27: Piston-type air restriction indicator-WG 23 Group 25 Intake and Exhaust System Design and Function Turbocharger The turbocharger is driven by the exhaust gases from the engine passing through the turbine housing on their way out into the exhaust system. The flow of exhaust gases causes the turbine wheel inside the turbine housing to rotate. On the same shaft as the turbine wheel is a compressor wheel. The compressor wheel is mounted in a housing which is connected between the air cleaner and the intake manifold. When the compressor wheel starts to rotate, air is drawn in from the air cleaner, compressed and forced into the cylinders of the engine — but not before it has been cooled down after passing through the charge air cooler. T2006949 Fig. 28: Turbocharger D12A The turbo used on the D12A engine is NOT interchangeable with turbos on other D12 engine versions. 24 Group 25 Intake and Exhaust System Design and Function Exhaust Manifold New design of exhaust manifold sections W2002222 Fig. 29: Manifold designs Description New design P/N Qty Old design P/N Qty Side section 3964707 2 1547521 2 Middle section 3964708 1 1547520 1 Complete 3964706 1 1677205 1 Improved gasket W2002223 Fig. 30: Gasket Note: The gaskets are marked “MANIFOLD SIDE” to aid in installation. 25 Group 25 Intake and Exhaust System Design and Function Tightening Sequence Old Style Manifold. New Style Manifold T2012896 W2002224 26 Group 25 Intake and Exhaust System Troubleshooting Troubleshooting Air Restriction Indicator, Checking Low restriction readings may be difficult to identify. They can result from a damaged element gasket, ruptured element, incorrectly installed element or a leak in the engine air intake ducts and piping. When servicing the air cleaner, make sure to check for these. A water manometer may also be used to check for service. A maximum of 25 in. of water (20 in. of water measured at air cleaner body outlet) is the limit of element service and indicates a need for replacement. On turbocharged engines, connect the manometer to the air intake pipe, one to two pipe diameters upstream from the turbocharger inlet, in a straight section of pipe. Turbocharged engines should be under full load long enough to allow the turbocharger to reach maximum speed. Note: Dust conditions and accumulated mileage determine the interval for replacing the air cleaner element. The air cleaner should be inspected every 24,000 km (15,000 miles) and replaced as necessary. The air cleaner element should be replaced at least once a year regardless of service or restriction indicator readings. 27 28 Group 25 Intake and Exhaust System Service Procedures Service Procedures 2562-03-02-01 Air Filter Element, Replacement 3 Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. W2000940 Fig. 31: Removing the endcap,(WG, AC) WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. CAUTION When removing and installing the intake manifold on engines equipped with VEB, keep the work area as clean as possible to prevent impurities from entering the oil system. This also applies to the compression brake oil delivery pipe between the cylinder block and intake manifold. Remove the endcap by removing the hardware (depending on the type of endcap) that attaches the endcap to the air filter. Note: The type of hardware used to hold the endcap varies, depending on the style of air cleaner and air cleaner assembly. 4 Removal 1 Apply parking brakes. make sure the shift lever is in neutral. W2002051 Fig. 32: Removing the air filter (VN,VHD and VNM) 2 Tilt hood. Remove the air filter. 29 Group 25 Intake and Exhaust System Service Procedures 5 9 W2000746 Fig. 34: Endcap reinstall W2000941 Fig. 33: Remove the air filter (WG, AC) Remove the element from the canister. If the element is held by a wing nut, remove the wing nut before removing the element. Installation 6 Clean and inspect the inside of the housing and endcap. 7 Lubricate the rear seal on the new filter with Vaseline or the like. 8 Install the new filter. Make sure that it is correctly positioned in the filter housing. Reinstall the endcap and attach, using the necessary hardware. Tighten to a torque of 24 ± 2 Nm (18 ± 2 ft-lb). 24 ± 2 Nm (18 ± 2 ft-lb) Note: Refer to the label attached inside the endcap on some models. 2512-03-02-01 Intake Manifold Gasket(s), Replacement Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. CAUTION When removing and installing the intake manifold on engines equipped with VEB, keep the work area as clean as possible to prevent impurities from entering the oil system. This also applies to the compression brake oil delivery pipe between the cylinder block and intake manifold. 30 Group 25 Intake and Exhaust System Service Procedures 5 W2000733 Fig. 36: Replacing intake manifold gasket W2000732 Fig. 35: Replacing intake manifold gasket Remove the intake manifold bolts and carefully tap the manifold loose, using a plastic-headed mallet. Removal 1 Remove the plastic ties from the electric cables under the intake manifold. Disconnect the terminals from the sensors for the charge air pressure and the charge air temperature on the intake manifold. 2 Remove the boost pressure gauge connection from the intake manifold. 3 Remove the bolt for the pre-heater, or the spacer, from the fan shroud bracket. Remove the pre-heater, or the spacer, from the intake manifold and set aside. 6 Clean the sealing surfaces of the intake manifold and the cylinder head. Install a new gasket. Installation 1 Install a new seal on the compression brake oil duct. 2 Apply a 2 mm (1/16 in.) bead of sealant to the intake manifold. The manifold must be installed and tightened within 20 minutes after applying sealant. 2 mm (1/16 in.) Note: Do not allow the sealant to enter the oil duct of the compression brake. 4 Loosen the alternator drive belt and remove the nut for the gear lever bracket. Remove the alternator. 31 Group 25 Intake and Exhaust System Service Procedures 3 W2000734 Fig. 37: Replacing intake manifold gasket W2000943 Fig. 38: Turbocharger assembly Adjust the alternator, A/C refrigerant compressor, drive belt tension if so equipped. 4 Install the pre-heater (if equipped) or the spacer, using new gaskets, and bolt the mounting to the fan shroud. 5 Install the boost air gauge connections to the intake manifold. 6 Reconnect the terminals to the sensors for the boost air pressure and the boost air temperature on the intake manifold. Tie the electrical cables. 2551-03-02-02 Turbocharger, Replacement Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. 32 1 2 3 4 5 n/a Exhaust pressure governor Oil delivery and return pipes Clamp Nuts General Guidelines and Precautions Always determine the reasons for replacing a turbocharger before making the repair. Correct any noted defects before replacing. When replacing a turbocharger, always thoroughly read and carefully follow the procedures. After degreasing, wipe the cooler clean and dry it with compressed air. Also check the air pipes and charge air hose. If contaminated with oil, replace the charge air hose to prevent damage to the rubber. The engine oil system and intake system must be kept in good condition to ensure proper turbocharger operation. That is, change oil and filters at specified times, use the correct engine oil and properly care for the air cleaner. When replacing a turbocharger, use compressed air to remove any rust or carbon flakes from the exhaust manifold. Carbon flakes can damage the turbine of the new unit. It is also important to clean the intake pipe from the air filter. Pieces of broken components can remain in the pipe and cause immediate turbocharger failure. Also, always check to be sure that the injection equipment is in good condition. Note: Once the turbocharger is installed put oil in oil supply port to ensure proper turbo lubrication. Once turbo is sufficently lubricated you can crank the engine. Removal 1 Remove the air cleaner hose from the turbocharger. Group 25 Intake and Exhaust System Service Procedures 2 Remove the bolts holding the charge air pipe to the mounting bracket. Pull the charge air pipe off the turbocharger. 1 Before installing the new turbocharger, check the engine oil and change the oil filters, if required. Then, run the engine a few minutes before installing the new turbocharger. When running the engine without a turbocharger, be sure to plug the oil delivery line. As a precaution to prevent the oil from entering the new turbocharger, a strainer can be temporarily installed into the oil entry point. Then run the engine for at least a half hour. 3 Remove the air line from the exhaust pressure governor. 4 Remove the turbocharger oil delivery and return pipes. Install a protective plug into the connection for the oil delivery pipe on the oil filter bracket. Note: After this test, remove the strainer to prevent strainer blockage that may occur if the oil system is not properly maintained. 5 Loosen the clamp between the turbocharger and the shutter housing. Remove the shutter housing from the turbocharger. 2 Before installing a new turbocharger, pre-lubricate the bearing system. This will ensure adequate lubrication of the turbocharger at start-up. Install a new gasket and install the new turbocharger. 6 Remove the nuts and lift the turbocharger off. 3 Apply sealant to the shutter housing sealing surface and install the housing to the turbocharger. Mate the shutter housing flange with the heel of the turbocharger. Retighten the clamp. 7 Clean the sealing surfaces of the exhaust manifold, shutter housing and oil-pipe connections. Installation 4 Connect the air line to the exhaust pressure governor. 5 Install the turbocharger oil delivery pipe using new seals. Note: Be sure to remove the delivery oil plug if used to run the engine without the turbocharger. W2000739 Fig. 39: Turbocharger assembly 7 8 9 10 11 Gasket Clamp Air line Oil delivery pipe Oil return pipe 6 Install the turbocharger oil return pipe to the cylinder block using a new seal. Do not attach the oil return pipe to the turbocharger at this time. 7 Install the charge air pipe into the turbocharger using new sealing rings. Attach the charge air pipe. 33 Group 25 Intake and Exhaust System Service Procedures Removal 8 Reconnect the air cleaner hose to the turbocharger. 1 Remove the bolts holding the exhaust manifold and lift off the manifold. 9 Attach the turbocharger oil return pipe, using new seals. 2 Disassemble the exhaust manifold and remove all sealing rings. Clean the exhaust manifold and the cylinder head. 10 Apply parking brake and place shift lever in neutral. Start the engine and check for proper operation and leaks. Installation 2516-03-04-01 Exhaust Manifold Gasket(s), Replacement (Turbocharger Removed) 3 Use compressed air to blow any carbon out of the manifold. Then assemble the manifolds. CAUTION Wear appropriate eye protection. Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. Note: Three sealing rings must be installed at each side. Install the sealing ring with the smallest diameter in the middle. 4 Install the exhaust manifold using new gaskets. Begin by lining up all three manifold sections onto the cylinder head, starting with section A. Note: Make sure that the sleeves fit correctly into the milling of the exhaust manifold and install the gaskets with the graphite surface facing the cylinder head. 5 After applying anti-sieze to the manifold bolts and turbo studs, screw the bolts in by hand, starting with section A and then sections B and C. T2006979 6 Tighten the bolts cross-wise starting with section A, and then sections B and C. Torque to 25 Nm (18 ft-lb). See illustration, page 26 25 Nm (18 ft-lb) Fig. 40: Exhaust manifold Note: It is easy to get the wrong impression from exhaust manifold leakage (mixture of moisture and soot). This mixture may drip down on the turbo and could easily be mistaken for an oil leak from the turbo. 34 7 Begin the tightening sequence again; however, raise the torque to 48 ± 8 Nm (35 ± 6 ft-lb). 48 ± 8 Nm (35 ± 6 ft-lb) Group 25 Intake and Exhaust System 8 Start the engine and run until it reaches operating temperature. Service Procedures 2 9 Verify the torque at 48 ± 8 Nm (35 ± 6 ft-lb). 2538-03-02-01 Exhaust Pressure Governor, Replacement T2006940 Fig. 42: Removing air pressure governor Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. Remove the bolts and lift off the exhaust pressure governor. Installation 3 WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. Removal 1 T2006941 Fig. 43: Cleaning shutter housing Clean the sealing surface of the shutter housing. 4 Install the new exhaust pressure governor. Install the air line. T2006942 Fig. 41: Removing air line Remove the air line from the exhaust pressure governor. 5 Apply parking brake and place shift lever in neutral. Start the engine and check for proper operation and leaks. 35 Group 25 Intake and Exhaust System Service Procedures 2538-04-04-01 Exhaust Pressure Governor, Overhaul (Unit Removed) Disassembly 1 Remove the end cover from above the plunger. 2 Remove the bolts and take out the plunger. Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. 3 Remove the seals (4, 20 and 19, Fig. 44: Exhaust pressure governor, page 36). 4 Remove the set screw on the plunger rod. WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. 5 T2006749 Fig. 44: Exhaust pressure governor 1-Setscrew 11-Valve Collets 2-Bolts 12-Bolts 3-Plunger 13-Cover 4-Seazls 14-Heat shield 5-Plunger Rod 15-Securing flange 6-Spring 16-Nut 7-Spring holder 17-Nut 8-Spring 18-Housing 9-Seal 19-Seals 10-Shutter 20-Seals 21-End cover Special tools: 999 2610, 999 8225, 999 8246 36 T2006747 Fig. 45: Removing collets Place the exhaust pressure governor into a press. Compress the spring enough to remove the valve collets Note: Do not press more than necessary to remove the collets. Compressing the spring fully can damage the cover. 6 Remove the plunger rod, spring and shutter. Group 25 Intake and Exhaust System Service Procedures 7 Remove the bolts holding the cover, the heat shield and the securing flange. 2 8 T2006746 Fig. 48: Plunger rod installation T2006744 Fig. 46: Removing spring holder Carefully tap out the spring holder that secures the spring and the seal (9, Fig. 44: Exhaust pressure governor, page 36). 9 Clean all parts and replace any that are damaged or worn. Put the plunger rod onto drift 9992610 in a press. Using drift 9998225, press on the spring holder until it bottoms in the housing. Remove the plunger rod. Check to make sure that the spring holder is correctly centered. 3 Install the securing flange, the heat shield and the cover. Tighten the bolts to 13 ± 2 Nm (10 ± 2 ft-lb). 9992610 9998225 13 ± 2 Nm (10 ± 2 ft-lb) 4 Install the shutter, spring and plunger rod into the housing. Assembly 5 1 T2006745 Fig. 47: Assembly Install the plunger rod into the housing from behind so as to center the spring holder. Install a new seal with the beveled edge facing inside the housing. Install the spring and a new spring holder. T2006748 Fig. 49: Depressing spring Compress the spring by hand, making sure that the shutter shaft and plunger rod fit together and that the plunger rod fits correctly into the seal. Stop applying pressure if undue resistance is felt. Install the valve collets. 37 Group 25 Intake and Exhaust System 6 Install the set screw into the plunger rod. Apply sealant to the set screw before installing. Tighten the set screw to 40 ± 5 Nm (30 ± 4 ft-lb). 7 Install a new seal into the plunger rod and install the plunger. Apply sealant to the boltsand tighten them to 13 ± 2 Nm (10 ± 2 ft-lb). 8 Install the end cover using new seals. Make sure that the seal bottoms in the housing. Install the seal with the flat side facing the housing. Tighten the bolts (22) to 24 ± 2 Nm (18 ± 2 ft-lb). 38 Service Procedures 40 ± 5 Nm (30 ± 4 ft-lb) 13 ± 2 Nm (10 ± 2 ft-lb) 24 ± 2 Nm (18 ± 2 ft-lb) Group 25 Intake and Exhaust System Service Procedures 2651-06-04-01 Charge Air Cooler Leak Test, Checking WARNING Make sure that the gauge pressure never exceeds 100 kPa (14.5 psi). Failure to do so can result in personal injury. If the turobocharger fails on an intercooled engine, it is essential to check the charge air cooler. When considerable oil loss or the presence of foreign material (for example, broken compressor wheel parts forced into the charge air cooler) is suspected, take the following measures: WARNING Check the charge air cooler hoses up to the cooler. If there are traces of oil at the charge air cooler, remove the cooler and clean it internally, using a low-aroma, white-spirit type degreasing agent. If turbocharger failure results in a broken compressor whell, pressure-test the charge air cooler to see if it has been damaged by broken compessor wheel pieces. —Always wear appropriate eye protection to prevent the risk of eye injury due to contact with engine debris or fluids. 1 Special tools: 9996662, 9998288, 9998289 Note: Check the function of pressure gauge 9996662 before using it. Attach it to an air supply and set the pressure to 100 kPa (14.5 psi) with the regulator valve. Before working on a vehicle, set the parking brakes, place the transmission in neutral, and block the wheels. Failure to do so can result in unexpected vehicle movement and can cause serious personal injury or death. W2000715 Fig. 50: Pressure gauge WARNING HOT ENGINE! Keep yourself and your test equipment clear of all moving parts or hot engine parts and/or fluids. A hot engine and/or fluids can cause burns or can permanently damage test equipment. 1 2 Shut-Off Valve Reduction Valve Connect the pressure gauge to outside air source and set the gauge reading to 100 kPa (14.5 psi) using the reduction valve. The knob of the reduction valve is locked by a ring which is engaged by pulling up on the ring, and pushing down to release. WARNING Never disconnect an air system component unless all system pressure has been depleted. Failure to deplete system pressure before disconnecting hoses or components may result in their violent separation and can cause serious bodily injury. 2 Close the shut-off valve. For the pressure gauge to be considered reliable, the pressure reading must not drop during a period of two minutes. 39 Group 25 Intake and Exhaust System Service Procedures 3 W2000735 Fig. 51: Removing charge air hoses Remove the air hoses from the charge air cooler. Install connecting washer 9998288, sealing washer 9998289 and new O-rings. 9998288 9998289 4 W2000736 Fig. 52: Connecting pressure gauge Remove the pressure gauge reduction valve and check that the gauge reading is “0.” Connect the pressure gauge to the charge air cooler. 5 Open the shut-off valve and set the pressure gauge to 100 kPa (14.5 psi), using the reduction valve. 6 Close the shut-off valve. For the charge air cooler to be serviceable, the pressure reading must not drop more than 50 kPa (7 psi) during 30 seconds. 7 If a leak is found, repeat the test a few times. Also check pressure gauge hoses and connections. 40 Group 25 Intake and Exhaust System System Check System Check 2559-06-02-02 Boost Pressure, Checking 3 Note: This operation number covers only the installation and removal of test equipment. Special tools: 9996065, 9996666 1 W2000737 Boost pressure at various temperatures A measured boost pressure B correction curves C intake air temperature T2006943 Boost pressure gauge installation Clean around the plug for the boost pressure gauge on the intake manifold. Remove the plug and install union 9996666. Connect pressure gauge 9996065 to the 9996666 union. Make sure the pressure gauge hose is long enough to reach the driver’s seat in the cab. Note: Secure the hose so that it does not contact any moving parts. 2 The measurement should be carried out: • with a fully loaded vehicle • driving up an incline at full acceleration (full load) • while engine revs (rpm), slowly pass the speed specified for boost pressure. The specifications state engine speed and boost pressure at +20 C (68 F). If reading at any other temperature, use the chart above to correct the resulting boost pressure. Example: A pressure of 80 kPa (12 psi) mea sured at –10 C (14 F) is equivalent to about 70 kPa (10 psi) +20 C (68 F). That is, pressure drops as temperature rises. If boost pressure does not reach specified levels, check the following: • properly tightened bolts on intake and exhaust manifolds • exhaust brake • backpressure in exhaust system • air cleaner element • fuel pressure Note: For a reliable result, engine load must be maintained long enough for the pressure to stabilize. Boost pressure specifications at 28.3 r/s (1700 rpm): • • VE D12–370 125–170 kPa (18–24.7 psi) VE D12–415 145–175 kPa ( 21–25.4 psi) 41 Group 25 Intake and Exhaust System System Check Exhaust Backpressure, Checking Pressure gauge: Of indicating or U-tube type, graded to 24 kPa or 2,440 mm water column (3.5 psi) and equipped with damper. Steel pipe: About 200 mm (8 in.) long and able to connect to a union. Union: The union must be brazed onto the exhaust pipe as shown. Then drill a 1.5 – 2.0 mm (0.06 – 0.08 in) hole through the center of the union and the side of the exhaust pipe. Hose: The hose is installed between the pressure gauge and steel pipe and must be long enough for the gauge to be read inside the cab. T2006988 Measuring equipment 1 2 3 4 Damper Pressure gauge Steel pipe Union Pressure Testing Outlet Location The pressure-testing fitting should be located on as straight a section of the pipe as possible, two-thirds after and one-third before a bend in the pipe. The test fitting must not be located on an outer or inner bend of the exhaust pipe. T2006983 Outlet location Backpressure Measuring Techniques Using a chassis dynamometer is the best way to measure backpressure. If such equipment is not available, the vehicle can be driven up a long hill. The accelerator pedal must be kept fully floored with the vehicle accelerating up the hill until the engine reaches specified rpm. Note the highest backpressure reading and compare it with specifications. After the test, make sure to block off the union in the exhaust pipe with a plug, or in some other suitable manner. 42 Feedback One of our objectives is that workshop personnel should have access to correct and appropriate service manuals where it concerns fault tracing, repairs and maintenance of Volvo trucks. In order to maintain the high standards of our literature, your opinions and experience when using this manual would be greatly appreciated. If you have any comments or suggestions, make a copy of this page, write down your comments and send them to us, either via telefax or mailing directly to the address listed below. To From Volvo Trucks North America, Inc. .......................................................................... Dept. 516 Service Publications .......................................................................... 7825 National Service Road .......................................................................... P.O. Box 26115 .......................................................................... Greensboro, NC 27402-6115 .......................................................................... USA .......................................................................... Fax (336) 393-3170 .......................................................................... 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Concerns Service Manual: ............................................................................................................................... Operation Numbers 2512-03-02-01 2516-03-04-01 2538-03-02-01 2538-04-04-01 2551-03-02-02 2559-06-02-02 2562-03-02-01 2651-06-04-01 Intake Manifold Gasket(s), Replacement . Exhaust Manifold Gasket(s), Replacement Exhaust Pressure Governor, Replacement Exhaust Pressure Governor, Overhaul . . Turbocharger, Replacement . . . . . . . Boost Pressure, Checking . . . . . . . . Air Filter Element, Replacement . . . . . Charge Air Cooler Leak Test, Checking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 34 35 36 32 41 29 39 Volvo Trucks North America, Inc. P.O. Box 26115, Greensboro, NC 27402-6115 Volvo Trucks Canada, Ltd. 6490 Vipond Drive, Mississauga, Ontario L5T 1W8 http://www.volvotrucks.volvo.com PV776-TSP144524 (300) 08.200 © Volvo Trucks North America, Inc., 2000
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