Difference between revisions of "NG 900/9-3 Engines"

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(Created page with '=Engines= The NG 900 was produced with a choice of four powerplants. Three of these were 4-cylinder units that were developed from the ones used in the 9000 and there was the in…')
 
 
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==2.0i (B206i)==
 
==2.0i (B206i)==
  
Swept Volume
+
Swept Volume                 1985cc
Rating
+
Rating                       133 hp
Torque
+
Torque                        180/4,300 Nm/rpm
Top Speed
+
Top Speed                    200 Km/h
Engine Mangement System
+
Engine Mangement System      Bosch Motronic
+
 
+
1985cc
+
133 hp
+
180/4,300 Nm/rpm
+
200 Km/h
+
Bosch Motronic
+
  
 
==2.3i (B234i)==
 
==2.3i (B234i)==
  
Swept Volume
+
Swept Volume                   2,290cc
Rating
+
Rating                         150 hp
Torque
+
Torque                         210/4,300 Nm/rpm
Top Speed
+
Top Speed                     205 Km/h
Engine Mangement System
+
Engine Mangement System       Bosch Motronic
 
 
 
2,290cc
 
150 hp
 
210/4,300 Nm/rpm
 
205 Km/h
 
Bosch Motronic
 
 
 
==2.0 Turbo (B204L)==
 
==2.0 Turbo (B204L)==
  
Swept Volume
+
Swept Volume                   1985cc
Rating
+
Rating                         185 hp
Torque
+
Torque                        263/2,100 Nm/rpm
Top Speed
+
Top Speed                      240Km/h
Engine Mangement System
+
Engine Mangement System        Saab Trionic with Saab Direct Ignition (DI) Turbo with intercooler
+
 
+
1985cc
+
185 hp
+
263/2,100 Nm/rpm
+
240Km/h
+
Saab Trionic with Saab Direct Ignition (DI) Turbo with intercooler
+
  
 
==2.5i V6 (B258i)==
 
==2.5i V6 (B258i)==
  
Swept Volume
+
Swept Volume                   2,498cc
Rating
+
Rating                         170 hp
Torque
+
Torque                         227/4,200 Nm/rpm
Top Speed
+
Top Speed                     225Km/h
Engine Mangement System
+
Engine Mangement System       Bosch Motronic
 
 
 +
==4-Cylinder Engines==
  
2,498cc
+
[[File:4cyl_lump_large.gif|thumb|none|4-Cylinder Engine Illustration]]
170 hp
+
227/4,200 Nm/rpm
+
225Km/h
+
Bosch Motronic
+
  
=4-Cylinder Engiens=
+
===Engine Block===
==Engine Block==
+
 
All are water-cooled, four-cylinder, in-line engines with four valves per cylinder, twin overhead camshafts and two balance shafts incorporated in the sides of the block (the B206i engine has no balance shafts).
 
All are water-cooled, four-cylinder, in-line engines with four valves per cylinder, twin overhead camshafts and two balance shafts incorporated in the sides of the block (the B206i engine has no balance shafts).
  
Line 73: Line 48:
 
The swept volume of 2.0 litres (B206i B204L) and 2.3 litres (B234i) helps to develop high torque even at low engine speeds, which is of particular benefit in normal driving conditions. The balance shafts are designed to overcome vibration and the forces generated by the moving parts of the engine and at the same time reduce the level of unwanted engine noise.
 
The swept volume of 2.0 litres (B206i B204L) and 2.3 litres (B234i) helps to develop high torque even at low engine speeds, which is of particular benefit in normal driving conditions. The balance shafts are designed to overcome vibration and the forces generated by the moving parts of the engine and at the same time reduce the level of unwanted engine noise.
  
==Cylinder block==
+
===Cylinder block===
 
Incorporated in the sides are the balance shafts (not fitted to the B206i or the B258i), the inner journals of which run in aluminium bearing shells press-fitted in the block. These can be replaced without the need for any subsequent machining.
 
Incorporated in the sides are the balance shafts (not fitted to the B206i or the B258i), the inner journals of which run in aluminium bearing shells press-fitted in the block. These can be replaced without the need for any subsequent machining.
  
==Pistons==
+
===Pistons===
 
The pistons are made of light alloy and have grooves for two compression rings and one scraper ring.
 
The pistons are made of light alloy and have grooves for two compression rings and one scraper ring.
  
 
The top compression ring is flat and coated with chromium or molybdenum. The second compression ring, which is slightly wider than the top one, also has an oil-scraper function. The scraper ring itself is in three parts.
 
The top compression ring is flat and coated with chromium or molybdenum. The second compression ring, which is slightly wider than the top one, also has an oil-scraper function. The scraper ring itself is in three parts.
  
==Connecting rods==
+
===Connecting rods===
 
The connecting rods are forgings and incorporate bushes for the gudgeon-pins. The gudgeon-pin bushes and big-end bearing shells are replaceable.
 
The connecting rods are forgings and incorporate bushes for the gudgeon-pins. The gudgeon-pin bushes and big-end bearing shells are replaceable.
  
 
The gudgeon pins are of the fully-floating type, being free to turn in both piston and connecting rod. Axial movement of the pin is limited by circlips inside the piston boss.
 
The gudgeon pins are of the fully-floating type, being free to turn in both piston and connecting rod. Axial movement of the pin is limited by circlips inside the piston boss.
  
==Crankshaft assembly==
+
===Crankshaft assembly===
 
The crankshaft is a forging and has ground journals, which are surface-treated by induction hardening. This provides a hard surface finish which is highly resistant to wear. There are five main bearings, with the middle bearing also serving to locate the crankshaft axially. Lubrication is provided for through drilled oilways in the shaft. All main bearing shells are replaceable.
 
The crankshaft is a forging and has ground journals, which are surface-treated by induction hardening. This provides a hard surface finish which is highly resistant to wear. There are five main bearings, with the middle bearing also serving to locate the crankshaft axially. Lubrication is provided for through drilled oilways in the shaft. All main bearing shells are replaceable.
  
==Cylinder head==
+
===Cylinder head===
 
The cylinder head, a light-alloy precision casting, is bolted onto the block. The combustion chambers are hemispherical with the spark plug in the centre, and there are four valves per cylinder. This design improves the flow of gases in the cylinders, ensuring effective combustion of the fuel-air mixture and so higher efficiency.
 
The cylinder head, a light-alloy precision casting, is bolted onto the block. The combustion chambers are hemispherical with the spark plug in the centre, and there are four valves per cylinder. This design improves the flow of gases in the cylinders, ensuring effective combustion of the fuel-air mixture and so higher efficiency.
  
==Timing cover and end plate==
+
===Timing cover and end plate===
 
The timing cover and the end plate are both designed to match the shape of the cylinder block. The oil pump is mounted inside the timing cover. The timing cover and the end plate are both sealed against the block with flange sealant, part no. 93 21 795
 
The timing cover and the end plate are both designed to match the shape of the cylinder block. The oil pump is mounted inside the timing cover. The timing cover and the end plate are both sealed against the block with flange sealant, part no. 93 21 795
  
=V6 Engine=
+
==V6 Engine==
==Engine Block==
+
 
 +
[[File:6cyl_lump_large.gif|thumb|none|V6 Engine Illustration]]
 +
 
 +
===Engine Block===
 
The engine is a water-cooled unit with six cylinders arranged in a 54-degree V configuration, two camshafts per cylinder head and four valves per cylinder. This results in an extremely compact power unit. Engine capacity (swept volume) is 2.5 litres.
 
The engine is a water-cooled unit with six cylinders arranged in a 54-degree V configuration, two camshafts per cylinder head and four valves per cylinder. This results in an extremely compact power unit. Engine capacity (swept volume) is 2.5 litres.
  
Line 105: Line 83:
 
The heat exchanger has a dual function. It heats the oil when starting from cold and cools the oil when the engine has reached working temperature.
 
The heat exchanger has a dual function. It heats the oil when starting from cold and cools the oil when the engine has reached working temperature.
  
==Cylinder block==
+
===Cylinder block===
 
The block is a special one-piece casting with the cylinder bored in the block. Special oilways for the lubricating system are also drilled in the block.
 
The block is a special one-piece casting with the cylinder bored in the block. Special oilways for the lubricating system are also drilled in the block.
  
==Pistons==
+
===Pistons===
 
The pistons are made of light alloy and have grooves for two compression rings and one oil scraper ring.
 
The pistons are made of light alloy and have grooves for two compression rings and one oil scraper ring.
  
Line 115: Line 93:
 
The gudgeon pins are shrunk into the connecting rods and are consequently not of fully-floating type.
 
The gudgeon pins are shrunk into the connecting rods and are consequently not of fully-floating type.
  
==Connecting rods==
+
===Connecting rods===
 
All connecting rods are one-piece forgings with a fractural impression or nick at the big end where the connecting rod is "snapped" into two parts, one of which forms the bearing cap. The bearing caps are bolted to the connecting rods. Connecting rod and bearing cap are both marked with a "protuberance" to prevent them being assembled the wrong way round. The connecting rods are not numbered.
 
All connecting rods are one-piece forgings with a fractural impression or nick at the big end where the connecting rod is "snapped" into two parts, one of which forms the bearing cap. The bearing caps are bolted to the connecting rods. Connecting rod and bearing cap are both marked with a "protuberance" to prevent them being assembled the wrong way round. The connecting rods are not numbered.
  
==Crankshaft assembly==
+
===Crankshaft assembly===
 
The crankshaft has ground journals which are hardened by an induction hardening process. This provides a surface finish with hard-wearing properties.
 
The crankshaft has ground journals which are hardened by an induction hardening process. This provides a surface finish with hard-wearing properties.
  
Line 125: Line 103:
 
The perforated disc, which is part of the engine management system, is bolted to the crankshaft.
 
The perforated disc, which is part of the engine management system, is bolted to the crankshaft.
  
==Cylinder head==
+
===Cylinder head===
 
The engine has two cylinder heads, called the rear (cylinders 1,3,5) and the front (cylinders 2,4,6) cylinder heads. The cylinder heads are light alloy precision castings bolted to the cylinder block. The combustion chambers are hemispherical with four valves per cylinder and the spark plug in the centre. This design improves the flow of gases in the cylinders and also ensures effective combustion of the fuel-air mixture the engine runs at high efficiency.
 
The engine has two cylinder heads, called the rear (cylinders 1,3,5) and the front (cylinders 2,4,6) cylinder heads. The cylinder heads are light alloy precision castings bolted to the cylinder block. The combustion chambers are hemispherical with four valves per cylinder and the spark plug in the centre. This design improves the flow of gases in the cylinders and also ensures effective combustion of the fuel-air mixture the engine runs at high efficiency.

Latest revision as of 01:20, 4 February 2010

Engines

The NG 900 was produced with a choice of four powerplants. Three of these were 4-cylinder units that were developed from the ones used in the 9000 and there was the introduction of a new V6 unit that was sourced from GM. They were as follows.

2.0i (B206i)

Swept Volume                  1985cc
Rating                        133 hp
Torque                        180/4,300 Nm/rpm
Top Speed                     200 Km/h
Engine Mangement System       Bosch Motronic

2.3i (B234i)

Swept Volume                   2,290cc
Rating                         150 hp
Torque                         210/4,300 Nm/rpm
Top Speed                      205 Km/h
Engine Mangement System        Bosch Motronic

2.0 Turbo (B204L)

Swept Volume                   1985cc
Rating                         185 hp
Torque                         263/2,100 Nm/rpm
Top Speed                      240Km/h
Engine Mangement System        Saab Trionic with Saab Direct Ignition (DI) Turbo with intercooler

2.5i V6 (B258i)

Swept Volume                   2,498cc
Rating                         170 hp
Torque                         227/4,200 Nm/rpm
Top Speed                      225Km/h
Engine Mangement System        Bosch Motronic

4-Cylinder Engines

4-Cylinder Engine Illustration

Engine Block

All are water-cooled, four-cylinder, in-line engines with four valves per cylinder, twin overhead camshafts and two balance shafts incorporated in the sides of the block (the B206i engine has no balance shafts).

The engines have fuel injection and are of cross-flow type with the inlet valves on one side and the exhaust valves on the other.

The engine is transversely mounted and inclined forwards at an angle of 8°

The swept volume of 2.0 litres (B206i B204L) and 2.3 litres (B234i) helps to develop high torque even at low engine speeds, which is of particular benefit in normal driving conditions. The balance shafts are designed to overcome vibration and the forces generated by the moving parts of the engine and at the same time reduce the level of unwanted engine noise.

Cylinder block

Incorporated in the sides are the balance shafts (not fitted to the B206i or the B258i), the inner journals of which run in aluminium bearing shells press-fitted in the block. These can be replaced without the need for any subsequent machining.

Pistons

The pistons are made of light alloy and have grooves for two compression rings and one scraper ring.

The top compression ring is flat and coated with chromium or molybdenum. The second compression ring, which is slightly wider than the top one, also has an oil-scraper function. The scraper ring itself is in three parts.

Connecting rods

The connecting rods are forgings and incorporate bushes for the gudgeon-pins. The gudgeon-pin bushes and big-end bearing shells are replaceable.

The gudgeon pins are of the fully-floating type, being free to turn in both piston and connecting rod. Axial movement of the pin is limited by circlips inside the piston boss.

Crankshaft assembly

The crankshaft is a forging and has ground journals, which are surface-treated by induction hardening. This provides a hard surface finish which is highly resistant to wear. There are five main bearings, with the middle bearing also serving to locate the crankshaft axially. Lubrication is provided for through drilled oilways in the shaft. All main bearing shells are replaceable.

Cylinder head

The cylinder head, a light-alloy precision casting, is bolted onto the block. The combustion chambers are hemispherical with the spark plug in the centre, and there are four valves per cylinder. This design improves the flow of gases in the cylinders, ensuring effective combustion of the fuel-air mixture and so higher efficiency.

Timing cover and end plate

The timing cover and the end plate are both designed to match the shape of the cylinder block. The oil pump is mounted inside the timing cover. The timing cover and the end plate are both sealed against the block with flange sealant, part no. 93 21 795

V6 Engine

V6 Engine Illustration

Engine Block

The engine is a water-cooled unit with six cylinders arranged in a 54-degree V configuration, two camshafts per cylinder head and four valves per cylinder. This results in an extremely compact power unit. Engine capacity (swept volume) is 2.5 litres.

The engines are fuel injected and equipped with the Motronic engine management system.

The camshafts are driven by an internally-cogged belt. The engine has automatic purging of the air in the oilways supplying the oil to the tappets, an integral heat exchanger for the engine oil and a torque member which stabilizes the block round the main bearings.

The heat exchanger has a dual function. It heats the oil when starting from cold and cools the oil when the engine has reached working temperature.

Cylinder block

The block is a special one-piece casting with the cylinder bored in the block. Special oilways for the lubricating system are also drilled in the block.

Pistons

The pistons are made of light alloy and have grooves for two compression rings and one oil scraper ring.

The top compression ring is flat and coated with molybdenum, the lower compression ring, which is slightly wider than the top one, also has an oil-scraper function. The oil-scraper ring itself is in three parts.

The gudgeon pins are shrunk into the connecting rods and are consequently not of fully-floating type.

Connecting rods

All connecting rods are one-piece forgings with a fractural impression or nick at the big end where the connecting rod is "snapped" into two parts, one of which forms the bearing cap. The bearing caps are bolted to the connecting rods. Connecting rod and bearing cap are both marked with a "protuberance" to prevent them being assembled the wrong way round. The connecting rods are not numbered.

Crankshaft assembly

The crankshaft has ground journals which are hardened by an induction hardening process. This provides a surface finish with hard-wearing properties.

There are four main bearings. Lubrication is provided through drilled oilways in the crankshaft. All main bearings are replaceable. The No.2 and No.3 main bearings have no grooves in the bearing caps.

The perforated disc, which is part of the engine management system, is bolted to the crankshaft.

Cylinder head

The engine has two cylinder heads, called the rear (cylinders 1,3,5) and the front (cylinders 2,4,6) cylinder heads. The cylinder heads are light alloy precision castings bolted to the cylinder block. The combustion chambers are hemispherical with four valves per cylinder and the spark plug in the centre. This design improves the flow of gases in the cylinders and also ensures effective combustion of the fuel-air mixture the engine runs at high efficiency.