Engineering:Volvo B30 engine

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Volvo B30
1975 Volvo 164E hood open.jpg
Overview
ManufacturerVolvo
Production1969–1975
Layout
ConfigurationInline-6
Displacement3.0 L; 181.8 cu in (2,979 cc)
Cylinder bore88.9 mm (3.5 in)
Piston stroke80 mm (3.15 in)
Block materialCast iron
Head materialCast iron
ValvetrainOHV
Compression ratio8.7:1, 9.3:1, 10.0:1
RPM range
Idle speed900 rpm[1]
Combustion
Fuel system
ManagementBosch D-Jetronic
Fuel typePetrol
Oil systemWet sump
Cooling systemWater-cooled
Output
Power output
  • 120 hp (89.5 kW) @ 5000 (min)
  • 175 hp (130.5 kW) @ 5800 (max)
Torque output
  • 142 lb⋅ft (193 N⋅m) @ 3000 (min)
  • 178 lb⋅ft (241 N⋅m) @ 2500 (max)

The B30 is an inline-six automotive petrol engine produced by Volvo starting in 1968. It was used primarily in the Volvo 164 sedan from 1969 through 1975. The engine also appeared in military, marine, industrial, agricultural, and powercraft applications.

History

In March 1958 Volvo launched Project 358 to design a new large model with Chief Designer Jan Wilsgaard taking the lead.[2] The original plan for this car was to use the V8 engine that had been developed for the Volvo Philip concept car of 1952. That engine, which was later called the B36, was rejected in favour of a new inline six. The engine for Project 358 was developed by adding two cylinders to the existing B18, resulting in a six-cylinder engine with a displacement of 2.7 litres.[3][4] Project B358 did not go into production, but most of the early work done on it was revived when development began on the 164, including the six cylinder engine.

Bore and stroke for the 164's engine were based on the larger B20 inline four, resulting in an engine displacing 3.0 litres. Due to their common heritage, many components are shared between the B20 and B30, including pistons, connecting rods, valves and valve-train parts.[5]

The B30A was used in the Marcos GT from 1969 to 1972[6] and the Volvo C303 from 1974 to 1984. The B30 from the 164 was also used in the 1970 Volvo GTZ 3000 concept car.

Marine application versions of the B30 were sold by Volvo's Penta division. These engines carried designations AQ 165A and AQ 170A, B, or C. They were equipped with three down-draught carburettors.[7] and P type camshaft.

Technical detail

Like the B20 that it was developed from, the B30 has a cast iron block and cylinder head. The single camshaft is in the block, and operates the two overhead valves per cylinder through pushrods and rocker arms.

Cylinder bore and piston stroke is 88.9 mm × 80 mm (3.50 in × 3.15 in), giving a total displacement of 3.0 L; 181.8 cu in (2,979 cc). The B30/B30A version used twin 175CD2SE constant-depression Zenith-Stromberg carburettors.[8] Both the B30E and B30F used the D-Jetronic fuel injection system from Bosch.

There are three major variations of this engine:[1]

Engine Year Induction Power Torque Camshaft Compression Notes
B30A 1969 2 Zenith-Stromberg carburettor
175-CD2-SE
145 hp (108.1 kW)
@ 5500 rpm
163 lb⋅ft (221 N⋅m)
@ 3000 rpm
C 9.3:1 Originally called the B30, this version was renamed B30A with the introduction of the B30E and B30F.
1970
1971
1972 145 hp (108.1 kW)
@ 5000 rpm
1972 120 hp (89.5 kW)
@ 5000 rpm
142 lb⋅ft (193 N⋅m)
@ 3000 rpm
8.7:1 Low-compression version built for the US market.
1975-84 125 hp (93.2 kW)
@ 4250 rpm
162 lb⋅ft (220 N⋅m)
@ 2800 rpm
9.3:1 Volvo C303/C304/C306 civilian versions
117 hp (87.2 kW)
@ 4000 rpm (1)
152 lb⋅ft (206 N⋅m)
@ 2500 rpm (1)
A Volvo C303/C304/C306 military versions
B30E (2) 1972 Bosch D-Jetronic fuel injection 175 hp (130.5 kW)
@ 5800 rpm
178 lb⋅ft (241 N⋅m)
@ 2500 rpm
C 10.0:1
1973
1974
1975
B30F (2) 1972-73 138 hp (102.9 kW)
@ 5500 rpm
154 lb⋅ft (209 N⋅m)
@ 3500 rpm
C 8.7:1 Developed for lower emissions.
1974 145 hp (108.1 kW)
@ 5500 rpm
160 lb⋅ft (217 N⋅m)
@ 2500 rpm
1975 130 hp (96.9 kW)
@ 5500 rpm
150 lb⋅ft (203 N⋅m)
@ 3500 rpm
Notes:
(1) Outputs lower than civilian versions due to use of A-camshaft.
(2) The B30E and B30F versions featured larger valves and intake/exhaust ports.

In 1974 the number of bolts holding the flywheel increased from 6 to 8 and the size of the connecting rods was increased.

See also

References

Further reading