Straight-five engine

The straight-five engine or inline-five engine is an internal combustion engine with five cylinders aligned in one row or plane, sharing a single engine block and crankcase. This configuration is a compromise between the smaller inline-four engine and the larger straight-6.

Historically, straight-five engines have been used rarely but continuously since their invention, though they have become increasingly popular in recent years. They are used in Audis, Volkswagens, Volvos, Land Rover TD5s and on some diesel-powered Mercedes-Benz models, as well as on the Acura 2.5 TL and Vigor. Recently, General Motors launched a straight-five engine for its popular compact trucks (Chevrolet Colorado, GMC Canyon, and the Isuzu i-350). It also powers the Hummer H3. The engine is part of its Atlas family that also includes four- and six-cylinder versions. Since the Volvo 850 was introduced in 1992, many Volvos make use of straight-five engines, often turbocharged. Most of Volvo's current model lineup are powered by inline-five engines (naturally aspirated-five, T5, and even D5) with exceptions marked otherwise (I6, T6, V8). Volvo engines recently found an application in the Ford Focus ST in which the Ford Focus shares its platform structure with the Volvo S40. Volkswagen has used straight-five engines in their Eurovan, and have recently developed a different straight-five engine which is used in the Jetta and Rabbit in North America. Audi's inline-five powered many of the company's bigger models in the 1980s, and was most notably used (in a turbocharged format) in the Audi Quattro racing car. Fiat also makes use of a five-cylinder engine (both petrol and diesel) in larger Fiat, Alfa Romeo and Lancia models.

Characteristics
The five-cylinder engine's advantage over a comparable four-cylinder engine is best understood by considering power strokes and their frequency. A four-stroke cycle engine fires its cylinders once every 720 degrees &mdash; the crankshaft makes two complete rotations. If we assume an even firing engine, we can divide 720 degrees by the number of cylinders to determine how often a power stroke occurs. For a four-cylinder engine, 720° ÷ 4 = 180° so there is a power stroke every 180 degrees. A V8 engine gets a power stroke every 90 degrees: 720° ÷ 8 = 90°.

A given power stroke can last no more than 180 degrees of crankshaft rotation, so the power strokes of a four-cylinder engine are sequential, with no overlap. At the end of one cylinder's power stroke another cylinder fires.

In a one-, two-, or three-cylinder engine there are times when no power stroke is occurring. In a three-cylinder engine a power stroke occurs every 240 degrees (720° ÷ 3 = 240°). Since a power stroke cannot last longer than 180 degrees, this means that a three-cylinder engine has 60 degrees of "silence" when no power stroke takes place.

A five-cylinder engine gets a power stroke every 144 degrees (720° ÷ 5 = 144°). Since each power stroke lasts 180 degrees, this means that a power stroke is always in effect. Because of uneven levels of torque during the expansion strokes divided among the five cylinders, there is increased secondary-order vibrations. At higher engine speeds, there is an uneven third-order vibration from the crankshaft which occurs every 144 degrees. Because the power strokes have some overlap, a five-cylinder engine may run more smoothly than a non-overlapping four-cylinder engine, but only at limited mid-range speeds where second and third-order vibrations are lower.

Every cylinder added beyond five increases the overlap of firing strokes and makes for less primary order vibration. An inline-six gets a power stroke every 120 degrees. So there is more overlap (180° - 120° = 60°) than in a five-cylinder engine (180° - 144° = 36°). However, this increase in smoothness of a six-cylinder engine over a five-cylinder engine is not as pronounced as that of a five-cylinder engine over a four-cylinder engine. The inline-five loses less power to friction as compared to an inline-six. It also uses fewer parts, and it is physically shorter, so it requires less room in the engine bay, allowing for transverse mounting.

A five-cylinder engine is longer and more expensive to manufacture than a comparable four-cylinder engine, but some manufacturers feel these costs are outweighed by its greater capacity in a smaller space than a six-cylinder.

From the standpoint of driving experience, five-cylinder engines are noted for combining the best aspects of four and six cylinder engines. They generate more power and torque than four cylinder engines, while maintaining the fuel economy and "pep" of smaller four cylinder engines. Five cylinder turbos have been used on more than one occasion in sport and racing applications for their balance of performance qualities. The Volvo S60 R (racing edition) has a 2.5 litre turbocharged inline five-cylinder engine which is capable of generating 300 brake horsepower (224 kW) and 295 lbf·ft (400 N·m) of torque across a large amount of its rpm ranges.

A disadvantage of a straight-five over a straight-six engine is that a straight-five engine is not inherently balanced. A straight-five design has free moments (vibrations) of the first and second order, while a straight-six has zero free moments. This means that no additional balance shafts are needed in a straight-six. By comparison an inline-four engine has no free moments of the first or second order, but it does have a large free force of the second order which contributes to the vibration found in unbalanced straight-four designs.

The use of straight-five petrol engines in mass production cars only became truly viable with the advent of reliable fuel injection. A five-cylinder engine using a carburetor fuel system has an unavoidable problem in that the length of the inlet manifold between the carburetor varies too greatly between cylinders at the ends of the engine and those nearer the carburetor for reliable and consistent fuel delivery. Using multiple carburetors (two or three) always results in one carburetor feeding more cylinders than the other which also produces running and tuning problems. In theory individual carburetors could be used for each cylinder but this approach is expensive and still brings with it the attendant difficulties in balancing the multiple carbs. Multi-point fuel injection circumvents all the above problems by feeding each cylinder individually from a central, single pump. This fueling issue was never present in diesel engines which used direct injection from the very start which is why large five-cylinder diesels were commonly seen decades before the type's adoption for automotive use,.

Automobile use
The smallest production straight-five was found on the 1981 Audi 100, with 1921 cc of displacement. Audi used straight-five engines in many of their cars between 1977 and the early 1990s, and started using them again today along with VW. Mercedes used five cylinder configuration for their diesels in the 1970s all the way to the 2000s. The GM Atlas L5R 3700 is the largest at 3,654 cc. Currently Volvo Cars uses the straight five cylinder engine as their mainstay engine in every vehicle in the lineup. All of the inline five engines used by Volvo and Ford are built at the Volvo Skövde engine plant in Skövde, Sweden.

The Audi S-5, 2226 cc, 4v/cyl, was also used on the Italdesign Aztec. It could produce 200 bhp (149 kW; 203 PS) at 6,200 rpm.