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In automotive usage, scavenging is the process of pushing exhausted gas-charge out of the cylinder and drawing in a fresh draught of air or fuel/air mixture for the next cycle. This process is essential in having a smooth-running internal combustion engine. If scavenging is incomplete, the following stroke will begin with a mix of exhaust fumes rather than clean air. This may be inadequate for proper combustion, leading to poor running conditions such as four-stroking. Scavenging is equally important for both two- and four-stroke engines. However it is more difficult to achieve in two-stroke engines, owing to the proximity, or even overlap, of their induction and exhaust strokes. Scavenging is also equally important to both petrol and diesel engines. The first engines deliberately designed to encourage scavenging were the Crossley 'scavenging engines' designed by Atkinson in the early 1890s. These were soon after Crossley's gas engines had adopted poppet valves rather than their earlier slide valves, which allowed more flexible control over valve timing events.〔 They had exceptionally late exhaust valve closing, over 30° after that of earlier engines, giving a long overlap period when both valves were open together. As these were gas engines they did not require much compression or a long period of valve closure during the compression stroke. To drive the waste gases through the cylinder during this period they assumed the 'vacuum piston' model of exhaust, where a slug of exhaust gas moving down an exhaust pipe was expected to suck further gasses after it. This model assumed that an exhaust pipe needed to be long enough to contain the gas plug for the entire duration of the stroke. As the Crossley engine was so slow-revving, this needed an exhaust pipe of a considerable long between the engine and its cast-iron 'pot' silencer.〔 Modifying the exhaust system, (i.e. modifying the exhaust gas velocity by changing exhaust tube diameters) can detract from the "ideal" scavenging effects, and reduce fuel efficiency and power if not properly planned out and executed. To increase scavenging potential, the entire path from intake to exhaust to tailpipe must be tuned in sync with each other. This will ensure that the air flow is never interrupted. The acceleration and deceleration of this exhaust gas is what will hinder the scavenging potential. For example, fast flowing heads and a tunnel ram intake combined with a poorly planned camshaft and exhaust system will cause the air to "slow down" and "speed up" throughout its journey, thus reducing its scavenging potential. So, to increase scavenging potential, the air must maintain a positive linear acceleration curve. There are three types of scavenging on the basis of the flow of air: * Direct, cross or loop scavenging * Reverse, using Schnuerle porting * Uniflow scavenging The term 'loop' scavenging has been applied confusingly to both cross scavenging and reverse scavenging. == Cross flow scavenging == This method was used for early crankcase compression two-stroke engines, as used for small motorcycles. In this method, the transfer port (or inlet port for the engine cylinder) and exhaust port are situated on the opposite sides of the engine cylinder, so that the burnt gases would be pushed out by the cross flow. The piston crown was usually shaped with a raised rib as a deflector piston, so that the fresh charge was intended to move upwards into a vertical loop, then downwards with the exhaust gas. In practice, the gasflow failed to follow the idealised pattern. The rib of the deflector piston also gave a poor shape for the combustion chamber, with long flame paths and excessive surface area. This method of scavenging has now been almost entirely replaced by loop scavenging. Although obsolete for piston-ported two-stroke engines, crossflow scavenging is now very common in four stroke engines, where their inlet and exhaust valves are mounted on opposite sides of the cylinder head. As the inlet and exhaust strokes of the four stroke cycle happen on different strokes of the piston, the flow is as two isolated single flows, rather than as an unstable loop. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Scavenging (automotive)」の詳細全文を読む スポンサード リンク
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