Reciprocating engine

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Internal combustion piston engine Components of a typical, four stroke cycle, internal combustion piston engine. E - Exhaust camshaft I - Intake camshaft S - Spark plug V - Valves P - Piston R - Connecting rod C - Crankshaft W - Water jacket for coolant flow.
Internal combustion piston engine
Components of a typical, four stroke cycle, internal combustion piston engine.
E - Exhaust camshaft
I - Intake camshaft
S - Spark plug
V - Valves
P - Piston
R - Connecting rod
C - Crankshaft
W - Water jacket for coolant flow.

A reciprocating engine, also often known as a piston engine, is a heat engine that uses one or more pistons to convert pressure into a rotating motion. This article describes the common features of all types.

Contents

There may be one or more pistons. Each piston is inside a cylinder, into which a gas is introduced, either already hot and under pressure (steam engine), or heated inside the cylinder either by ignition of a fuel air mixture (internal combustion engine) or by contact with a hot heat exchanger in the cylinder (stirling engine). The hot gases expand, pushing the piston to the bottom of the cylinder. The piston is returned to the cylinder top (Top Dead Centre) either by a flywheel or the power from other pistons connected to the same shaft. In most types the expanded or "exhausted" gases are removed from the cylinder by this stroke. The exception is the Stirling engine, which repeatedly heats and cools the same sealed quantity of gas.

In some designs the piston may be powered in both directions in the cylinder in which case it is said to be double acting.

Steam engine A labeled schematic diagram of a typical single cylinder, simple expansion, double-acting high pressure steam engine. Power takeoff from the engine is by way of a belt. 1 - Piston 2 - Piston rod 3 - Crosshead bearing 4 - Connecting rod 5 - Crank 6 - Eccentric valve motion 7 - Flywheel 8 - Sliding valve 9 - Centrifugal governor.
Steam engine
A labeled schematic diagram of a typical single cylinder, simple expansion, double-acting high pressure steam engine. Power takeoff from the engine is by way of a belt.
1 - Piston
2 - Piston rod
3 - Crosshead bearing
4 - Connecting rod
5 - Crank
6 - Eccentric valve motion
7 - Flywheel
8 - Sliding valve
9 - Centrifugal governor.

In all types the linear movement of the piston is converted to a rotating movement via a connecting rod and a crankshaft or by a swashplate. A flywheel is often used to ensure smooth rotation. The more cylinders a reciprocating engine has, the more vibration-free (smoothly) it can run also the higher the combined piston displacement volume it has the more power it is capable of producing.

It is common for such engines to be classified by the number and alignment of cylinders and the total volume of displacement of gas by the pistons moving in the cylinders usually measured in cubic centimeters (cc). For example for internal combustion engines, single and two-cylinder designs are common in smaller vehicles such as motorcycles, while automobiles typically have between four and eight, and locomotives, and ships may have a dozen cylinders or more. Cylinder capacities may range from 10cc or less in model engines up to several thousand cc in ships' engines.

The compression ratio is a measure of the performance in an internal-combustion engine or a Stirling Engine. It is the ratio between the volume of the cylinder, when the piston is at the bottom of its stroke, and the volume when the piston is at the top of its stroke.

Cylinders may be aligned in line, in a V configuration, horizontally opposite each other , or radially around the crankshaft. Opposed piston engines put 2 pistons working at opposite ends of the same cylinder and this has been extended into triangular arrangements such as the Napier Deltic. Some designs have set the cylinders in motion around the shaft, see the Rotary engine.

In steam engines and internal combustion engines valves are required to allow the entry and exit of gasses at the correct time in the piston's cycle. These are worked by cams or cranks driven by the shaft of the engine. Early designs used the D slide valve but this has been largely superseded by Piston valve or Poppet valve designs.

Internal combustion engines operate through a sequence of strokes which admit and remove gases to and from the cylinder. These operations are repeated cyclically and an engine is said to be 2-stroke, 4-stroke or 6-stroke depending on the number of strokes it takes to complete a cycle.

In some steam engines the cylinders may be of varying size with the smallest bore cylinder working the highest pressure steam. This is then fed through one or more, increasingly larger bore cylinders successively, to extract power from the steam at increasingly lower pressures. These engines are called Compound engines.

Reciprocating engines that are powered by compressed air, steam or other hot gases are still used in some applications such as to drive many modern torpedoes or as pollution free motive power.

The Spanish designed Aircar uses compressed air stored in a cylinder to drive a reciprocating engine in a pollution free urban vehicle. [1]

In torpedoes the gas, like that produced by high test peroxide or Otto fuel II, is pressurised without the need of combustion and therefore oxygen. This allows propulsion under water for considerable periods of time and over significant distances. e.g. see Mark 46 torpedo.

In most applications of steam power today, the piston engine has been replaced by the more efficient steam turbine.

The earliest known example of rotary to reciprocating motion is a waterwheel-powered pump engineered by Al-Jazari in the 13th century.[2] The rotary motion of the waterwheel was converted into a reciprocating action to drive a pair of piston pumps.

The reciprocating engine developed during the 18th century, first as the atmospheric engine then later as the steam engine. These were followed by the Stirling engine and internal combustion engine in the 19th century. Today the most common form of reciprocating engine is the internal combustion engine running on the combustion of petrol, diesel or natural gas and used to power motor vehicles.

One of the most advanced reciprocating engines ever made was the 28-cylinder, 3,500 hp (2610 kW) Pratt & Whitney R-4360 "Wasp Major" radial engine which powered the last generation of large piston-engined planes before the jet engine and turboprop took over from 1944 onward.

  1. ^ The Aircar manufactured by MDI SA . Accessed April 2007
  2. ^ Ahmad Y Hassan. The Origin of the Suction Pump - Al-Jazari 1206 A.D.

Stirling Engine Rhombic Drive Beta Stirling Engine Design Pink - Hot cylinder wall, Dark grey - Cold cylinder wall, Green - Displacer piston, Dark blue - Power piston, Light blue - Flywheels
Stirling Engine
Rhombic Drive Beta Stirling Engine Design
Pink - Hot cylinder wall, Dark grey - Cold cylinder wall, Green - Displacer piston, Dark blue - Power piston, Light blue - Flywheels
v  d  e
Heat engine types/configurations using thermodynamic cycles (power cycles)
Stroke number and stroke parting Crower six stroke · Four-stroke cycle · One-stroke cycle · Split cycle engine  · Six stroke engine · Two-stroke cycle
Different work volume types
(incl. pistonless rotary engine)		 Britalus Rotary Engine · Combustion chamber · Controlled Combustion Engine · Jet engine · Orbital engine · Piston engine · Quasiturbine · Rocket engine · Swing-piston engine · Toroidal engine · Trochilic engine · Tschudi engine · Twingle engine · Wankel engine
Different work volume ports
and main forms of valves		 Cylinder head porting · D slide valve · Four-stroke cycle engine valves · Manifold · Multi-valve · Piston valve · Poppet valve · Rocket engine nozzles · Sleeve valve
Different pistons layouts Bourke engine · Delta engine · Double acting/differential cylinder · Opposed piston engine · Radial engine · Rotary engine · Single cylinder engine · Stelzer engine · Straight engine
Different main rotational motion
mechanisms or arc to (or even
almost) pistons back-and-forth.		 Cam · Connecting rod · Coomber Rotary Engine [1] · Crank substitute engine [2] · Crankshaft · Evans linkage [3] · Parallel motion · Peaucellier-Lipkin linkage · Piston rod · QRMC Stirling/HydraLink [4] · Revolving cylinder engine · Rhombic drive · Scotch yoke · Sector straight-line linkage [5] · Swashplate · Swashplate engine · Watt's linkage
One-way stop-and-go like rotational
motion mechanisms to rotation.		 Toroidal engine · Trochilic engine
Retrieved from "http://en.wikipedia.org/wiki/Reciprocating_engine"
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