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The cycle is closed by the exhaust (4-0 and colored blue) stroke, characterized by isochoric cooling and isobaric compression processes. Temperature-Entropy diagram. An Otto cycle is an idealized thermodynamic cycle that describes the functioning of a typical spark ignition piston engine. It is the thermodynamic cycle most commonly found in ...
This engine used four cycles in its creation of power. It is known now as the Otto Cycle engine. This is the same engine that was first attempted in 1862. Otto turned his attention to the 4-stroke cycle largely due to the efforts of Franz Rings and Herman Schumm, brought into the company by Gottlieb Daimler. [7]
Otto's atmospheric engine Otto's 1876 four cycle engine Diagram of Otto's 1876 four cycle engine. Nicolaus August Otto (10 June 1832 – 26 January 1891) was a German engineer who successfully developed the compressed charge internal combustion engine which ran on petroleum gas and led to the modern internal combustion engine.
The resulting cycle, which closely resembles the actual operating conditions, is the Otto cycle. During normal operation of the engine, as the air/fuel mixture is being compressed, an electric spark is created to ignite the mixture. At low rpm this occurs close to TDC (Top Dead Centre).
The Otto cycle is the most common cycle for most cars' internal combustion engines that use gasoline as a fuel. It consists of the same major steps as described for the four-stroke engine: Intake, compression, ignition, expansion and exhaust.
1876: The first functional Otto cycle engine – called the Otto Silent Engine – is built by Nicholas Otto, Franz Rings and Herman Schumm at the German company Deutz-AG-Gasmotorenfabrik. The engine compressed the air/fuel mixture before combustion, unlike the other atmospheric engines of the time.
Otto cycle: automobiles The Otto cycle is the name for the cycle used in spark-ignition internal combustion engines such as gasoline and hydrogen fuelled automobile engines. Its theoretical efficiency depends on the compression ratio r of the engine and the specific heat ratio γ of the gas in the combustion chamber.
The Otto cycle can serve as a template for other reciprocating cycles. Quantum Otto cycle shown in the Entropy plane where the energy entropy and the Von Neumann entropy are displayed. is the internal frequency of the device and is controlled externally. It mimics the inverse volume in the Otto cycle. The red and blue lines are the hot and cold ...