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Diesel cycle - The Diesel cycle is the combustion process of a type of internal combustion engine, in which the burning of the fuel is triggered by the heat generated in first compressing air in the piston cavity, into which is then injected the fuel - as opposed to it being ignited by a spark plug, as combustion is in the Otto cycle (four-stroke/petrol) engine. Diesel engines (Heat engines utilizing the Diesel cycle) are used in automobiles, power generation, diesel-electric locomotives, and submarines.
External combustion engine - An external combustion engine is a heat engine which burns its fuel to heat a separate working fluid which then in turn performs work. Examples include steam engines and Stirling engines.
Spark-ignition - The term spark-ignition is normally used to refer to internal combustion engines where the fuel-air mixture is ignited with a spark. The term contrasts with compression-ignition engines, where the heat from compression alone ignites the mixture.
Motor oil - Motor oil is a type of liquid oil used for lubrication by various kinds of motors, especially internal combustion engines. Other benefits from using motor oil include cooling by carrying heat away from moving engine parts and often include cleaning and corrosion inhibition in internal combustion engines.
Wikipedia: Carnot Heat Engine - Free encyclopedia article explaining the Carnot cycle, with emphasis on engines.
Los Alamos National Laboratory - Acoustic Stirling Heat Engine - Acoustic engine with no moving parts developed at the Los Alamos Laboratories. Includes animations, publications and insights.
Furnace Engineering - Australia. Specializes in heat processing equipment for metallurgical, engineering and industrial manufacturing applications. Range includes ovens and furnaces for melting, burn-off, heat treatment, and induction heating applications.
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Heat Transfer Engineering - Heat Transfer Engineering The Finite Element Method in Heat Transfer Analysis Heat transfer analysis is a problem of major significance in a vast range of industrial ...
Heat Transfer Engineering - Heat Transfer Engineering The Finite Element Method in Heat Transfer Analysis Heat transfer analysis is a problem of major significance in a vast range of industrial ...
Engineering Heat Transfer - Engineering Heat Transfer The Finite Element Method in Heat Transfer Analysis Heat transfer analysis is a problem of major significance in a vast range of industrial ...
Engineering Heat Transfer - Engineering Heat Transfer The Finite Element Method in Heat Transfer Analysis Heat transfer analysis is a problem of major significance in a vast range of industrial ...
Edition Engineering Heat Second Transfer - Edition Engineering Heat Second Transfer Internal Combustion Engines by Colin R. Ferguson, THE PRINCIPLES OF THERMODYNAMICS, FLUID MECHANICS, AND HEAT ...
Antimatter Engine - Antimatter Engine Shock Wave Engine Design by Helmut E. Weber, Written by an author who has devoted the past twenty-five years ...
Combustion Engine Internal Rotary - Combustion Engine Internal Rotary Mixture Formation in Internal Combustion Engines Description not available. Copyright (C) Muze Inc. 2005. For personal use only. All rights reserved. FOR BEST ...
Antimatter Engine - Antimatter Engine Shock Wave Engine Design by Helmut E. Weber, Written by an author who has devoted the past twenty-five years ...
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