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=== Simple engine === In a simple engine, or "single expansion engine", the charge of steam passes through the entire expansion process in an individual cylinder. A simple engine may have one or more individual cylinders.<ref>Basic Mechanical Engineering by Mohan Sen p. 266</ref> It is then exhausted directly into the atmosphere or into a condenser. As steam expands in passing through a high-pressure engine, its temperature drops because no heat is being added to the system; this is known as [[adiabatic process|adiabatic expansion]] and results in steam entering the cylinder at high temperature and leaving at lower temperature. This causes a cycle of heating and cooling of the cylinder with every stroke, which is a source of inefficiency.{{sfn|Hunter|1985|p=445}} {{anchor|High pressure cylinder}} {{anchor|Low pressure cylinder}} <!--''High pressure cylinder'' and ''Low pressure cylinder'' both redirect here, hence the bolding of these terms--> The dominant efficiency loss in reciprocating steam engines is cylinder condensation and re-evaporation. The steam cylinder and adjacent metal parts/ports operate at a temperature about halfway between the steam admission saturation temperature and the saturation temperature corresponding to the exhaust pressure. As high-pressure steam is admitted into the working cylinder, much of the high-temperature steam is condensed as water droplets onto the metal surfaces, significantly reducing the steam available for expansive work. When the expanding steam reaches low pressure (especially during the exhaust stroke), the previously deposited water droplets that had just been formed within the cylinder/ports now boil away (re-evaporation) and this steam does no further work in the cylinder.{{Citation needed|date=February 2020}} There are practical limits on the expansion ratio of a steam engine cylinder, as increasing cylinder surface area tends to exacerbate the cylinder condensation and re-evaporation issues. This negates the theoretical advantages associated with a high ratio of expansion in an individual cylinder.<ref>{{Cite web|title=Stirling {{!}} Internal Combustion Engine {{!}} Cylinder (Engine) {{!}} Free 30-day Trial|url=https://www.scribd.com/document/36719088/Stirling|website=Scribd|language=en|access-date=2020-05-21}}</ref>
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