Key:pump_mechanism
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 pump_mechanism
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| Description |
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Specifies the pump device mechanism that directly moves gases or liquids 
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| Group: man made |
| Used on these elements |
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| Documented values: 13 |
| Useful combination |
Status: approved
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| Tools for this tag |
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As many kind of pump mechanisms exist to deal with a wide diversity of situations and constraints, this key is intended to define which mechanism is used on a particular pumping device.
You can use it in combination with man_made=pump (for liquids), man_made=windpump, man_made=water_well.
Mechanisms classification is taken directly out from Wikipedia that anyone can read to understand how each work.
It is similar to one used for compressors (a pump for gases)
| Key | Classification | Value | Comment |
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| pump_mechanism=* | Positive displacement | gear | Gear pump involves two or more wheels touching each other as to intake, effectively displace and then output processed fluid. It covers Lobe pump and Roots-type supercharger. |
| screw | Screw pump involve a screw - with a continuous cavity - to move the fluid along its axis. It covers Archimedes' screw if and only if carries a fluid. It is not a progressive cavity pump. | ||
| progressive_cavity | Progressive cavity pump is different from a screw pump as moving part is composed of discrete cavities moving around an axis. Cavities get the fluid during intake and displace it along the chamber to the output with a positive pressure. | ||
| diaphragm | Diaphragm pump is often a double chamber pump than sequentially fill and empty due to a diaphragm action driven by electric or pneumatic cylinders. | ||
| peristaltic | Peristaltic pump involves a flexible fluid chamber pushed by external roller which both intakes and outputs fluid outside the pump. It is most used in biomedical appliances which requires to let fluid untouched from external component. | ||
| rope | Rope pump is built from a piece of rope with disks or knots attached and matching the pump chamber diameter immersed in processed fluid. Moving the rope displaces the fluid out of pump chamber with a positive pressure. | ||
| rotary_vane | Rotary vane pump is composed of a rotary wheel with vanes pushing the fluid out of pump chamber. Vanes dimension can change as to match orregular pump chamber diameter or shape. This includes radial piston or flexible impeller. Such impellers don't transmit kinetic energy to processed fluid until you find a centrifugal pump (see below) | ||
| piston | Piston pump involves a reciprocating moving part that sequentially sucks fluid into the pump chamber and pushes it out. It covers Plunger pump and Beam engine. It is different than a Diaphragm pump as the diaphragm doesn't plunge into the fluid and doesn't move like a piston. | ||
| Velocity | centrifugal | Centrifugal pump involves a high speed rotating impeller transmitting kinetic energy to processed fluid. Radial pumps gets fluid direction changed often by 90° angle from intake while inline pump can exists as well. This speed may be converted latter into fluid pressure while it exits the pump in the discharge pipe. | |
| axial_flow | Axial flow pumps use a high speed rotating impeller directed in the axis of the processed fluid flow. Direction of the fluid remains unchanged and the speed may be converted latter into fluid pressure depending of the discharge pipe design. | ||
| eductor_jet | Eductor jet pumps may be used in water wells to push out water with the help of pressurised air injection. Most commonly known as injector this value only regards usage as pump. | ||
| Gravity | ram | (Hydraulic) ram uses high flowrate hydropower to deliver fluid at a higher pressure but lower flowrate than intake. Hydropower energy is converted in mechanical form with the help of gravity. | |
| siphon | Siphons may be used as pumps to deliver a small amount of fluid at a higher level than reservoir with the help of most part of the fluid as gravity driver in a closed cycle. It is quite special and not so common actually. | ||
| Impulse | pulser | Pulser pump requires a constant flow of water running into a closed chamber, mainly coming from upper reservoir. Intake is placed just at the surface of the reservoir and sucks air as it goes down to the chamber. Air gets trapped in the chamber and pushes a part of the water out at a higher level than input reservoir. | |
| airlift | Airlift pump takes advantage of floating air to raise level of processed fluid. Air is inserted in the outlet pipe and pushes fluid higher toward the output. |
This table is took from the approval proposal and waits to be replaced with Taglists once all values will be on this wiki.