Airlift pump

Pump using density difference due to injected air in the liquid

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Diagram of an airlift pump — An airlift pump, powered by compressed air, raises fluid by entraining gas to reduce its density.
1. air supply
2. liquid supply
3. air inlet port
4. air supply line
5. air port
6. air outlet
7. fluid intake
8. riser tube
9. air liquid mixture
10. pump outlet
L: liquid, usually wastewater
LL: liquid level
V: Vessel
G: Gravel or solids.

An airlift pump is a pump that has low suction and moderate discharge of liquid and entrained solids. The pump injects compressed air at the bottom of the discharge pipe which is immersed in the liquid. The compressed air mixes with the liquid causing the air-water mixture to be less dense than the rest of the liquid around it and therefore is displaced upwards through the discharge pipe by the surrounding liquid of higher density. Solids may be entrained in the flow and if small enough to fit through the pipe, will be discharged with the rest of the flow at a shallower depth or above the surface. Airlift pumps are widely used in aquaculture to pump, circulate and aerate water in closed, recirculating systems and ponds. Other applications include dredging, underwater archaeology, salvage operations and collection of scientific specimens.

Principle

The only energy required is provided by compressed air.^[1] This air is usually compressed by a compressor or a blower. The air is injected in the lower part of a pipe that transports a liquid. By buoyancy the air, which has a lower density than the liquid, rises quickly. By fluid pressure, the liquid is taken in the ascendant air flow and moves in the same direction as the air. The calculation of the volume flow of the liquid is possible thanks to the physics of two-phase flow.

Use

Airlift pumps are often used in deep dirty wells where sand would quickly abrade mechanical parts. (The compressor is on the surface and no mechanical parts are needed in the well). However airlift wells must be much deeper than the water table to allow for submergence. Air is generally pumped at least as deep under the water as the water is to be lifted. (If the water table is 50 ft below, the air should be pumped 100 feet deep). It is also sometimes used in part of the process on a wastewater treatment plant if a small head is required (typically around 1 foot head).
Airlifts are used to collect fauna samples from sediment.^[2] Airlifts can oversample zooplankton and meiofauna but undersample animals that exhibit an escape response.^[2]
In an aquarium an airlift pump is sometimes used to pump water to a filter.
In a coffee percolator the airlift principle is used to circulate the coffee.

Inventor

The first airlift pump is considered to be invented by the German engineer Carl Emanuel Löscher [de] in 1797.

Advantages and disadvantages

Advantages

The pump is very reliable. The very simple principle is a clear advantage. Only air with a higher pressure than the liquid is required.
The liquid is not in contact with any mechanical elements. Therefore, neither the pump can be abraded (which is important for sandwater wells), nor the contents in the pipe (which is important for archeological research in the sea).
Act as a water aerator and can in some configurations lift stagnant bottom water to the surface (of water tanks).
Since there are no restrictive pump parts, solids up to 70% of the pipe diameter can be reliably pumped.

Disadvantages

Cost: while in some specific cases the operational cost can be manageable, most of the time the quantity of compressed air, and thus the energy required, is high compared to the liquid flow produced.^[3]^[4]
Conventional airlift pumps have a flow rate that is very limited. The pump is either on or off. It is very difficult to get a wide range of proportional flow control by varying the volume of compressed air. This is a dramatic disadvantage in some parts of a small wastewater treatment plant, such as the aerator.^[5]
the suction is limited.
this pumping system is suitable only if the head is relatively low. If one wants to obtain a high head, one has to choose a conventional pumping system.
because of the principle, air (oxygen) dissolves in the liquid. In certain cases, this can be problematic, as, for example, in a waste water treatment plant, before an anaerobic basin.

Design improvements

Diagram of a geyser pump — A geyser pump, an improved airlift pump, powered by compressed air, raises fluid by forcing rising bubbles to displace fluid.
50. air supply
52. air inlet port
58. liquid supply
60,62. air supply lines
64. upper end of air tank 86
66,82. air ports
70. upper air inlet of u-shaped elbow 74
76 air outlet
84. fluid intake
65. riser tube
88. displaced liquid
90. pump outlet
L: liquid, usually wastewater
LL: liquid level
VVV: vessel
G: gravel or solids

A recent (2007) variant called the "geyser pump" can pump with greater suction and less air. It also pumps proportionally to the air flow, permitting use in processes that require varying controlled flows. It arranges to store up the air, and release it in large bubbles that seal to the lift pipe, raising slugs of fluid.^[6]

References

^ "Water lifting devices". Food and Agriculture Organization (FAO) of the United Nations. Retrieved 17 April 2021.
^ ^a ^b Cahoon, LB; Lindquist, DG; Clavijo, IE; Tronzo, CR (1992). "Sampling small invertebrates at the sediment-water interface". In: Cahoon, LB. (Ed.) Proceedings of the American Academy of Underwater Sciences Twelfth Annual Scientific Diving Symposium "Diving for Science 1992". Held September 24–27, 1992 at the University of North Carolina at Wilmington, Wilmington, NC. American Academy of Underwater Sciences. Archived from the original on July 5, 2013. Retrieved 2013-04-05.{{cite journal}}: CS1 maint: unfit URL (link)
^ "Air quantity calculation" (PDF). Archived from the original (PDF) on 2006-10-22. (1.86 MB)
^ Airlift basic calculation Archived 2011-07-07 at the Wayback Machine
^ New Pump Technology May Improve Small Flows, WVU NCSFC Clearinghouse Archived 2010-12-02 at the Wayback Machine Accessed 2011-3-21
^ Patent Application number: 11/654,448 Archived 2014-10-20 at the Wayback Machine, January 17, 2007, Inventor: Masao Kondo

Sources

"Airlift calculation by Sanitaire (pdf document)" (PDF). sanitaire.com. 2012-01-05. Archived from the original on 2012-01-05. Retrieved 2022-06-25.{{cite web}}: CS1 maint: unfit URL (link)
Recovered airlift_basic_calculation.xls via Waybackmachine. Mirrored at filedropper dot com /airliftbasiccalculation.