Handpumps

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Liquid Gold - Children in the Central African Republic pump clean water from underground. Photo: Marielle van Uitert.
Example: a treadle pump is promoted as capable of lifting water from 23 ft. at sea level, the graph indicates that at 8000 ft elevation a loss of 8.8 ft. of suction capacity will result. The pump used at this elevation is now capable of lifting water from 14 ft. Chart: Pacific Liquid & Air Systems.

Many different kinds of handpumps are frequently installed on hand-dug wells and boreholes in rural areas, including many drought-prone areas. They facilitate a contamination-free method to extract water.

Household-level handpumps, like the Rope pump or the Canzee pump, are relatively cheap options for households to abstract water from a depth of more than 7 m. The rope pump uses washers on a rope that lift up the water through a rising main. The rope is transported down into the well using a rotating wheel at the surface. When turning the wheel, the pump operator lifts the washers and with them the water from the well. The structure is completed with an apron around the pump, a pump supporting construction, and an outlet through which the water flows into a bucket or can. A Canzee pump has two PVC tubes (with differring diameters) are used - one inside the other - with non-returning valves on the bottom side. When lowering the inside tube, the water enters in from the outside tube. When lifting the inside tube, its bottom valve closes and the water is lifted from the well. At the same time, the bottom valve of the outer tube opens and water flows into the pump. When the inside tube is lowered again, the process is repeated.

Direct Action handpump

Direct action handpump mechanics. Drawing: WHO.

There are many different types of handpumps. However most of them are positive displacement pumps and have reciprocating pistons or plungers. There are suction pumps, low lift pumps, direct action pumps, intermediate life pumps, and high lift pumps. For details on these types, look them up in Technology notes: Handpumps (by WaterAid).

Direct action handpumps, for example, are usually made of PVC and other plastics, and are installed on boreholes of limited depth. A plunger is attached to the lower end of a pump rod, beneath the groundwater level. The user moves the pump rod in an up-and-down motion, using a T-bar handle. On the up-stroke, the plunger lifts water into the rising main, and replacement water is drawn into the cylinder through the foot valve. On the down- stroke, the foot valve closes, and water passes through a one-way valve in the plunger and is lifted on the next upstroke.

Because direct action handpumps have no mechanical advantage, such as the lever or fly-wheel of a deep-well handpump, direct action pumps can only be used to depths from which an individual can physically lift the column of water (about 12 m). However, the mechanical simplicity, low cost and lightweight construction makes these pumps well equipped to meet O&M objectives at the village level.

The pump is operated by moving a handle up and down. As the plunger is located underwater, no priming is needed. Adults, and even children, can pump the water, although if the water table is below 5 m, this may be difficult for children. The pump stand and site must be kept clean.

Direct action handpump:

  • Range of depth: 0–12 m.
  • Yield: 0.25–0.42 litres/s at 12 m depth.
  • Area of use: Rural and low-income periurban areas, where groundwater tables are within 12m of the surface.

Piston / Suction handpump

Lever Action handpump

Suitable conditions

Overall, it seems sensible that handpumps should be installed only when a viable sustainable handpump option has been shown to work in the area. Depending on pump standardization in country and depth to water table, it is preferable to choose simple technologies that do not need specialist parts and that are repairable locally. The rural poor prefer in any case to have cheaper, shorter-life technologies despite the need to maintain them more frequently.

The ranges over which water can be lifted are grouped in the following categories:

  • Suction pumps ____________ 0 - 7 metres
  • Low lift pumps ____________ 0 - 15 metres
  • Direct action pumps ________ 0 - 15 metres
  • Intermediate lift pumps _____ 0 - 25 metres
  • High lift pumps ____________ 0 - 45 metres, or more

Trademarks: Volanta, Kardia, Vergnet HPV60/ HPV100, Bluepump

Public Domain conventional lever action: Afridev, Zimbabwe Bush Pump, India Mark II, India Mark III, Indus, Kabul & Pamir pumps, Jibon, U3M pump, Walami

Construction, operations and maintenance

General advice on cement: A common cause of cracks in structures and linings (e.g. in tanks, dams, waterways, wells) is errors in mixing and applying the cement. First of all, it is important that only pure ingredients are used: clean water, clean sand, clean rocks. The materials have to be mixed very thoroughly. Secondly, the amount of water during mixing needs to minimal: the concrete or cement needs to be just workable, on the dry side even, and not fluid. Thirdly, it is essential that during curing the cement or concrete is kept moist at all times, for at least a week. Structures should be covered with plastic, large leaves or other materials during the curing period, and kept wet regularly.


Maintenance

Historically, handpump functionality has been negatively affected by numerous issues related to user operation & maintenance, which in turn has resulted in a large percentage of handpumps that do not work. However techniques to improve sustainability of handpump installations are possible. Centralized management of spare parts stock seems to be preferable to private sector supply chains for a variety of reasons related to the difficulties of sustaining handpump spares.

Maintenance of direct action pumps is relatively simple and can be taught to users or caretakers, sometimes within a few hours. For preventive maintenance, usually only one or two people are needed. Daily activities consist of checking the pump performance and the appearance of the water (if it is cloudy with silt, the borehole must be cleaned). Annually, the pump should be taken apart and checked. Small repairs include replacing worn cupseals and washers, straightening bent pump rods, and replacing corroded lock nuts. To carry out major repairs (e.g. a broken pump rod or rising main, cracks in the welding of metal parts), skilled help may be needed. O&M can be organized at community level, and since maintenance is relatively simple, good organization will result in a reliable service.

Potential problems

  • Worn washers, plungers and foot valve parts
  • Abrasion of the seal on the PVC cylinder and between the pump rod and rising main
  • Broken or damaged handles
  • The maximum lift is limited to about 12 m.
  • The force needed to pump the water may be too great for children, especially if the water table is below 5 m.

The VLOM concept

A handpump in Apowugo village, Ghana.
Photo: WaterAid / Jon Spaull

The term VLOM (Village Level Operation and Maintenance) was coined during the World Bank / UNDP Rural Water Supply Handpumps Project which, from 1981 - 91, considered the availability around the world at that time of handpump technologies and maintenance systems.

A series of performance tests were undertaken involving laboratory testing of 40 types of handpump and field performance monitoring of 2700 handpumps. It was concluded that centralised maintenance systems were the cause of many problems and that village level maintenance was desirable, but only feasible if the design of the pump made it possible.

Initially the VLOM concept was applied to the hardware, with the aim being to develop pumps which were designed to be:

  • Easily maintained by a village caretaker, requiring minimal skills and few tools
  • Manufactured in-country, primarily to ensure the availability of spare parts
  • Robust and reliable under field conditions
  • Cost effective

Subsequently, the VLOM concept was extended into software and organisational matters. Thus the "M" in "VLOM" has become "management of maintenance", for the success of a project was generally seen to be dependent on a strong emphasis on village management.

Therefore the following elements were added:

  • Choice by the community of when to service pumps
  • Choice by the community of who will service pumps
  • Direct payment by the community to the caretakers

The application of VLOM principles, when considering pump selection, often involves compromising one principle to take advantage of another. A handpump with a low rate of breakdown might be thought preferable to another with a higher rate. However, a handpump that breaks down monthly, but can be repaired in a few hours by a local caretaker, is preferable to one that breaks down once a year but requires a month for repairs to be completed and needs replacement parts to be imported and skilled technicians to be available.

The Afridev handpump was developed during the course of the project to embody all of the VLOM design principles. Production began in Kenya in 1985 and modifications were made after field trials in Kwale in Southern Kenya.

Improvements continue to be made. SKAT (Swiss Centre for Development Co-operation in Technology and Management) acts as a repository for the design drawings and specifications for the benefit of users and manufacturers of the handpumps.

Costs

Direct Action Handpump - Initial cost: From about US$100 to over $900 (1985 prices). Models suitable for village level O&M cost less than US$150.

Analysis of costs for handpumps: COMPARING SIMPLE PUMP TO OTHER PUMPS, by Simple Pump.

Field experiences

Tests were done on some handpumps that are documented in A Sustainable Technology: Research and Development During Water Supply and Sanitation Decade, by UNDP - World Bank Water and Sanitation Program. Refer to the following pages of this document:

Kenya--The Afridev Handpump p. 80-84.
India - The India Mark II and Mark III (VLOM) Handpumps p. 84-89.
Bangladesh - The Tara Direct-Action Pump p. 89 and 90.

References manuals, videos, and links

Acknowledgements