- Hand pump
Hand pumps are manually operated pumps; they use human power and mechanical advantage to move fluids or air from one place to another. They are widely used in every country in the world for a variety of industrial, marine, irrigation and leisure activities. There are many different types of hand pump available, mainly operating on a piston, diaphragm or rotary vane principle with a check valve on the entry and exit ports to the chamber operating in opposing directions. Most hand pumps have plungers or reciprocating pistons, and are positive displacement.
- 1 Types
- 2 Hand pumps and access to clean water
- 3 Gallery
- 4 See also
- 5 References
- 6 External links
Suction and lift hand pumps
Suction and lift are important considerations when pumping fluids. Suction is the vertical distance between the fluid to be pumped and the center of the pump, while lift is the vertical distance between the pump and the delivery point. The depth from which a hand pump will suck is limited by atmospheric pressure to an operating depth of less than 7 metres. The height to which a hand pump will lift is governed by the ability of the pump and the operator to lift the weight in the delivery pipe. Thus the same pump and operator will be able to achieve a greater lift with a smaller diameter pipe than they could with a larger diameter pipe.
Water will always try to find its lowest level. Using this principle, very simple pumps with plastic or rubber bulb with flap valve at each end are used for emptying fuel or water cans into tanks. Once the bulb is full the fluid will flow without further effort from the higher to the lower container. Many hand pumps will allow the passage of fluid through them in the direction of flow and diaphragm pumps are particularly good at this. Thus where the levels are correct large volumes of liquid such as swimming pools can be emptied with very little effort and no expensive energy use.
Direct action hand pumps have a pumping rod that is moved up and down, directly by the user, discharging water. Direct action handpumps are easy to install and maintain but are limited to the maximum column of water a person can physically lift of up to 15 m.
Deep well hand pumps are used for high lifts of more than 15 m. The weight of the column of water is too great to be lifted directly and some form of mechanical advantage system such as a lever or flywheel is used. High lift pumps need to be stronger and sturdier to cope with the extra stresses. The installation, maintenance and repair of deep well hand pumps is more complicated than with other hand pumps.
A deep well hand pump theoretically has no limit to which it can extract water. In practice, the depth is limited by the physical power a human being can exert in lifting the column of water, which is around 80 m.
Diaphragm pumps have the advantage that they pump relatively lightly due to the lack of pulling rods and are corrosion resistant. Their disadvantage is that they need a specific length of tubing and high quality rubber diaphragms, which are costly and are relatively inefficient due to the extra work needed to deform the diaphragm.
Rubber diaphragms will eventually leak and need to be replaced. Because this is usually complicated and costly, diaphragm pumps operating in poor rural areas are often abandoned once the diaphragm wears out.
Progressive cavity pumps consist of a single helix rotor inserted into a double helix stator. As the rotor is turned, the voids in the stator are screwed upwards along the axis of rotation. Progressive cavity pumps can have complicated gearing mechanisms and are difficult for local pump technicians to maintain and repair.
A rope and washer pump is a type of progressive cavity hand pump.
Range of lift
The range of lift of different types of hand pumps is given below:
Type Range Suction pumps 0 – 7 meters Low lift pumps 0 – 15 meters Direct action pumps 0 – 15 meters Intermediate lift pumps 0 – 25 meters High lift pumps 0 – 45 meters, or more
Hand pumps and access to clean water
In November 2002, the United Nations Committee on Economic, Social and Cultural Rights asserted that access to clean, safe water goes beyond the classification of water as an economic commodity. The committee stressed the fundamental right of sufficient access to clean water for both domestic and personal use. “The human right to water is indispensable for leading a life in human dignity.”  With this in mind, manufacturers of water pumps, like those produced by GOAZ Development in Malaysia, have a wide range of potential customers: governments, non- governmental organizations, women’s groups, community groups and other organizations of various types interested to developing access to groundwater.
However, there is controversy surrounding the sustainability of hand pumps, and the long-term gains from investing in them. A number of difficulties are associated with the use of hand pumps: these include cost, hygiene, maintenance, availability of spare parts, responsibility of upkeep, community involvement, technology, organization and education. Hand pumps, battered by intense use and conditions in rural areas, have often fallen apart. In addition, unobtainable spare parts impede maintenance.
Village level operation and maintenance
VLOM, meaning Village Level Operation and Maintenance, is a term first used during the UNDP and World Bank Rural Water Supply Hand Pumps Project. This project lasted from 1981 to 1991, and studied the availability and maintenance of hand pump systems. 40 kinds of hand pumps were analyzed in laboratories, and the performance of 2700 hand pumps was analyzed in the field. The study established that centralized maintenance structure was a cause of many problems in hand pump programs, and that maintenance at the village level is best.
The VLOM concept was initially applied to hardware, with the following aims: the possibility of maintenance by village workers, having spare parts manufactured within the country to make sure spare parts are available, endurance in the field, and cost effectiveness. With time, more emphasis was placed on maintenance management. Thus, the “M” came to represent “management of maintenance.” Therefore, greater community choice of service, who will service, and financial accountability by the community to the caretakers of the pump have gained more importance within the VLOM concept.
The Swiss Centre for Development Co-operation in Technology and Management, SKAT, continues to work on design and support structure for hand pump development plans.
Hand pump development projects
An example of a Bank funded project that highlights many issues of hand pumps is the 1992 Mali Rural Supply Project. The project brought approximately 230 rural villages inclined towards periods of drought, and 228,000 people access to safe water. The project is notable in its attempt to bring responsibility for the upkeep of the pumps to the villages themselves. The complexity of the pumps is a fundamental problem for all programs of this kind, as well as the quality of the pumps given the heavy demands of a village. A 1994 study, also Bank funded, of the endurance of hand pumps in Africa showed that only 41 to 51 percent of hand pumps were still functioning. The Mali Rural Supply Project did positively affect the longevity of hand pumps by doing the following: establishing local depots of spare parts, training individuals to maintain pumps, scheduling inspections from officials of the project, forming local committees and recruiting volunteers.
However, the project’s affect on sanitation was impeded by several factors. One of the most important is the lack of awareness of contamination.
Much attention has been given to the benefits of the use of hand pumps in developing nations, as opposed to more traditional methods. In communities reliant on groundwater, through a borehole or well, the utilization of a bucket and rope system has hygienic issues. The bucket and rope system is not compatible with the use of a cover slab, which can prevent pollution of groundwater. In addition, unwashed hands can contaminate the bucket and rope. Hand pumps avoid these issues and are therefore preferable.
However, villagers did not stop using traditional means of gathering water during this project. This was especially true when rain provided villagers with shallow water sources. These shallow wells were often easier to access than the wells with hand pumps. When faced with the option of using near surface water or traveling to the hand pumps, many villagers chose the former.
In addition, animal contamination and the mixing of groundwater and surface water were factors in sub- par sanitation.
Another issue that faced the project was the fact that the pumps could only provide a maximum of 20 liters of water per person day, which required an unrealistic staggering of water retrieval. In addition, many depots withdrew support after the donated inventory ran out, the contracts given to consultants eventually closed, and maintenance was not kept up to a high standard.
Other projects, like the Hand Pump Program in Rural Plain of Gonaïves, still in the early stages, seem to understand this obstacle of maintenance. One of its stated goals is to “define the optimal level of community contribution to cover maintenance costs and ensure local buy in and accountability.” 
A June 2008 study, conducted by the World Bank, Review of Effectiveness of Rural Water Supply Schemes in India, showed that approximately 45 percent of rural piped water projects focused on breakdown maintenance instead of scheduled maintenance. In addition, about 20% were reported to be in “serious or somewhat serious neglect of maintenance.” 
Hand pump affordability in rural developing areas
Whether or not a project to use hand pumps in a developing country is an affordable alternative certainly depends on who or what organization pays the bill. However, the example of a 1992 Ethiopia aid project illustrates what the cost would be for the locals who benefit from the project. This example relates to isolated, rural communities in the rural South.
165 Afridevs hand pumps were imported from India. Each cost approximately $700USD, including clearing, transportation and installation. These pumps serve around 55 households each. At that time, the World Bank established that the average per capita income in Ethiopia was $120. A hand pump, first produced by researchers at the University of Waterloo and then refined at the University of Malaya, has been designed with local access to parts in mind. Materials readily available, like a rope covered in chicken fat or leather belt, can be used to ensure maintenance. GOAZ Development sells these pumps from $160 to $300. Therefore, 11% of one’s annual income would go towards accessing clean water. This is over twice as much as the 5% that the World Bank stated should be the maximum amount paid by a family.
A child drawing water from a hand pump, Oklahoma City, Oklahoma 1939.
A 1904 community hand pump surviving modern encroachment in 2010 on the middle of Main Street at La Russell, Missouri.
Hand-operated, water pump in Berlin
A rural handpump in Liberia.
A city handpump in Bruges, Belgium.
- ^ a b c d "Handpumps". WaterAid. http://www.wateraid.org/international/what_we_do/sustainable_technologies/technology_notes/2061.asp. Retrieved 2010-11-01.
- ^ a b "The PVC Handpump: International Development Research Centre". Idrc.ca. http://www.idrc.ca/en/ev-26970-201-1-DO_TOPIC.html. Retrieved 2010-11-01.
- ^ "Powered by Google Docs". Docs.google.com. http://docs.google.com/gview?a=v&q=cache:uq3Xv_98mpcJ:www.un.org/events/water/TheRighttoWater.pdf+United+Nations+right+of+water&hl=en&gl=ca&pid=bl&srcid=ADGEESi8CCrex7jDoQ-X1mTn3sgL1mxHzy1SH-_zWvJwWosNjlErCBeUfjcmhXb-XO_6v9sI7cIja92QFPOcl-O28FFip--L7D_D9_KtQ3PYQleMgyXkVuEa5LgSOTrJTw6wwXqacu6_&sig=AFQjCNE6SwFCTV4IBWRcLkfBtrPhcPG_0Q. Retrieved 2010-11-01.
- ^ a b c d e f g World Bank, Operations Evaluation Department:Sustaining Rural Water Systems:The Case of Mali, Autumn 1997, Retrieved on April 25, 2011
- ^ "Project - Inter-American Development Bank". Iadb.org. http://www.iadb.org/Projects/project.cfm?id=HA-T1109&lang=en. Retrieved 2010-11-01.
- ^ World Bank Group. "World Bank Document". google.com. http://google.com/search?q=cache:ckXd2b_LDmMJ:www-wds.worldbank.org/external/default/WDSContentServer/WDSP/IB/2008/07/23/000334955_20080723040732/Rendered/PDF/447930PP0P09411413B01PUBLIC10PAPER4.pdf+www-wds.worldbank.org/.../447930PP0P09411413B01PUBLIC10PAPER4.pdf&cd=2&hl=en&ct=clnk&gl=ca&client=firefox-a. Retrieved 2010-11-01.
- ^ a b "Handpumps". Handpump.org. http://www.handpump.org/handpump_option_in_afrika/index.htm. Retrieved 2010-11-01.
- All about Hydraulic Hand Pumps
- Info on sustainable handpumps
- Knowledge network for rural handpump technologies
- Info on a wide variety of hand pumps and their uses
- Handpump technical documents for NGOs.
- WaterAid: Handpumps
- The PVC Handpump
- International Year of Freshwater 2003, United Nations PDF
- Water & Sanitation Discussion Paper by John Reynolds
- Sustaining Rural Water Supplies PDF
- The Handpump Option in Africa
- The Mangochi Declaration, 17-21 March 1997, Malawi
- Hand Pump Program in Rural Plain of Gonaïves
- Operation and Maintenance. Expenditure and Cost Recovery World Bank Document
- Sustaining Rural. Water Systems: The Case of Mali
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