Elevated steel reservoir

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Elevated steel reservoir in Uganda. Photo: Ugandan Water Project.

An elevated steel reservoir stores clean water in a steel tank on a raised stand or tower. The elevation of the tank provides the water pressure to all points in the pressure zone of the distribution system. Tanks may be cylindrical, rectangular or any other convenient shape. For family use, the tank can be made of an old oil drum (duly coated), and the tower of bamboo. For communal needs, elevated steel tanks are often constructed from factory-made galvanized steel elements bolted or welded together. However, even with galvanization, steel tanks are generally more sensitive to corrosion than concrete reservoirs. On the other hand, steel tanks can be built faster and the cost of transporting the material is generally lower, especially when concrete aggregates are not locally produced.

Several pipes are connected to the tank, including ones for inlet, outlet, overflow and washout, and a screened vent hole or pipe maintains atmospheric pressure in the tank. There is also an entryway in the cover of the reservoir to allow the reservoir to be inspected. The entryway is normally kept closed with a lid. If an electric pump is used to pump water into the reservoir, the water level in the reservoir can be regulated by sensor electrodes in the tank. Alternatively, a float valve may be used to cut off the inflow when the maximum level has been reached.

The tanks may be placed on steel, wooden or reinforced-concrete towers, and special attention must be given to the foundation structure. Big elevated steel tanks are typically used by major water users, such as agricultural enterprises and communities.

Construction, operations and maintenance

Elevated steel reservoir diagram.
Diagram: WHO.

Operation consists of opening and closing the valves, and managing a chlorinator if one is used. This is usually done by a caretaker who lives nearby.

For maintenance, the valves must be opened and closed every two months to prevent them from sticking. Some valves need lubricating. The screens must also be checked, and occasionally a screen or valve may need to be repaired. The inside of the reservoir should be cleaned at least every six months and disinfected using a chlorine solution. The tank and the stand should be painted once a year – epoxy-paint coatings should need little maintenance. Any leaks should be repaired immediately.

Potential problems
— the reservoir may become corroded and leak;
— steel reservoirs normally require cathodic protection (corrosion control);
— steel reservoirs need relatively more maintenance than those made of concrete, ferrocement or even wood.

Costs

Initial cost: Prices vary considerably between countries and tank quality. In 1991, in Tanzania, a circular above-ground tank made of galvanized iron cost US$ 125 for a 1 m3 tank (US$ 125 per m3) and US$ 550 for a 10 m3 tank (US$ 55 per m3).

Nigeria

Water pumped from 'upgraded' wells into elevated storage tanks are widely referred to as 'borehole water' or 'tap water' among the nation's populace. It costs about N100,000 (about USD800) to put this system in place. On the other hand, to install a deep drilling system using heavy duty boring machines require a minimum of N400,000 (about USD3,200). In most instances, only a restricted proportion of the citizenry, precisely the wealthy, can afford the expensive deep drilling that conventional borehole technologies offer. In most instances, when this is the case, the water is strictly for owner usage and is not available for commercial purposes.

Despite the debates associated with the quality of water provided by these upgraded wells of informal vendors, water from such sources is cheap (costs about 20-50 cents for 50 Litres), readily available but usage is only restricted for domestic uses alone - washing, bathing and cleaning. Sachet water, costing 50 cents for 3 Litres (one bag containing 20 sachets each of 150 ml volume), is thus often relied upon for drinking purposes. Although restively more expensive than water for domestic uses sourced from upgraded wells of informal vendors at the community level, a public perception of safety prevails - at least it must have gone through one form of treatment or the other, even if they were gotten from questionable sources.

Field experiences

A successful borehole in Machakos. Photo: E. Nissen-Petersen, Kenya

A water tank in Kenya was built in combination with a borehole as the source. If fresh water is found in sufficient quantities and the water is not saline, the borehole is cased with a special piping.

A recent report for the Ministry of Water by PEM Consultants states that only 60 drilled boreholes are successful. Although Boreholes Contractors cannot guarantee anything, they must be paid in full for their drilling. The borehole seen in the photo (on the right) is 104 metres deep and supplies 20,000 litres of fresh water in an hour, which is sold for Ksh 3 per 20 litres, which is Ksh 3,000 (US$ 35) per hour. A successful borehole as this one costs about Ksh 3 million (US$ 35,000), inclusive of casing, pump, elevated tank and pump house.

As a water business, it can be estimated that if recharge can allow pumping for 5 hours daily and the daily operation cost is Ksh 5,000 (US$ 60), the actual income will be Ksh 10,000 (US$ 120) per day. With a loan of Ksh 3 million with 20% interest and fees, it will take 380 working days (3,000,000 + operation 200,000 + interest costs 600,000 / 10,000/day = 380) to recover the investment. Thereafter it is daily profit.

Manuals, videos, and links

Acknowledgements