A water tower is an elevated structure  supporting a water tank constructed at a height sufficient to pressurize a distribution system for potable water, and to provide emergency storage for fire protection. Water towers often operate in conjunction with underground or surface service reservoirs, which store treated water close to where it will be used. Other types of water towers may only store raw (non-potable) water for fire protection or industrial purposes, and may not necessarily be connected to a public water supply.
Water towers are able to supply water even during power outages, because they rely on hydrostatic pressure produced by elevation of water (due to gravity) to push the water into domestic and industrial water distribution systems; however, they cannot supply the water for a long time without power, because a pump is typically required to refill the tower. A water tower also serves as a reservoir to help with water needs during peak usage times. The water level in the tower typically falls during the peak usage hours of the day, and then a pump fills it back up during the night. This process also keeps the water from freezing in cold weather, since the tower is constantly being drained and refilled.
Although the use of elevated water storage tanks has existed since ancient times in various forms, the modern use of water towers for pressurized public water systems developed during the mid-19th century, as steam-pumping became more common, and better pipes that could handle higher pressures were developed. In the United Kingdom, standpipes consisted of tall, exposed, N-shaped pipes, used for pressure relief and to provide a fixed elevation for steam-driven pumping engines which tended to produce a pulsing flow, while the pressurized water distribution system required constant pressure. Standpipes also provided a convenient fixed location to measure flow rates. Designers typically enclosed the riser pipes in decorative masonry or wooden structures. By the late 19th century, standpipes grew to include storage tanks to meet the ever-increasing demands of growing cities.
Many early water towers are now considered historically significant and have been included in various heritage listings around the world. Some are converted to apartments or exclusive penthouses. In certain areas, such as New York City in the United States, smaller water towers are constructed for individual buildings. In California and some other states, domestic water towers enclosed by siding (tankhouses) were once built (1850s–1930s) to supply individual homes; windmills pumped water from hand-dug wells up into the tank in New York.
Design and construction
A variety of materials can be used to construct a typical water tower; steel and reinforced or prestressed concrete are most often used (with wood, fiberglass, or brick also in use), incorporating an interior coating to protect the water from any effects from the lining material. The reservoir in the tower may be spherical, cylindrical, or an ellipsoid, with a minimum height of approximately 6 metres (20 ft) and a minimum of 4 m (13 ft) in diameter. A standard water tower typically has a height of approximately 40 m (130 ft).
Pressurization occurs through the hydrostatic pressure of the elevation of water; for every 102 millimetres (4.016 in) of elevation, it produces 1 kilopascal (0.145 psi) of pressure. 30 m (98.43 ft) of elevation produces roughly 300 kPa (43.511 psi), which is enough pressure to operate and provide for most domestic water pressure and distribution system requirements.
The height of the tower provides the pressure for the water supply system, and it may be supplemented with a pump. The volume of the reservoir and diameter of the piping provide and sustain flow rate. However, relying on a pump to provide pressure is expensive; to keep up with varying demand, the pump would have to be sized to meet peak demands. During periods of low demand, jockey pumps are used to meet these lower water flow requirements. The water tower reduces the need for electrical consumption of cycling pumps and thus the need for an expensive pump control system, as this system would have to be sized sufficiently to give the same pressure at high flow rates.
Very high volumes and flow rates are needed when fighting fires. With a water tower present, pumps can be sized for average demand, not peak demand; the water tower can provide water pressure during the day and pumps will refill the water tower when demands are lower.
Using wireless sensor networks to monitor water levels inside the tower allows municipalities to automatically monitor and control pumps without installing and maintaining expensive data cables.
The adjacent image shows three architectural approaches to incorporating these tanks in the design of a building, one on East 57th Street in New York City. From left to right, a fully enclosed and ornately decorated brick structure, a simple unadorned roofless brick structure hiding most of the tank but revealing the top of the tank, and a simple utilitarian structure that makes no effort to hide the tanks or otherwise incorporate them into the design of the building.
The technology dates to at least the 19th century, and for a long time New York City required that all buildings higher than six stories be equipped with a rooftop water tower. Two companies in New York build water towers, both of which are family businesses in operation since the 19th century.
The original water tower builders were barrel makers who expanded their craft to meet a modern need as buildings in the city grew taller in height. Even today, no sealant is used to hold the water in. The wooden walls of the water tower are held together with steel cables or straps, but water leaks through the gaps when first filled. As the water saturates the wood, it swells, the gaps close and become impermeable. The rooftop water towers store 250,000 to 50,000 litres (55,000 to 11,000 imp gal; 66,000 to 13,000 US gal) of water until it is needed in the building below. The upper portion of water is skimmed off the top for everyday use while the water in the bottom of the tower is held in reserve to fight fire. When the water drops below a certain level, a pressure switch, level switch or float valve will activate a pump or open a public water line to refill the water tower.
Architects and builders have taken varied approaches to incorporating water towers into the design of their buildings. On many large commercial buildings, water towers are completely hidden behind an extension of the facade of the building. For cosmetic reasons, apartment buildings often enclose their tanks in rooftop structures, either simple unadorned rooftop boxes, or ornately decorated structures intended to enhance the visual appeal of the building. Many buildings, however, leave their water towers in plain view atop utilitarian framework structures.
If the pumps fail (such as during a power outage), then water pressure will be lost, causing potential public health concerns. Many U.S. states require a "boil-water advisory" to be issued if water pressure drops below 20 pounds per square inch (140 kPa). This advisory presumes that the lower pressure might allow pathogens to enter the system.
Some have been converted to serve modern purposes, as for example, the Wieża Ciśnień (Wrocław water tower) in Wrocław, Poland which is today a restaurant complex. Others have been converted to residential use.
Historically, railroads that used steam locomotives required a means of replenishing the locomotive's tenders. Water towers were common along the railroad. The tenders were usually replenished by water cranes, which were fed by a water tower.
Some water towers are also used as observation towers, and some restaurants, such as the Goldbergturm in Sindelfingen, Germany, or the second of the three Kuwait Towers, in the State of Kuwait. It is also common to use water towers as the location of transmission mechanisms in the UHF range with small power, for instance for closed rural broadcasting service, amateur radio, or cellular telephone service.
In hilly regions, local topography can be substituted for structures to elevate the tanks. These tanks are often nothing more than concrete cisterns terraced into the sides of local hills or mountains, but function identically to the traditional water tower. The tops of these tanks can be landscaped or used as park space, if desired.
Spheres and spheroids
The Chicago Bridge and Iron Company has built many of the water spheres and spheroids found in the United States. The website World's Tallest Water Sphere describes the distinction between a water sphere and water spheroid thus:
A water sphere is a type of water tower that has a large sphere at the top of its post. The sphere looks like a golf ball sitting on a tee or a round lollipop. A cross section of a sphere in any direction (east-west, north-south, or top-bottom) is a perfect circle. A water spheroid looks like a water sphere, but the top is wider than it is tall. A spheroid looks like a round pillow that is somewhat flattened. A cross section of a spheroid in two directions (east-west or north-south) is an ellipse, but in only one direction (top-bottom) is it a perfect circle. Both spheres and spheroids are special-case ellipsoids: spheres have symmetry in 3 directions, spheroids have symmetry in 2 directions. Scalene ellipsoids have 3 unequal length axes and three unequal cross sections.
A Star Ledger article suggested a water tower in Erwin, North Carolina completed in early 2012, 219.75 ft (66.98 m) tall and holding 500,000 US gallons (1,900 m3), had become the World's Tallest Water Sphere. However, photographs of the Erwin water tower revealed the new tower to be a water spheroid.
The water tower in Braman, Oklahoma, built by the Kaw Nation and completed in 2010, is 220.6 ft (67.2 m) tall and can hold 350,000 US gallons (1,300 m3). Slightly taller than the Union Watersphere, it is also a spheroid.
The Earthoid, a perfectly spherical tank located in Germantown, Maryland is 100 ft (30 m) tall and holds 2,000,000 US gallons (7,600 m3) of water. The name is taken from it being painted to resemble a globe of the world.
The Watertoren (or Water Towers) in Eindhoven, Netherlands contain three spherical tanks, each 10 m (33 ft) in diameter and capable of holding 500 cubic metres (130,000 US gal) of water, on three 43.45 m (142.6 ft) spires were completed in 1970.
Disused sphere-shaped railway water tower in Trier, Germany
Paul Bunyan's Bobber Water Tower in Pequot Lakes, Minnesota
Eindhoven Water Towers
Water towers can be surrounded by ornate coverings including fancy brickwork, a large ivy-covered trellis or they can be simply painted. Some city water towers have the name of the city painted in large letters on the roof, as a navigational aid to aviators and motorists. Sometimes the decoration can be humorous. An example of this are water towers built side by side, labeled HOT and COLD. Cities in the United States possessing side-by-side water towers labeled HOT and COLD include Granger, Iowa; Canton, Kansas; Pratt, Kansas, and St. Clair, Missouri; Eveleth, Minnesota at one time had two such towers, but no longer does.
Many small towns in the United States use their water towers to advertise local tourism, their local high school sports teams, or other locally notable facts. A "mushroom" water tower was built in Örebro, Sweden and holds almost two million gallons of water.
|Swisscom-Sendeturm St. Chrischona||1984||Switzerland||St. Chrischona||250 m (820 ft)|
|Kuwait Towers, Tower A||1979||Kuwait||Kuwait City||187 m (613 ft)|
|Kuwait Towers, Tower B||1979||Kuwait||Kuwait City||146 m (479 ft)|
|Waldenburg TV Tower||1959||Germany||Waldenburg||145 m (475 ft)||Partially guyed tower consisting of water tower and antenna mast guyed to the ground as pinnacle. Antenna mast was dismantled in 2008.|
|Mechelen-Zuid water tower||1978||Belgium||Mechelen||143 m (469 ft)||Combined water and telecommunications tower|
|Ginosa Water Tower||1915||Italy||Ginosa||130 m (426.5 ft)|||
|Centro idrico Eur||1990||Italy||Rome||120 m (394 ft)|||
|Chimney of Piesteritz SKW-Nitrogen Factory||Germany||Wittenberg||120 m (394 ft)|| Chimney, which was equipped with a water tank|
|K-1206-F_Watertower||1958||United States||Oak Ridge||116.43 m (382 ft)||Demolished on August 3d, 2013, by explosives|
|Water Tower of Launch Complex 36||United States||Cape Canaveral||107 m (351 ft)|||
|Chimney 1 of Muldenstein power station||Germany||Muldenstein||103 m (338 ft)||Chimney with water tank, demolished on April 10, 2011|
|Chimney of Nachterstedt Novelis works||Germany||Nachterstedt||100 m (328 ft)|| Chimney with water tank|
|Chimney of Vysocany Incinerator||1932||Czech||Prague||100 m (328 ft)|| Chimney with water tank, demolished in 2003|
Alternatives to water towers are simple pumps mounted on top of the water pipes to increase the water pressure. This new approach is more straightforward, but also more subject to potential public health risks; if the pumps fail, then loss of water pressure may result in entry of contaminants into the water system. Most large water utilities do not use this approach, given the potential risks.[dubious ]
- Nave Espacial de Varginha in Varginha
- Lüneburg Water Tower
- Heidelberg TV Tower (TV tower with water reservoir)
- Mannheim Water Tower (built 1886–1889)
- Amsterdamsestraatweg Water Tower in Utrecht
- Eindhoven Water Towers in Eindhoven
- Poldertoren in Emmeloord
- Water Tower Simpelveld in Simpelveld
- Water Tower Hellevoetsluis in Hellevoetsluis
- Vanadislundens water reservoir (Stockholm)
- Cardiff Central Station Water Tower
- Dock Tower in Grimsby
- House in the Clouds in Thorpeness, Suffolk
- Jumbo in Colchester, Essex
- Norton Water Tower in Norton, Cheshire
- Tilehurst Water Tower in Reading
- Tower Park in Poole, Dorset
- Cranhill, Garthamlock and Drumchapel in Glasgow, and Tannochside just outside the city
- Brooks Catsup Bottle Water Tower near Collinsville, Illinois
- Chicago Water Tower in Chicago, Illinois
- Florence Y'all Water Tower in Florence, Kentucky
- Lawson Tower in Scituate, Massachusetts
- Leaning Water Tower in Groom, Texas
- North Point Water Tower in Milwaukee, Wisconsin
- Peachoid next to I-85 on the edge of Gaffney, South Carolina
- Show Place Arena water tower in Upper Marlboro, Maryland
- Union Watersphere in Union Township, New Jersey
- Volunteer Park Water Tower in Capitol Hill, Seattle, Washington
- Warner Bros. Water Tower in Burbank, California (In the animated TV series Animaniacs, it was used to incarcerate the characters Yakko, Wakko, and Dot, as well as to serve as their home.)
- Weehawken Water Tower in Weehawken, New Jersey
- Ypsilanti Water Tower in Ypsilanti, Michigan (Winner of the Most Phallic Building contest in 2003)
A standpipe is a water tower which is cylindrical (or nearly cylindrical) throughout its whole height, rather than an elevated tank on supports with a narrower pipe leading to and from the ground.
- Belton Standpipe in Belton, South Carolina (also in Allendale and Walterboro)
- Belton Standpipe in Belton, Texas
- Bellevue Standpipe (actually a water tank, not a tower), in Boston, Massachusetts
- Chicago Water Tower, in Chicago, Illinois
- Cochituate standpipe, in Boston, Massachusetts
- Craig, Nebraska standpipe
- Eden Park Stand Pipe, in Cincinnati
- Evansville Standpipe (a steel tower), in Evansville, Wisconsin
- Fall River Waterworks, in Fall River, Massachusetts
- Forbes Hill Standpipe, in Quincy, Massachusetts
- Louisville Water Tower, in Louisville, Kentucky
- North Point Water Tower, in Milwaukee, Wisconsin
- Reading Standpipe (demolished in 1999 and replaced by a modern steel tower), in Reading, Massachusetts
- St. Louis, Missouri has three standpipe water towers which are on the National Register of Historic Places.
- Thomas Hill Standpipe, in Bangor, Maine
- Ypsilanti Water Tower, in Ypsilanti, Michigan
- Bremen Water Tower, in Bremen, Indiana
- "10 Industrial Water Towers Converted into Awesome, Modern Homes". 17 August 2012. Retrieved 14 March 2018.
- "New England Water Supplies – A Brief History, Marcis Kempe, MWRA, NEWWA Journal, September 2006, pages 96-99" (PDF). Retrieved 14 March 2018.
- Burton, William Kinnimond (14 March 1894). The Water Supply of Towns and the Construction of Waterworks: A Practical Treatise for the Use of Engineers and Students of Engineering. Lockwood. p. 127. Retrieved 14 March 2018 – via Internet Archive.
Waterworks water tower design and location.
- "Why Do We Have Water Towers ? | Henderson Water Utility". Archived from the original on 22 July 2021. Retrieved 22 July 2021.
- Elliott, Debbie (2 December 2006). "Wondering About Water Towers". All Things Considered. National Public Radio.
- Charles, Jacoba (3 June 2007). "Longtime Emblems of City Roofs, Still Going Strong". The New York Times.
- Amies, Nick (10 August 2011). "A Water Tower Near Brussels". The New York Times. Retrieved 14 March 2018.
- "Waterspheroid" (PDF). CBI. Retrieved 24 February 2012.
- "Water Sphere versus Water Spheroid". The World's Tallest Water Sphere. World's Tallest Water Sphere. June 2009. Retrieved 22 February 2012.
- Westerggaard, Barbara (August 2005), New Jersey A guide to the state, Rutgers University Press, ISBN 0-8135-3685-5
- Rose, Lisa (22 February 2012), "Despite challenge, Union Township water tower remains a Jersey landmark", The Star-Ledger, retrieved 21 February 2012
- Philliops, Gregor (11 May 2011). "Erwin's new water tower will be among tallest on East Coast". The Fayetteville Observer. Archived from the original on 27 August 2011. Retrieved 25 February 2012.
- "World's Tallest Water Sphere Title Safe for Now". The World's Tallest Water Sphere. Retrieved 20 August 2012.
- "Water Tower – Braman, Oklahoma". Waymarking.com. Retrieved 22 February 2012.
- "World's Tallest Water Sphere?". The World's Tallest Water Sphere. 22 December 2010. Retrieved 22 February 2012.
- "Edmond Huskies". Waymarking.com. Retrieved 22 February 2012.
- "Largest Water Tower". Center for Land Use Interpretation. Retrieved 22 February 2012.
- Gaines, Danielle (2 March 2011). "Germantown's Earthoid water tower could be up for a makeover WSSC to choose new painted design for tank next month". Gazette. Net. Archived from the original on 9 June 2013. Retrieved 3 March 2012.
- ""Earthoid" Water Storage Tank – Germantown MD". Waymarking.com. 7 September 2009. Retrieved 3 March 2012.
- "Makeover The Earthoid gets a refresh". Germantown Patch. 16 March 2011. Retrieved 3 March 2012.
- "A whole new world Earthoid water tank makeover update". Germantown Patch. 11 November 2011. Retrieved 3 March 2012.
- "Gonzales Round Municipal Tank". Waymarking.com. 22 April 2009. Retrieved 25 February 2012.
- "Gonzales Water Tower". Waymarking.com. Retrieved 25 February 2012.
- "Gonzales Water Tower". Wikimapia. Retrieved 25 February 2012.
- "Water Tower Eindhoven". Retrieved 24 February 2012.
- "Water Tower". Archived from the original on 29 November 2011. Retrieved 24 February 2012.
- "Hot and Cold Water Tower". Ohiobarns.com. Retrieved 14 June 2013.
- "Water tower slogans". Comcast. Retrieved 14 March 2018.
- "A mushroom water tower". New Scientist. Vol. 11, no. 244. Reed Business Information. 20 July 1961. p. 162. ISSN 0262-4079. Retrieved 14 March 2018.
- "Il fantastico mondo dell'acqua con gli occhi di chi sa guardare". la Voce dell'Acqua (in Italian). Archived from the original on 15 October 2019. Retrieved 15 October 2019.
- "Centro idrico Eur, Rome | 1509209". Emporis. Archived from the original on 17 February 2022. Retrieved 27 August 2022.
- "Kamin des Borealis Agrolinz Melamine-Werks Wittenberg, Lutherstadt Wittenberg | 1223856". Emporis. Archived from the original on 19 April 2022. Retrieved 27 August 2022.
- "Oak Ridge K-25 Facility Water Tower, Oak Ridge | 1597756". Emporis. Archived from the original on 20 February 2022. Retrieved 27 August 2022.
- "At Cape Canaveral, Blue Origin's water tower is one of the tallest in the world".
- "Kamin des Novelis-Werks Nachterstedt, Nachterstedt | 1223839". Emporis. Retrieved 27 August 2022.[dead link]
- "Small Chimney of Vysočany Waste Incinerator, Prague | 1624441". Emporis. Archived from the original on 20 April 2022. Retrieved 27 August 2022.
- "Rainwater Pumps or Pressure Tanks". www.harvesth2o.com. Retrieved 14 March 2018.
- "Pressure in the Distribution System". water.me.vccs.edu. Archived from the original on 29 June 2016. Retrieved 14 March 2018.
- "Ginosa Water Tower". Emporis. Archived from the original on 7 March 2016. Retrieved 19 June 2017.
- "The Most Phallic Building in the World". Cabinet.
- Harris, NiNi (1986). "Treasured Towers". In Hannon, Robert E. (ed.). St. Louis: Its Neighborhoods and Neighbors, Landmarks and Milestones. St. Louis, MO: Buxton & Skinner Printing Co.
- "Watertowers". builtstlouis.net. Retrieved 19 August 2011.