Deep Water Well
Deep Water Well
A water well is an excavation or structure created in the ground by digging, driving, boring or drilling to access groundwater in underground aquifers. The well water is drawn by an electric submersible pump, a vertical turbine pump, a handpump or a mechanical pump (e.g. from a water-pumping windmill). It can also be drawn up using containers, such as buckets, that are raised mechanically or by hand.
Wells can vary greatly in depth, water volume and water quality. Well water typically contains more minerals in solution than surface water and may require treatment to soften the water by removing minerals such as arsenic, iron and manganese.
Types of water wells
Dug wells
Until recent centuries, all artificial wells were pumpless dug wells of varying degrees of formality. Their indispensability has produced numerous literary references, literal and figurative, to them, including the Christian Bible story of Jesus meeting a woman at Jacob's well (John 4:6) and the "Ding Dong Bell" nursery rhyme about a cat in a well.
Such primitive dug wells were excavations with diameters large enough to accommodate men with shovels digging down to below the water table. They can be lined with laid stones or brick; extending this lining into a wall around the well presumably served to reduce both contamination and injuries by falling into the well. A more modern method called caissoning uses reinforced concrete or plain concrete pre-cast well rings that are lowered into the hole. A well digging team digs under a cutting ring and the well column slowly sinks into the aquifer, whilst protecting the well digging team.
Hand dug wells provide a cheap and low-tech solution to accessing groundwater in rural locations, with a high degree of community participation. Hand dug wells have been successfully excavated to 60m. Hand dug wells are cheap and low tech (compared to drilling) as they use mostly hand labour for construction. Hand dug wells have low operational and maintenance costs. Even if the hand pump is broken, water can still be extracted. In many cases, hand dug wells are similar to traditional abstraction methods and are readily accepted by the host community. The construction of hand dug wells can incorporate a high degree of community participation (e.g. pre-fabrication of concrete rings). Hand dug wells can be easily deepened, if the ground water level drops, by telescoping the lining further down into the aquifer. The yield of existing hand dug wells may be improved by deepening or introducing vertical tunnels or perforated pipes.
Hand dug wells are not suited to hard ground formations and take time to dig and line. Construction of hand dug wells can be dangerous due to collapsing soils, falling objects and asphyxiation. Hand dug well construction generally requires the use of a trained well construction team. Construction of hand dug wells can require large capital costs for equipment such as concrete ring moulds, heavy lifting equipment, well shaft formwork, motorized de-watering pumps, and fuel. Since most hand dug wells exploit shallow aquifers, the well may be susceptible to yield fluctuations and possible surface contamination.
Safety during hand dug well construction is paramount due to the risk of collapse, falling objects and suffocation from exhaust fumes from dewatering pumps.
Woodingdean well, dug between 1858 and 1862, is claimed to be the world's deepest hand-dug well at 1285 feet.
Driven wells
Driven wells may be very simply created in unconsolidated material with a "well point", which consists of a hardened drive point and a screen (perforated pipe). The point is simply hammered into the ground, usually with a tripod and "driver", with pipe sections added as needed. A driver is a weighted pipe that slides over the pipe being driven and is repeatedly dropped on it. When groundwater is encountered, the well is washed of sediment and a pump installed.
Drilled wells
Drilled wells can be excavated by simple hand drilling methods (augering, sludging, jetting, driving, hand percussion) or machine drilling (rotary, percussion, down the hole hammer). Drilled wells can get water from a much deeper level than by dug wells - often up to several hundred meters.
Drilled wells with electric pumps are currently used throughout the world, typically in rural or sparsely populated areas, though many urban areas are supplied partly by municipal wells.
Drilled wells are typically created using either top-head rotary style, table rotary, or cable tool drilling machines, all of which use drilling stems that are turned to create a cutting action in the formation, hence the term 'drilling'. Most shallow well drilling machines are mounted on large trucks, trailers, or tracked vehicle carriages. Water wells typically range from 20 to 600 feet (180 m), but in some areas can go deeper than 3,000 feet (910 m).
Rotary drilling machines use a segmented steel drilling string, typically made up of 20-foot (6.1 m) sections of steel tubing that are threaded together, with a bit or other drilling device at the bottom end. Some rotary drilling machines are designed to install (by driving or drilling) a steel casing into the well in conjunction with the drilling of the actual bore hole. Air and/or water is used as a circulation fluid to displace cuttings and cool bits during the drilling. Another form of rotary style drilling, termed 'mud rotary', makes use of a specially made mud, or drilling fluid, which is constantly being altered during the drill so that it can consistently create enough hydraulic pressure to hold the side walls of the bore hole open, regardless of the presence of a casing in the well. Typically, boreholes drilled into solid rock are not cased until after the drilling process is completed, regardless of the machinery used.
The oldest form of drilling machinery is the Cable Tool, still used today. Specifically designed to raise and lower a bit into the bore hole, the 'spudding' of the drill causes the bit to be raised and dropped onto the bottom of the hole, and the design of the cable causes the bit to twist at approximately 1/4 revolution per drop, thereby creating a drilling action. Unlike rotary drilling, cable tool drilling requires the drilling action to be stopped so that the bore hole can be bailed or emptied of drilled cuttings.
Drilled wells are usually cased with a factory-made pipe, typically steel (in air rotary or cable tool drilling) or plastic/PVC (in mud rotary wells, also present in wells drilled into solid rock). The casing is constructed by welding, either chemically or thermodynamically, segments of casing together. If the casing is installed during the drilling, most drills will drive the casing into the ground as the bore hole advances, while some newer machines will actually allow for the casing to be rotated and drilled into the formation in a similar manner as the bit advancing just below. PVC or plastic is typically welded and then lowered into the drilled well, vertically stacked with their ends nested and either glued or splined together. The sections of casing are usually 20' (6 m) or more in length, and 6"–12" (15 to 30 cm) in diameter, depending on the intended use of the well and local groundwater conditions.
Surface contamination of wells in the United States is typically controlled by the use of a 'surface seal'. A large hole is drilled to a predetermined depth or to a confining formation (clay or bedrock, for example), and then a smaller hole for the well is completed from that point forward. The well is typically cased from the surface down into the smaller hole with a casing that is the same diameter as that hole. The annular space between the large bore hole and the smaller casing is filled with bentonite clay, concrete, or other sealant material. This creates an impermeable seal from the surface to the next confining layer that keeps contaminants from traveling down the outer sidewalls of the casing or borehole and into the aquifer. In addition, wells are typically capped with either an engineered well cap or seal that vents air through a screen into the well, but keeps insects,
Deep Well Hand Water Pumps @ Survival Unlimited .com
Survival Unlimited.com - Hand water pumps fo ryour well
Deep Well Water Pumps
deep well and centrifugal shallow well pumps pumps are sold at bargain prices by Electric Trading Co. is a supplier, dealer, and manufacturer of blowers, blower wheels, fans and ...
Hand Water Well Pumps - Deep & Shallow @ Survival ...
Survival Unlimited.com - Hand water pumps for your deep well, or shallow well.
Deep well water pump - Dumaguete City Forum
I have a lot in Sibulan that don't have any water supply, I'm trying to see where to buy a deep well water pump either electric or manual, and if how
Deep Well Water Supplies
Specialises in water divining and confined well drilling. Established in locating and drilling for underground water both in the UK and abroad.
Well Enhancement
In January 2007, we formed Well Enhancement and Recovery Systems, LLC, of which we are a 1/3rd owner. We formed this company to develop a new deep water well enhancement tool ...
The WELL: Jacques Leslie, "Deep Water"
The WELL: Jacques Leslie, "Deep Water"
Submersible Well Water Pumps
Pump Biz - A better way to buy submersible water well pumps and pump supplies. Need a deep well submersible water pump, shallow, deep well jet submersible water pumps, water pump ...
Submersible Well Water Pumps
Pedrollo Pumps 4 inch and Myers Rustler and Ranger, 3 inch and 4 inch, 3-wire, submersible water well pumps. Centrifugal multi-stage, deep well, with electric motors & control ...
CBC News - Deep-water well safety questioned
Dr. Murray McQuigge, Medical Officer of Health in Walkerton, Tuesday questioned the safety of every deep-water well in Ontario. He linked cow manure and heavy rainfall to water ...
