Water Well Drilling Methods - Lone Star Drills

Jun. 16, 2025

Water Well Drilling Methods - Lone Star Drills

It’s not surprising that water well drilling is an ancient undertaking. About 8,000 years ago, the first water wells were hand dug to supply a safe, clean and reliable water source for the earliest civilizations. Our need for water has not changed, but well drilling technology has come a long way since then.

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In some areas of the world, manually digging a water well is still the cheapest and most practical way to improve water accessibility, especially for one-off wells. However, for contractors and groups looking to add or expand their water well drilling capabilities long term, mechanical drilling can offer a faster, more efficient option.

There are two things to keep in mind when choosing water well drilling equipment: 1) The method must match the geology. 2) Consider the costs, both short term and long term. For a single well, manual techniques might not cost much, but can hand drilling methods handle soil conditions on your site? And how does the overall cost play out for digging multiple wells? On the other hand, mechanical well drilling options might be able to complete the job quickly but might not fit within the budget for an operation that is only looking at a few wells annually.

Let’s take a closer look at the pros and cons of some popular manual and mechanical drilling techniques to determine which might be the best option for your operation.

Manual Techniques

For many, digging a water well brings to mind an individual in a deep, muddy hole, passing up buckets of earth, and with good reason. Hand-digging is probably the oldest and most frequently used manual method for gaining access to ground water and it’s a labor-intensive, dirty job.

Like other manual techniques – including sludging, manual percussion drilling, drive point and hand auguring – hand-digging requires only simple tools and a lot of hard work, which is why individuals and communities have been using these techniques effectively for so long. As the saying goes, “if it’s not broke, don’t fix it.” And for areas with limited access to heavy equipment or fuel, these techniques are still a viable option.

Pros:

Requires simple tools that are locally accessible
Can reach depths of 230 feet (70 meters) or deeper depending on method and geology
Work can be completed quickly with large crews

Cons:

High risk of surface contamination
Difficult or impossible to drill through rock or dense soil
Most methods become unstable at less than 33 feet (10 meters)
Most methods require a high water table

Perhaps the biggest drawback to manually digging water wells is how inefficient the process is for multiple wells. Installing up to half a dozen wells in a single area might not break the bank, but repeatedly hiring large crews can add up quickly. Additionally, the geological impediments and the risk of contamination with manual techniques make them less attractive to contractors and groups looking to produce sustainable wells in multiple regions.

After considering the pros and cons, if manual drilling appears to be the best option for your project, manual percussion drilling is probably the most effective and widely used technique. The process consists of repeatedly dropping a heavy drill bit connected to a rope or cable in a hole partially filled with water to loosen soil and chip off pieces of rock. A sharpened drill bit and one-way valve at the bottom of the drill pipe can be added to create a hybrid percussion-sludging technique for increased efficiency. Manual percussion drilling is faster than other manual methods, capable of penetrating rock (very slowly) and is easily sealed to prevent contamination. However, mechanical percussion drilling — which mechanized the manual down-the-hole method — is a much more efficient option for operations looking for a long-term solution.

Mechanical Methods

Where manual drilling methods rely on simple tools, large work crews, hard work and patience to get the job done, mechanical drilling methods use motors, gears and fuel to power through rock and tough soils. These techniques can dig faster and deeper than manual methods and are ideal for contractors and groups looking for efficient, highly maneuverable easy-to-use equipment. For drilling a single well, they might not be cost efficient, but for operations looking to add water well drilling to their services, investing in the right water well drilling rig for your operation can offer fast ROI and open up new possibilities.

There are several popular methods, each with its own pros and cons, so consider your needs and the geology of your area of operation before committing to a mechanical drill rig.

Jetting: With this method, a pump forces water down a drill pipe and out a narrow nozzle to make a jet of water that loosens the sediment. Water outside the drill pipe carries cuttings up to the surface and into a settling pit, dug next to the borehole. The pump then returns the water back down the pipe. The drill pipe is suspended from a tripod and rotated by hand to keep the hole straight. In fine sand, this method can reach depths of 197 feet (60 meters).

Pros:

Only requires two people
Only tools are pump that can generate sufficient pressure and pipe

Cons:

Only works in soft, fine-grained sediments
Difficult to install sanitary seal to protect from surface contamination

Cable Tool: This is a mechanized version of manual percussion drilling. A heavy drill bit is attached to a steel cable and raised and dropped down the borehole. Cuttings are still manually removed with a bailer and several meters of water must be maintained in the borehole to keep the cuttings suspended. Equipment ranges from a basic skid-mounted winch with a tripod to a complex set of pulleys and drums with a large mast. Large cable tool rigs are mounted on a trailer or the bed of a truck and use hydraulic motors to raise and lower the mast and rotate the drums of the cable. These larger units are capable of drilling hundreds of feet deep through virtually any geological conditions.

Pros:

Uses least amount of fuel

Cons:

Slowest mechanical method
Steel casing required to keep hole from collapsing when working in loose sediment
Can require extra equipment like arc welder and cutting torch for drive casing

Mud Rotary: The basic concept behind the mud rotary drill rig is similar to jetting. Add a large cutting bit, lengths of steel drill pipe with threaded joints, a motor to turn and lift the drill pipe and a sturdy mast to support the pipe and you are ready for rotary well drilling. Mud rotary drilling also mixes bentonite clay or other materials in the jetting water to improve its ability to lift cuttings. This fluid is called “drilling mud” and is the “mud” referenced in the method’s name.

The two basic categories of mud rotary drilling are: table drive, where a rotating mechanism near the base of the rig turns the drill pipe, and top-head drive, where a motor attached to the upper end of the pipe turns it. In both cases, the upper end of the pipe is attached to a lifting mechanism that moves it along the mast. Both types of mud rotary rigs also have a swivel attached to the upper end of the pipe, allowing drilling mud to be pumped down the pipe while it is rotating.

Depending on size, a mud rotary rig can drill up to 3,281 feet (1,000 meters). The LS100 and LS200 drill rigs are mud rotary rigs at the small end of drill rig sizes, but even these smaller machines can drill an 8-inch (20-centimeter) borehole to a depth of 197 feet (60 meters). For more power in challenging soils, Lone Star developed the Hydraulic Series. The LS300H+ is capable of drilling a 6-inch (15-centimeter) borehole up to 300 feet (91.4 meters).

Pros:

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Drilling mud keeps borehole open eliminating need for drive casings
Faster than cable tool and jetting methods

Cons:

Drilling through rock only possible with larger rigs
Multiple motors consume more fuel per hour than cable tool rig
Large rigs require support vehicles to haul water and drill pipe

Air Rotary: The mechanical elements of an air rotary drill rig are similar to a mud rotary rig, including an option of table drive or top-head drive for rotating pipe. The principal difference is the use of compressed air to remove cuttings rather than drilling mud. The air rotary rig uses the same type of drill bits as the mud rig, but it can also drill with a down-the-hole hammer. It uses compressed air to break up rock and can drill very fast. A large air rotary rig can drill more than feet (500 meters) in the right geological conditions.

Pros:

Fastest drilling method
Quicker setup than other methods

Cons:

Most expensive method
Consumes the most fuel per hour
Requires support vehicles and large air compressor

As you can see, there are lots of options for drilling water wells. The drilling method that works best for you, depends on your geology, your brawn and your budget.

Drilling rig - Wikipedia

Integrated system to drill wells This article is about onshore equipment for boring holes into the ground. For offshore oil rig, see Oil platform. For drilling tunnels, see Tunnel boring machine. For handheld drilling tool, see Drill.

A drilling rig is an integrated system that drills wells, such as oil or water wells, or holes for piling and other construction purposes, into the earth's subsurface. Drilling rigs can be massive structures housing equipment used to drill water wells, oil wells, or natural gas extraction wells, or they can be small enough to be moved manually by one person and such are called augers. Drilling rigs can sample subsurface mineral deposits, test rock, soil and groundwater physical properties, and also can be used to install sub-surface fabrications, such as underground utilities, instrumentation, tunnels or wells. Drilling rigs can be mobile equipment mounted on trucks, tracks or trailers, or more permanent land or marine-based structures (such as oil platforms, commonly called 'offshore oil rigs' even if they don't contain a drilling rig). The term "rig" therefore generally refers to the complex equipment that is used to penetrate the surface of the Earth's crust.

Small to medium-sized drilling rigs are mobile, such as those used in mineral exploration drilling, blast-hole, water wells and environmental investigations. Larger rigs are capable of drilling through thousands of metres of the Earth's crust, using large "mud pumps" to circulate drilling fluid (slurry) through the bit and up the casing annulus, for cooling and removing the "cuttings" while a well is drilled. Hoists in the rig, a derrick, can lift hundreds of tons of pipe. Other equipment can force acid or sand into reservoirs to facilitate extraction of the oil or natural gas; and in remote locations there can be permanent living accommodation and catering for crews (which may be more than a hundred). Marine rigs may operate thousands of miles distant from the supply base with infrequent crew rotation or cycle.

History

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Until internal combustion engines were developed in the late 19th century, the main method for drilling rock was muscle power of man or animal. The technique of oil drilling through percussion or rotary drilling has its origins dating back to the ancient Chinese Han dynasty in 100 BC, where percussion drilling was used to extract natural gas in the Sichuan province.[1] Early oil and gas drilling methods were seemingly primitive as it required several technical skills.[1][2] The skills involved the availability of heavy iron bits and long bamboo poles, the manufacturing of long and sturdy cables woven from bamboo fiber, and levers. Heavy iron bits were attached to long bamboo cables suspended from bamboo derricks and then were repeatedly raised and dropped into a manually dug hole by having two to six men jumping on a lever.[1] Han dynasty oil wells made by percussion drilling was effective but only reached 10 meters deep and 100 meters by the 10th century.[1] By the 16th century, the Chinese were exploring and drilling oil wells more than 2,000 feet (610 m) deep.[2] Chinese well drilling technology was introduced to Europe in .[3] A modernized variant of the ancient Chinese drilling technique was used by American businessman Edwin Drake to drill Pennsylvania's first oil well in using small steam engines to power the drilling process rather than by human muscle.[1] Cable tool drilling was developed in ancient China and was used for drilling brine wells. The salt domes also held natural gas, which some wells produced and which was used for evaporation of the brine. Drake learned of cable tool drilling from Chinese laborers in the U.S.[4] The first primary product was kerosene for lamps and heaters.[5][6] Similar developments around Baku fed the European market.

In the s, outside of the oil and gas industry, roller bits using mud circulation were replaced by the first pneumatic reciprocating piston Reverse Circulation (RC) drills, and became essentially obsolete for most shallow drilling, and are now only used in certain situations where rocks preclude other methods. RC drilling proved much faster and more efficient, and continues to improve with better metallurgy, deriving harder, more durable bits, and compressors delivering higher air pressures at higher volumes, enabling deeper and faster penetration. Diamond drilling has remained essentially unchanged since its inception.

Petroleum drilling industry

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Oil and natural gas drilling rigs are used not only to identify geologic reservoirs, but also used to create holes that allow the extraction of oil or natural gas from those reservoirs. Primarily in onshore oil and gas fields once a well has been drilled, the drilling rig will be moved off of the well and a service rig (a smaller rig) that is purpose-built for completions will be moved on to the well to get the well on line.[7] This frees up the drilling rig to drill another hole and streamlines the operation as well as allowing for specialization of certain services, i.e. completions vs. drilling.

Mining drilling industry

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Mining drilling rigs are used for two main purposes, exploration drilling which aims to identify the location and quality of a mineral, and production drilling, used in the production-cycle for mining. Drilling rigs used for rock blasting for surface mines vary in size dependent on the size of the hole desired, and is typically classified into smaller pre-split and larger production holes. Underground mining (hard rock) uses a variety of drill rigs dependent on the desired purpose, such as production, bolting, cabling, and tunnelling.

Mobile drilling rigs

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In early oil exploration, drilling rigs were semi-permanent in nature and the derricks were often built on site and left in place after the completion of the well. In more recent times drilling rigs are expensive custom-built machines that can be moved from well to well. Some light duty drilling rigs are like a mobile crane and are more usually used to drill water wells. Larger land rigs must be broken apart into sections and loads to move to a new place, a process which can often take weeks.

Small mobile drilling rigs are also used to drill or bore piles. Rigs can range from 100 short tons (91,000 kg) continuous flight auger (CFA) rigs to small air powered rigs used to drill holes in quarries, etc. These rigs use the same technology and equipment as the oil drilling rigs, just on a smaller scale.

The drilling mechanisms outlined below differ mechanically in terms of the machinery used, but also in terms of the method by which drill cuttings are removed from the cutting face of the drill and returned to surface.

Automated drill rig

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An automated drill rig (ADR) is an automated full-sized walking land-based drill rig that drills long lateral sections in horizontal wells for the oil and gas industry.[8] ADRs are agile rigs that can move from pad to pad to new well sites faster than other full-sized drilling rigs. Each rig costs about $25 million. ADR is used extensively in the Athabasca oil sands. According to the "Oil Patch Daily News", "Each rig will generate 50,000 man-hours of work during the construction phase and upon completion, each operating rig will directly and indirectly employ more than 100 workers." Compared to conventional drilling rigs", Ensign, an international oilfield services contractor based in Calgary, Alberta, that makes ADRs claims that they are "safer to operate, have "enhanced controls intelligence," "reduced environmental footprint, quick mobility and advanced communications between field and office."[8] In June the first specifically designed slant automated drilling rig (ADR), Ensign Rig No. 118, for steam assisted gravity drainage (SAGD) applications was mobilized by Deer Creek Energy Limited, a Calgary-based oilsands company.[9][10]

Auger drills

[edit] See also: Earth auger

An auger drill is a spiral-shaped tool. Its main function is the drilling of holes in the ground and other materials - or surfaces such as ice, wood, etc. The design of an auger depends on the kind of material it's meant to drill into, hence there are different types of auger drills.[11] Auger drills come in varying sizes and can drill holes up to a depth of 95 feet below the ground. They are known to be quite versatile, saving time and energy during construction work or even personal projects. The auger is a helical screw made of steel casing with curved flights that rotates as it's pushed into the ground by a drill head. As the auger rotates, it brings excavated material to the surface, which helps keep the borehole open and prevents it from collapsing. Augers can be mounted on trucks or other machines and come in different lengths and diameters. Auger drilling is used in many fields, including construction, environmental studies, and geotechnical investigations. It can also be used for a variety of other purposes, such as:

Installing auger piles for foundation engineering
Drilling holes for industrial applications like poles, solar posts, and deck posts
Small home projects like gardening, building fences, and planting crops
Ice fishing

There are different auger drilling methods, including hand auger drilling and hollow stem auger drilling. Hand auger drilling is a cost-effective method that's often used in areas with shallow soil, but it can be time-consuming and labor-intensive. Hollow stem auger drilling uses a large, hollow auger that removes soil as it drills.

Auger drilling is often quieter and less vibration-prone than other drilling methods, like drive drilling, so it can also be used in urban areas. When using an auger, it's important to take safety precautions, such as wearing protective equipment like gloves, eye and ear protectors, and closed-toe boots. You should also make sure the auger and attachments are secure, engage the drill's high torque gear, and start drilling slowly.

Drill buckets

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A drill bucket, or auger bucket, is a drilling head that accumulates spoil inside and can be lifted from the hole periodically to be emptied.[12]

This method is particularly effective for drilling through hard and compacted soils, as well as rocks, due to the bucket's cylindrical design with cutting teeth at the base, which excavates and retains soil or rock as it rotates. Drill buckets are commonly used in foundation drilling for constructing deep piles and shafts.[13]

They come in various sizes and configurations, tailored to specific ground conditions and project requirements, and can be equipped with wear-resistant components to enhance durability in abrasive environments. Additionally, modern drill buckets may include a vented bottom to release trapped air and facilitate faster spoil removal.[13]

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Water Well Drilling Methods - Lone Star Drills