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Horizontal Directional Drilling / Boring (HDD): How the Drill Bit ...
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Directional boring, commonly called horizontal directional drilling or HDD, is a steerable trenchless method of installing underground pipe, conduit, or cables in a shallow arc along a prescribed bore path by using a surface-launched drilling rig, with minimal impact on the surrounding area. Directional boring is used when trenching or excavating is not practical. It is suitable for a variety of soil conditions and jobs including road, landscape and river crossings.

Pipe can be made of materials such as PVC, polyethylene, polypropylene, ductile iron, and steel as long as it can be pulled through the drilled hole. Directional boring is not practical if there are voids in the rock or incomplete layers of rock. The best material is solid rock or sedimentary material. Soils with cobblestone are not recommended. There are different types of heads used in the pilot-hole process, and they depend on the geological material.


Video Directional boring



Equipment

The equipment used in a horizontal directional drilling depends on the outer diameter of the pipe, length of the run, ground conditions and the surroundings above ground.

For larger bores, directional drills equipped with as much as 600 tonnes 1 320 000 lb (or more) of thrust/pullback (Vermeer D1320x900) is used in conjunction with a mud reclaimer, excavator, and multiple pumps and hoses to supply the drilling fluid to the drillstem. Directional drilling stems are made from heat-treated high-carbon steel in diameters of 8 - 15 cm. Drill stem sections are manufactured in 3.0, 4.6, and 9.1 meter lengths with male and female threading on opposite ends. It is common for a directional drill to carry as much as 305 m of drilling stems. Drilling heads are available for different types of rock or soil. The drilling head has multiple water ports to allow removal of material. A talon bit head uses carbide-tipped blades to cut through material while steered by the operator. Another type of head is a mud-motor that is used in rocky landscapes. Supporting equipment is often required, and may include a drilling fluid (mud) recycling system, shale shaker, mud cleaner, centrifugal pump, and mud tanks.

For smaller bores, portable equipment is under development for drilling from a house basement to a shared water pipe.


Maps Directional boring



Technique

Directional boring is used for installing infrastructure such as telecommunications and power cable conduits, water lines, sewer lines, gas lines, oil lines, product pipelines, and environmental remediation casings. It is used for crossing waterways, roadways, shore approaches, congested areas, environmentally sensitive areas, and areas where other methods are costlier or not possible. It is used instead of other techniques to provide less traffic disruption, lower cost, deeper and/or longer installation, no access pit, shorter completion times, directional capabilities, and environmental safety.

The technique has extensive use in urban areas for developing subsurface utilities as it helps in avoiding extensive open cut trenches. The use requires that the operator have complete information about existing utilities so that he can plan the alignment to avoid damaging those utilities. Since uncontrolled drilling can lead to damage, different agencies/government authorities owning the urban right-of-way or the utilities have rules for safe work execution. For standardization of the techniques, different trenchless technology promoting organizations have developed guidelines for this technique.


Horizontal Directional Boring - Advanced Line Systems
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Process

The process starts with the receiving hole and entrance pits. These pits will allow the drilling fluid to be collected and reclaimed to reduce costs and prevent waste. The first stage drills a pilot hole on the designed path, and the second stage (reaming) enlarges the hole by passing a larger cutting tool known as the back reamer. The reamer's diameter depends on the size of the pipe to be pulled back through the bore hole. The driller increases the diameter according to the outer diameter or the conduit and to achieve optimal production. The third stage places the product or casing pipe in the enlarged hole by way of the drill stem; it is pulled behind the reamer to allow centering of the pipe in the newly reamed path.

Horizontal directional drilling is done with the help of a viscous fluid known as drilling fluid. It is a mixture of water and, usually, bentonite or polymer continuously pumped to the cutting head or drill bit to facilitate the removal of cuttings, stabilize the bore hole, cool the cutting head, and lubricate the passage of the product pipe. The drilling fluid is sent into a machine called a reclaimer which removes the drill cuttings and maintains the proper viscosity of the fluid. Drilling fluid holds the cuttings in suspension to prevent them from clogging the bore. A clogged bore creates back pressure on the cutting head, slowing production.


Horizontal Directional Drilling (HDD) Bore It Inc. - YouTube
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Locating and guidance

Location and guidance of the drilling head is an important part of the drilling operation, as the drilling head is under the ground while drilling and, in most cases, not visible from the ground surface. Uncontrolled or unguided drilling can lead to substantial destruction, which can be eliminated by properly locating and guiding the drill head.

There are three types of locating equipment for locating the bore head: the walk-over locating system, the wire-line locating system and the gyro guided drilling, where a full inertial navigation system is located close to the drill head.

  • Walk-over locating system -- In first system a sonde, or transmitter, behind the bore head registers angle, rotation, direction, and temperature data. This information is encoded into an electro-magnetic signal and transmitted through the ground to the surface in a walk-over system. At the surface a receiver (usually a hand-held locator) is manually positioned over the sonde, the signal is decoded and steering directions are relayed to the bore machine operator.
  • Wire-line locating system -- The wire-line system is a Magnetic Guidance System. With a Magnetic Guidance System (MGS), the tool reads Inclination and Azimuth. The MGS, also has a secondary means of location verification utilizing wire grids laid on the ground surface. It is the only system that has the capability of verifying the location. This information is transmitted through the wire-line fitted within the drill string. At the surface, the Navigator in the drill cab performs the necessary calculations to confirm the parameters have been met. The MGS even without the use of the wire grid has been accurate to over 2 km with an accuracy of 2% at depth.
  • Gyro-based locating system -- The gyro based system is fully autonomously working and therefore one of the most accurate system where sufficient diameter (200 mm) is available and where long distances (up to 2 km) have to be performed with small deviation (less than 1 m position error). Although currently actual depth is not verifiable without the use of surface coils or near surface transponder or sonde used in walkover systems.

All three systems have their own merits, and a particular system is chosen depending upon the site requirements.


Municipal - Directional Boring/Drilling projects - J.R. Myers ...
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See also

  • Canadian pipe mine
  • Ditch Witch
  • Vermeer Company
  • Trenchless

Directional drilling - Wikipedia
src: upload.wikimedia.org


References

  • Willoughby, David (2005). Horizontal Directional Drilling, p. 1-263. Mcgraw-Hill, New York. ISBN 0-07-145473-X.
  • Short, Jim (1993). Introduction to Directional and Horizontal Drilling, p. 1-222. PennWell Books, Tulsa, Oklahoma. ISBN 0-87814-395-5.
  • v. Hinueber, Edgar (iMAR Navigation) (2006). Most accurate drilling guidance by dead-reckoning using high precision optical gyroscopes, Proceedings NoDig Conference of Horizontal Directional Drilling, Brisbane 2006.

Directional Boring, Geothermal Loop Systems: Machesney Park, IL ...
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External links

  • The Directional Boring Advantage describes techniques used, with diagrams.
  • ^ "Fant ny løsning som gir gravefri tilkobling av hus til hovedvannledning". Teknisk Ukeblad. 18 October 2017. Retrieved 20 October 2017. 

Source of the article : Wikipedia

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