TRENCHLESS TECHNOLOGYINTRODUCTIONTT techniques include methods of pipeline & utility installations with minimum amount of surface excavationTT techniques are mainly divided into two main areas: TRENCHLESS CONSTRUCTIONMETHODS(TCM) and TRENCHLESS RENEWAL METHODS(TRM)TCM includes all methods for new utility & pipeline installations TRM includes all methods of renewing, rehabilitating, orrenovating an existing old or host pipeline or utility systemTrenchless construction and renewal project is site specific & successful completionof it is dependent on factors such as accuracy, maximum installation length, diameter range, & type of applicationCONSTRENCHLESS TRUCTION METHODSDivided into two major categories:- HORIZONTAL EARTH BORING- PIPE JACKING / UTILITY TUNNELINGAUGER BORINGUsed for installation of steel pipes and casings, especially under railways & road embankments Very economicalIt reduces damage to pavements and disruption to traffic, hence reduces social costsassociated with pipeline installationsMOLINGUsed for laying water pipes During moling process, a pneumatically driven machine known as a mole forces its waythrough the soil along the desired path of the pipeMole is a steel cylinder about 60cm long and 6cm in diameter, works as a pneumaticcylinder with pulsed compressed air causing the head of the mole to repeatedly hammeragainst the soil in front of the molePIPE RAMMINGUsed for installation of steel pipes and casings over distances usually upto 30m long and upto 1.5m in diaIt is also used for shallow installations under railway lines and roadsIt can be applied for horizontal as well as vertical installationsMethod is pneumaticWATER JETTINGMethod is simple It uses high speed jet of water to liquefy and remove soilSpecial nozzle is attached to the end of a solid rod & extended into the bore holeDisadvantages:-- poor control of overcut- disposal of large quantities of water and muck- possibility of ground settlementMICROTUNNELINGUsed to construct small tunnels for laying gravity pipe linesMicrotunnel boring machines are operated remotelyOperator controls the machine from a control room on the surface of groundMost machines also have video cameras set up to give more informationBENEFITS OF TRENCHLESS TECHNOLOGYExcavation is not necessary between access pointsRequire less space underground, minimizing chances of interfering with existing utilities or abandoned pipesAre generally quiet and nondisruptiveRequire less exposed working area & therefore are safer for both workers & thecommunity
INTRODUCTIONTrench less technology is basically making a tunnel below the surface and installing services lineslike water or gas pipes, electric or telecommunication cables etc with out any disruption to the public. It also makes it possible to install the utilities under rivers, canals and other obstacles with nodisruption of flow and with minimum or no damage to the environmentNeed for trench less technologyThe disadvantages and difficulties encountered in conventional trenching methods have resultedin thinking of the need for trenchless technology.The advantages of the no-dig technology are also responsible for the need of this technology to be adopted in mainly urban areasDisadvantage of Open trench methodAs the open trench is going to create obstruction roads, busy areas, diversions have to be provided before start of any digging work.As the obstruction is created, the traffic has to be rerouted causing traffic jams.Many a time, while cutting deep trenches in congested areas appear in the adjacent buildings.Another difficulty, which is encountered very often is the damage caused to other service lines or cables present underground.While cutting open trenches, trees, shrubs, gardens etc. may have to be destroyed damaging the environment.AdvantagesIt reduces damage of valuable surfaceIt reduces the danger of improperly compacted excavationsIt saves resourcesIt is accident freeIt avoids traffic jamIt saves underground spaceIt reduces the impact on the enviornmentIt provides a hassle-free road surfaceConclusionBy adopting this technology we can successfully implement pipes under the surfacewith out making any disruptions to the environment and public.This enables us to retain our available resources. There by keeping the earth unexcavated================================================================================================= ABSTRACT Trench less technology is the science of installing, repairing and renewing underground Pipes, ducts and cables using techniques which minimize or eliminate the need for excavation. It can reduce environmental damage, Social costs and produce in alternative to open trench method of installation, renewal and repair it includes in, development of all kinds of underground napping techniques, tunneling devices and specialist materials and equipment. 1. INTRODUCTION Trench less technology is basically making a tunnel below the surface and staling service lines like water or gas pipes, electric or telecommunication cables etc. with out any disruption to the public. It also makes it possible to install the utilities under rivers canals and other obstacles with no disruption of flow and with minimum or no damage to the environment. 2. TRENCHLESS TECHNOLOGY METHODS Trenchless technology methods system have been categorized in to two groups : 1) New installation 2) Rehabilitation and Renovation 2.1) NEW INSTALLATION Methods for installation of a new pipeline or duct, including dealing with service connection are: 1) Microtunelling 2) Horizontal directional drilling 3) Short drive system 4) Guided drilling
2.1.1 MICRO TUNNELINGControlled excavation â€œ steerable â€œLess than 1000mm diameter â€œMedium lengthMicro tunneling is a term which is used to describe remotely controlled mechanical tunneling systems where the spoil is removed from thecutting head with in the new pipe line which is advanced by pipe jacking.Micro tunneling machines have now been developed to work from drives hafts in almost all types of ground conditions. The cutting headhas to be carefully selected to deal with the expected ground conditions, with the appropriate cutting tools and crushing devices for therange of gravels, sands, slits, and clays.The only excavating required from the service is for drive and receptions shafts. Spoil may be removed from the face by an auger runningthrough the newly installed pipeline to a skip in the base of the drive shaft.Alternatively, water or bentonite may be used to convert the soil into slurry at the cutting face. The slurry is less then pumped to the surfacewhere the solids are separated before disposal .Microtunneling is used extensively for sewerage work where surface disruption has to be minimized. Machines are now available todrive 100mm or more in soft ground for sizes 100mm diameter upwards. from drive shafts of less than 3mm diameter.Micro tunneling system has been developed in which temporary steel tubes are jacked in and removed at the next manhole position, thenew pipeline following in the established bore. In microtunnelling, the only indication on the surface is the presence of a control containerwith a hoist for lowering pipes into the drive shafts. Noise levels and traffic disruption are minimisedHorizontal Directional Drilling2.1.2 HORIZONTAL DIRECTIONAL DRILLINGSteerable heavy, powerful rig-Large size range â€œLong distancesHorizontal drilling systems are nowadays widely used for installing pressure pipes under major obstacles such a motor way intersections,large rivers and airports runways.A small rotating and steerable drill bit is launched from the surface at an angle 10-15 and is used to drill 90mm mud filled diameter hole.During the drilling operation a 125mm diameter washover pipe is drilled over the pilot string and following some 100mm behind the head.Alternate drilling then continues on the pilot string is removed and the bore is enlarged by a rotating barrel reamer attached to and pulledback by the wash over pipe, drilling mud being used to llushed away the cuttings and to support the reamed hole. Subsequent camingcontinues until required diameter is achieved. The product pipe is less than attached to the reaming head and pulled through the boredrives of more than 1.5km and of up to 1200mm diameter have been carried out.2.1.2 SHORT DRIVE SYSTEMSEssentially unsteered â€œSoil displacementAuger Boring utilizes a rotating head to excavate the soil, which is transported by auger flights operating in a casing to the drive pit. Thehead is recovered at an exit pit or in the trench cut for the adjacent length of pipe line. Auger boring is used in the range of 100-1000mmdiameterAugur BoringImpact Moling in which a percussive mole is launched from a drive pit to displace the soil and from a bore is widely used. The new conductis normally drawn in behind the mole. They are used to install services for all utilities.Rod Pushing is a technique in which a bore of about 50mm diameter is formed by displacement. A rod is advanced by a straight hydraulicpush and the pilot hole may be back reamed to the required size. The technique is used for the installation of pipes and conduits up to15mm diameter over lengths of 30-40mm.Pipe ramming and Thrust boring are similar processes where a casting, usually steel, is driven through the ground from the drive pit to theexit pit. Accumulating spoil is removed by compressed air and water after completing the bore. Pipe ramming is suitable for most types ofsoil but not suitable where there are solid rock formations. It is said to be a cost saving alternative to open trenching, angering or pipejacking methods. Usually pipes up to 2000mm diameter can be laid using this technique depending upon the equipment uses.2.1.4 GUIDED DRILLINGSteer able small rig-Sallow drilling-Medium lengthGuide drilling employs an excavation or soil displacement with compact lightweight rig for rapid mobilization. Small diameter jetsmechanized cutting tools or displacement heads attached to a flexible drill string are positioned to form a bore as the head is thrustforward. The drilling head is launched from the surface at an inclined angle. Controlling the orientation of a slant face at the head effectssteering in both vertical and horizontal planes. Monitoring of the alignment takes place using a transmitter in the head and a locating deviceat ground level.Guided DrillingI having established the pilot bore; back reaming equipment is drawn through the hole to enable it to accept the product pipe, duct, or cableusing an impact mole.
4.TECHNIQUES OF TRENCIILESS TECHNOLOGY IN INDIAThe main trenchless techniques which are in use in India (included in the above mentioned methods) are described below.4.1. DIRECTIONAL DRILLINGDirectional drilling involves steerable tunneling systems for both small and diameter lines. In most cases, it is a two-stage process. The firststage consists of drilling a small diameter pilot hole along the desired centre line of a proposed line and in the second stage, the pilot holeis enlarged to the desired diameter to accommodate the utility line and to pull the utility line through the enlarged hole. The pilot hole is ofapproximately 3 inches in diameter and is drilled with a specially built rig up with an inclined carriage typically adjusted to between 5 and 30degrees, which pushes the drill rods into the ground. However the optimum angle is 12 degrees. As the pilot hole is being drilled,bentonite-drilling mud is pumped down the center of the drill rods. The drill head consists of either a jetting head or drill bit. In the case of ajetting head, small diameter high-pressure jets of bentonite actually cut the soil and facilitate spoil removal by washing the cuttings to thesurface where they settle out in a reception pit. In case of drill bit, the bit is driven by a down hole mud motor located just behind the drill bitfrom energy derived from the pumped drilling fluid. Before the start of back reaming the pipeline has to be positioned on rollers in line withthe hole to minimize any axial load on the line.Advantages(1) The major advantage is the speed of installation combined with the minimum environmental and social impact.(2) Long and complicated crossings can be accomplished with a great degree of accuracy since it is possible to monitor and control thedrilling operation so that utilities can be fit into small corridors where little place is available between existing utilities.(3) Another advantage is that sufficient depth can be accomplished to avoid other utilities.(4) Limitation of access and reception pits is another advantage.Disadvantage(1) Special equipment and very high degree of operation skill is required.(2) As the cost of the equipment and the operation are high, bore length should be sufficient in order for it to be economical.(3) Mainly steel pipe is being installed by the method.4.2 RAMMINGIn this method, the pipe is rammed through the soil by using a device attached to the end of the pipe to drive the pipe through the soil. Inthis method, the tool does not create a borehole. It acts as a hammer to drive the pipe through the soil.Compressed air supplied from an air compressor is generally used as a power source. When ramming pipe, the leading edge cuts aborehole, the spoil enters the pipe and is compacted as it is being forced to the rear of the pipe. After the whole length of the pipe isrammed in place, the tool is removed and the pipe is cleaned out.The type of pipe installed by the pipe ramming method is limited to steel due to the application of cyclic impact loads on the pipe. The sizeof the pipe ranges from 2 inches to 55 inches. This method is capable of installing pipes to over 200 feet (60 meters) in length.AdvantagesThe pipe ramming is an effective method for installing medium size pipes. The method is economic since the equipment cost is not veryhigh and the operation is simple. The pipe can be installed in one piece or segments. This can be used in almost all types of soils. Themethod does not require any thrust reaction structure.DisadvantagesThe major disadvantage is that there is no control over the line and grade and in case of obstructions like boulders, the pipe may bedeflected. Then work should be stopped immediately. For small diameter pipelines, the method is economical, but for large diameter pipes,the equipment cost is high.4.3. MOLINGMoling is a method, which forms the borehole by compressing the earth that immediately surrounds the compacting device which is anunderground piercing (mole) is propelled by a power source. The tool is streamlined into bullet or shape. The method is restricted torelatively small diameter lines in compressible soil conditions.Compressed air or hydraulic fluid, transmitted to the toot through the flexible hoses, imparts energy at a blow frequency of 100 to 600strokes per minute to a reciprocating piston located inside the nose of the tool. This action results in the tool propelling itself through theground. It is applicable in most ground conditions from loose sand to firm clay. The method required the use of boring and receiving pit.After the operation the unit can be backed out of the borehole. The tool is removed and the cable is attached to the air hose and pulledback through the borehole. In the case of rigid pipe, it can simply be pushed through the open borehole. Any type of pipe or cable can beinstalled by the method.Moling EquipmentPipe size is generally limited to 6 inches or less. However, modern techniques in mole manufacturing have increased the ability to makebores of large sizes. Even though 200 feet (60 meter) bores have been successfully made by this method, the span lengths were limited to60 feet (18 meter) with 40 feet being optimum. Again span lengths have increased with modern advances in mole design.
(i) It provides the hassle-free road surface.(j) It is possible to lay service lines across railway track, narrow lanes etc. When open trenching is impossible.(k) Presence of a canal, pond, river etc. across the root poses no problems to the trench less technology systems.(l) Without disturbing the traffic and life on the surface, the lines can be laid below ground in a much shorter time by using this technology.(m) For replacement, repair and rehabilitation of old water and sewer lines in cities, it is very helpful to use trench less technology withoutdisturbing the normal life on the surface.6. CONCLUSIONWith all round developments in various fields like petrochemicals where conveyance of gas, crude and refined products over longdistances is common, telecommunication and power, water supply and sewerage etc. and mushrooming growth of high- rise buildings inand in and around the cities is becoming increasingly necessary that these lines are laid underground leaving space above surfacecomparatively free. i.e., Adoption of trench less technology is the only remedy. Also if costs benefit analysis of the two systems (i.e. opentrenching methods and trenchelss technology methods) is conducted, considering both direct and indirect costs, it will help us makeinformed divisions on technology selection, under different circumstances.7. REFERENCES1) &Jagadish Chandra, Trenchless Technology in India: Need of the Neww Millennium. Civil Engineering and Construction Review October2000- page 482) Maninder Singh, Techniques of Trenchless Technology In Use In India. Civil Engineering and Construction Review October 200- page433) Dr.Neeraja Lugani Sethi, Pre- Requisites for Trenchless Technology. Civil Engineering and Construction Review October 2000- page 214)Sarkar A.K, Trenchless Technology and INDSTT In India. Civil Engineering and Construction Review October 2000- page 135)The Construction Journal of India November 2001- page216)http://www.google.comReference: http://www.seminarprojects.com/Thread-trenchless-technology-full-report#ixzz1hdFnIDfv