Trenchless technology
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Transcript of Trenchless technology
TRENCHLESS TECHNOLOGY
PRESENTED BY
REMYA RAJEEV
CONTENTS
INTRODUCTION TRENCHLESS TECHNOLOGY METHODS REHABILITATION ADVANTAGES DISADVANTAGES CONCLUSION
INTRODUCTION
Trenchless technology can be defined as “a family of methods, materials and equipment capable of being used for the installation of new or replacement or rehabilitation of existing underground infrastructure with minimal disruption to surface traffic, business and other activities”
The difference between trenchless and other subsurface construction techniques depend on the size of passage under construction.
If a subsurface construction does not permit human entry, it can be termed “trenchless”.
TRENCHLESS TECHNOLOGY METHODS
NEW INSTALLATION
REHABILITATION AND RENOVATION
NEW INSTALLATION
MICROTUNNELING
HORIZONTAL DIRECTIONAL DRILLING
SHORT DRIVE SYSTEM
GUIDED DRILLING
MICRO TUNNELING
Only excavation required is for drive and reception shafts. Can be used in almost all types of ground conditions. First step, soil is converted in to slurry using water or
betonies. Temporary steel tubes are jacked in and removed at next
manhole position. Only indication on the surface is the presence of a control
container with a hoist for lowering pipes in to the drive shafts.
Noise levels and traffic disruption minimized.
HORIZONTAL DIRECTIONAL DRILLING
These are nowadays widely used for installing pressure pipes under major obstacles such a motor way intersections, large rivers and airports runways.
The first stage consists of drilling a small diameter pilot hole along the desired centre line of a proposed line.
In the second stage, the pilot hole is enlarged to the desired diameter to accommodate the utility line and to pull the utility line through the enlarged hole.
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.
Before the start of back reaming the pipeline has to be positioned on rollers in line with the hole to minimize any axial load on the line.
ADVANTAGES
Speed of installation combined with the minimum environmental and social impact.
Method involves minimum surface damage Save a lot of time and expenses. Great importance in congested urban areas where the numbers
of underground utilities are high often very little space is available.
River crossings, the effect of buoyancy and danger of river bed erosion are eliminated as the utility can be installed.
DISADVANTAGES
Special equipment and very high degree of operation skill is required.
As the cost of the equipment and the operation are high, bore length should be sufficient in order for it to be economical.
Mainly steel pipe is being installed by the method.
SHORT DRIVE SYSTEMS
AUGER BORING
RODPUSHING
PIPE RAMMING & THRUST BORING
GUIDED DRILLING
AUGER BORING
Utilizes rotating head to excavate Head is recovered at an exit pit for the adjacent length of the
pipe. Used in the range of 100-1000mm diameter Requires bore pits at both entry and exit points. Pipe size from 100-1500 mm and avg bore length btwn 53-68 m Major advantage is casing is installed at same time as bore hole
excavation. Requires different sized cutting heads and auger sizes. Difficult to use in soils containing large boulders.
AUGER BORING
IMPACTMOLING
Pipe size is generally limited to 6 inches or less. The span lengths were limited to 60 feet (18
meter) with 40 feet being optimum. Any type of pipe or cable can be installed. Applicable in most ground conditions.
ADVANTAGES
Rapid, economical and effective method for installing small diameter lines
Any type of utility line can be installed using this method.
Stability of soil around the borehole is increased due to compaction
Investment in equipment is minimum.
DISADVANTAGES
Compaction methods are limited in length by reliability because basic systems are unintelligent
Unguided tools tend to bury themselves, surfaces in the middle of road or damage existing utility lines.
ROD PUSHING
A bore of diameter 50 mm is formed by displacement.
Rod is advanced by a straight hydraulic push and pilot hole may be back reamed to required size.
Used for installation of pipes and conduits up to 15mm dia over lengths of 30-40 mm
PIPE RAMMING & THRUST BORING
Suitable for most soil types except solid rock formations.
Cost saving alternative to open trenching, pipe jacking methods.
Pipes up to 2000mm dia can be laid using this technique.
GUIDED DRILLING
It employs an excavation or soil displacement with compact light weight rig for rapid mobilization.
REHABILITATION & RENOVATION
PIPE BURSTING
PNEUMATIC PIPE BURSTING
STATIC PIPE BURSTING
PNEUMATIC PIPE BURSTING
Air powered hammer mounted inside bursting head. Constant tension winch designed to facilitate extraction of
burst head. Excavation cost reduced. Bursting head bursts damaged pipeline and new pipe is
pulled in. Lubricants used for larger and longer bursts. HDPE pipe is used.
STATIC PIPE BURSTING
Preferable in clayey soils . Existing pipelines can be replaced without opening
up ground. Mole is used as bursting head. Small power source is used to drive mole .
PIPE EATING
Based on micro tunneling. Defective pipe excavated together with surrounding
ground. Consists of micro tunneling shield. Shield has larger diameter than existing pipe. Pipe fragment can be removed by 2 methods
1. Vacuum excavation
2. Slurry pumping
Contd..
Pipe eating shield is pushed forward using hydraulic jacks.
Replacement pipes are connected to the back of tunneling shield.
This technique can be used to replace clayware,concrete,asbestos pipe etc.
RELINING THE EXISTING PIPES
CURED-IN-PLACE LINING CLOSE-FIT LINING SLIP- LINING SPRAY LINING
CURED-IN-PLACE LINING
Fabric impregnated with polyester or epoxy resin is inserted in to defective pipe & inflated against pipe wall.
Cured by hot water, steam or UV light. The lining adjusts to variations in pipe size. Used for the rehabilitation of gravity sewers etc. Usually results in no loss of capacity.
CLOSE-FIT LININGS
It is deformed through a swage a metal dye) or manufactured in folded state.
Spirally wound liners are a form of close-fit. Useful for emergency repairs and for strengthening
weak pipes.
SLIP-LINING
Involves putting a pipe within a pipe and grouting the resulting annulus between the pipes.
Causes reduction in capacity. Modifications are introduced to reduce thickness of liner
and size of annulus.
SPRAY LINING
Cement or resin is used. Cost effective. Ease of transport Mobilization of equipment.
RELINING PIPES
LOCALIZED REPAIR
COATINGS CEMENT MORTAR REINFORCED GUNITE RESIN GROUT
COATINGS
Used to repair cracks To protect from corrosion ,mechanical abrasion. Manual coating possible for pipes with a minimum of
1.21 m diameter. No extra work or equipment needed.
CEMENT MORTAR
Applied to concrete, steel or iron pipes. Service life extended up to 50 yrs. Made of 1 part sulphate resistant cement to 2
parts sand. Cannot be applied in pipe networks with many
bends, or in very cold regions.
REINFORCED GUNITE
Also referred as “SHOTCRETE” Mixture of cement, sand and water. Steel reinforcing mesh attached inside pipe. Improves structural integrity of system. Can be used on varying cross-sectional profiles. It reduces internal diameter of original pipe. Reduces coefficient of friction. Application restricted to pipes of dia greater than 4ft.
RESINS
Coating are made of polyurethane, phenol epoxy or poly urea.
Can solve problems of corrosion and erosion. Can be applied to steel or concrete pipes. Excellent adhesion and impermeability.
GROUT
Grout is a variety of materials used to fill voids, stabilize soil, hold bricks in place, coat cement & prevent infiltration.
Used here to seal the joints between segmented concrete pipes.
Used to seal off ground water infiltration in non pressure pipelines.
Adapts well to irregular surface.
LIMITATION & ADVANTAGES OF GROUT
Limitations Advantages
Not a structural repair Stops groundwater from leaking in
Requires highly skilled operators Stabilizes soil
Difficult to seal actively infiltrating joints
Fills void around pipe
Packer will not seal properly in badly corroded pipe
Is a long-term, inexpensive trench less technology
Not for small- or large-diameter pipe Well suited to 10- to 15-in. pipe
Can make small cracks bigger
Pipe must be thoroughly cleaned and in good condition (no protruding taps or broken sections)
TRENCHLESS TECHNOLOGY IN INDIA
Brihan Mumbai Municipal Corporation for the construction of 3m dia. Tunnel by micro tunneling.
MTNL in Delhi, kolkata installing large telephone cables by T.T.in Delhi 185 k.m line is made by this.
Pipe line laying below river bed is impossible by open trench method, pipe line laying below Hoogly river by this technique is sufficient to say its importance
In Varanasi(u.p) an urgent repair for brick sewers is successfully done by this In kolkata 700m length and .762 dia. Iron pipe was repaired which started
leakage. Laying of 18’ dia. Pipe of HBJ across yamuna river is accomplished by this
technique 1719m gas pipeline was laid 35mbelow gautam-godavari river in 1994 3 underground crossing of 24’ dia. And 350 long pipes were completed by
Indian Oil Corporation for panipat refinery.
NEED FOR TRENCHLESS TECHNOLOGY
The disadvantages and difficulties encountered in conventional trenching methods have resulted in thinking of the need for trench less technology.
The advantages of the no-dig technology are also responsible for the need of this technology to be adopted in mainly urban areas
OPEN TRENCH METHOD
– As the open trench is going to create obstruction roads, busy areas, diversions have to be provided before start of any digging word.
– As the obstruction is created, the traffic has to be rerouted causing traffic jams.
– Original users of the road have to undergo hardships in the form of additional mileage as well as time.
– 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, providing temporary supports to these lines during the construction is cumbersome and costly affair.
– Trenches left open overnight should be fenced and barricaded. Hand of mechanical signs should be used where necessary.
CONTD..
– While cutting open trenches, trees, shrubs, gardens etc. may have to be destroyed damaging the environment.
– If any rehabilitation or renovation is required, the trenches once cut and refilled should again be cut through out and refilled causing difficulties to the public; that is, cutting and refilling is required at frequent times
ADVANTAGES OF NO-DIG TECHNOLOGY
It reduces damages of valuable surface. It reduces the danger of improperly compacted excavations. It saves resources. It is accident free. It avoids traffic jam. It makes the use of the line (track) of the old pipe possible. It saves underground space (pipe busting). It reduces the impact on the environment. It provides the hassle-free road surface. It is possible to lay service lines across railway track, narrow lanes etc. When open
trenching is impossible. Presence of a canal, pond, river etc. across the root poses no problems to the trench
less technology systems. 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. For replacement, repair and rehabilitation of old water and sewer lines in cities, it is
very helpful to use trench less technology without disturbing the normal life on the surface.
CONCLUSION
Planners need to understand the opportunities that the alternative TT has to offer. Designer must design with the knowledge that a wide range of TT and techniques are already available with continuing economic advantages. Likewise with trench less installation, refurbishment and rehabilitation techniques, a wide range of social technical and economical advantages will also be readily available. High level strategies within the utilities to utilize the available technology must be encouraged. This implies developing an understanding of the value of the application of technology and linking this closely with asset management strategies already in place. Once there is greater awareness of the impressive state of development that T.T industry has achieved when advantage is taken of the range of technique equipment and material that already exist and when the traffic authorities and utilities recognize the need for and advantage of T.T then the true potential of no-dig techniques will start to be realized.