01-07-2014, 12:17 PM
TRENCHLESS TECHNOLOGY
TRENCHLESS TECHNOLOGY.pptx (Size: 405.57 KB / Downloads: 29)
Introduction to topic
Digging of open trenches is a common practice for laying of almost all underground utility services.
Cities with growing population have road congestion, vehicular traffic jams, pollution problem etc.
If streets are excavated for laying pipes and cables the situation will more difficult.
If it happens in rainy season it involves dewatering.
To overcome this problem Trenchless Technology is the best solution
Definition
Trenchless technology can be defined as an innovative process of installing utilities, rehabilitating and reconstructing the existing underground utilities without digging the ground or minimum digging.
It also means no demolition of buildings, dislocation of traffic, or disruption of existing sub surface cable or pipe network
Application
Gas pipeline
Oil pipeline
Water pipeline
Sewer pipeline
Electric power lines and cables
Data communication cables
Telecommunication cables
Advantages of trenchless
No Digging -
The only digging involve for the access shaft located some 200M spacing.
Even this shaft can be covered up with steel plates over which the traffic can flow during busy day time. During lean time traffic period the shafts can be open up & the work can carry out.
Therefore the disturbance to traffic is minimum or negligible.
2) Trenching below the structure -
It can be used to lay the services below the valuable property and existing structure like building
3) Across the River or Lake -
It is very use full for laying the service line of gas line below the river or lake
Limitation
If the underground strata consist of both soil and hard material like rock or boulders different type of machine will be required which may inconvenient and uneconomical.
Ground obstacle like existing services, old pipe lines etc. May create a problem
Precise control of gradient and alignment are sometime difficult to achieve.
TRENCHLESS TECHNOLOGY METHODS
Trenchless technology methods system have been categorized in to two groups
1) New installation
Micro tunneling
Horizontal directional drilling
Short drive system
Guided drilling
2) Rehabilitation and Renovation
Pipe bursting
Pipe eating
Slip lining
Lining Formed in Place
Spray-On Lining
Localized Repair
Chemical Stabilization
MICRO TUNNELING
Micro tunneling is a method of installing new pipelines.
Suitable for pipe dia. less than 1000mm and sewerage work where surface disruption should be minimum.
The only excavation required from the service is for drive and receptions shafts. Soil may be removed from the face by an auger running through the newly installed pipeline.
water may be used to convert the soil into slurry at the cutting face. The slurry then pumped to the surface
HORIZONTAL DIRECTIONAL DRILLING
Horizontal drilling systems are widely used for installing pipes under major obstacles such a 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
PIPE BURSTING
It is a method of replacing burried pipelines such as sewer, water or natural gas pipelines.
An expending device called expander head is introduced into the defective pipelines through a launching pit.
As it travels through the pipelines towards the receiving pit, it breaks the pipe into many small pieces, pushing the pieces into the surrounding soil.
New pipe is attached to the back of the expander head,replacing the line immidiately.
SLIP LINING
Sliplining is the oldest method and used for repairing leaks.
Slip lining involves the insertion of a new pipe in an existing pipe.
A new pipe whose dimensions are smaller than the dimensions of existing is either pulled or pushed into the host pipe.
Polyvinyl chloride pipes are generally used as a new pipes.
After a new pipe has been installed, the space between new pipe and old pipe is grouted.
CONCLUSIONS
Due to higher traffic density, social and environmental impacts, and high construction costs associated with open-cutting
In the past, culvert-lining techniques were developed on a projectby-project basis due to lack of standards and specifications.