A submerged tunnel floats underwater, supported by buoyancy, with cables anchoring it to prevent floating up or sinking down. It has advantages over bridges such as being lighter and experiencing less stress during earthquakes. Submerged tunnels can be constructed by dredging a trench, casting tunnel elements, transporting them to the site, and lowering them into place before sealing the joints and backfilling over top. While requiring specialized marine construction, the technique is often less risky than other tunneling methods and allows for faster construction between shores.
2. What is this???
∗ A Submerged Tunnel is a tunnel that
floats in water, supported by
its buoyancy(specifically, by employing
the hydrostatic thrust, or Archimedes'
Principle).
∗ The tube is placed underwater, deep
enough to avoid water traffic and
weather, but not so deep that high
water pressure needs to be dealt with
—usually 20–50 m (60–150 ft.) is
sufficient. Cables either anchored to the
Earth or to pontoons at the surface
prevent it from floating to the surface
or submerging, respectively.
3. Why this ?
∗ The big advantage of a floating submerged tunnel compared to a bridge is the
lightly loaded construction. Under water a weight reduction takes place which
lowers the loads to be carried by the tunnel.
∗ Flexible submerged tunnel has much less problems with earthquakes which can
less problems with earthquakes
happen in this area.
∗ Floating tunnel can be built fast from both shores having no problems with wind
or high seas.
or high seas
∗ Another possible advantage is space: the downward ramp leading to a tunnel
leaves a smaller footprint compared to the upward ramps required by most
bridges.
∗ Moreover traffic can run very fast through this tunnel compared to ferry link.
∗ Due to lesser contact with the sea bed it has lesser possibilities of chemical
reaction with the construction material & the sea bad soil strata.
4. Submerged tunnels can be placed immediately beneath a waterway. In contrast, a
bored tunnel is usually only stable if its roof is at least its own diameter beneath the
water. This allows Submerged tunnel approaches to be shorter and/or approach
gradients to be flatter - an advantage for all tunnels, but especially so for railways.
12. Regular vs. Underwater Tunnels
Regular
Underwater
Average Costs
$ 787,500,000
$6,349,500,000
Average Length
3.5 miles
= 5.63 km
1-3
4.5miles
= 7.24 km
3-6
Years Build
http://www.eurotunnel.com/uk/
13. How this is constructed…….
∗ A trench is dredged in the bed of the water channel.
DREDGING
Dredging technology has
improved considerably in
recent years, and it is now
possible to remove a wide
variety of material
underwater without adverse
effects on the environment of
the waterway.
14. ∗ Tunnel elements are constructed in the dry, for example in a casting basin, a
fabrication yard, on a ship-lift platform or in a factory unit.
casting basin
ship-lift platform
fabrication yard
factory unit
15. After Casting…..
∗ After casting the ends of the element are then temporarily sealed
with bulkheads.
∗ Each tunnel element is transported to the tunnel site - usually
floating, occasionally on a barge, or assisted by cranes.
16. The immersion of the tunnel element is carried out after
the tunnel element has been moved and the element
has been ballasted as necessary to provide adequate
loads in the immersion tackles.
17. The tunnel element is lowered to its final place on the
bottom of the dredged trench.
18. The new element is placed against the previous element under
water. Water is then pumped out of the space between the
bulkheads.
Water pressure on the free end of the new element compresses
the rubber seal between the two elements, closing the joint.
20. Approach structures can be built on the banks before,
after or concurrently with the Submerged tunnel, to
suit local circumstances.
21. ∗ Submerged tunnels are sometimes perceived by newcomers to the technology as
"difficult" due to the presence of marine operations.
∗ In reality though, the technique is often less risky than bored tunneling
and construction can be better controlled. The marine operations, though
unfamiliar to many, pose no particular difficulties.
22. ∗ Tunnels required for higher costs of security and construction than
bridges. This may mean that over short distances bridges may be
preferred rather than tunnels (for example Dartford Crossing).
∗ Bridges may not allow shipping to pass, so solutions such as the
Oresund Bridge have been constructed.
∗ Implementation of this project is very tough & requiring skilled
labours & heavy machinery & facing very adverse situations.