JP2019019473A - Unloading method of sea-bottom pipeline - Google Patents

Abstract

To provide an unloading method which allows a pipeline to be installed without adversely affecting on a shore in a preservation area even when the preservation area is located in an unloading shore and allows maintenance management of the installed pipeline to be performed in an appropriate condition.SOLUTION: An unloading method of a sea-bottom pipeline comprises: constructing a tunnel using a shield driving method toward the sea-bottom from a vertical pit constructed on the ground; pulling a pipeline into the tunnel from a tip of the tunnel having an opening at the tip by cutting/retrieving a shield machine reaching the sea-bottom; and draining sea-water in the tunnel by sealing the tip of the tunnel through attaching a cutoff seal between an inner surface of a sea side tip of the tunnel and an outer peripheral surface of the pulled pipeline.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for landing a submarine pipeline.

  The gas pipeline is normally buried in the ground, but when laying a pipeline from a LNG base near the coast to a gas supply area that is far from the coast, or for a gas supply area on a remote island In the case of laying, the pipeline may be laid on the seabed. In laying such a submarine pipeline, it is necessary to land the pipeline from the seabed to the ground. The construction methods that can be employed in this case include open cutting methods, arc-shaped propulsion methods, shield methods, and the like as existing techniques. As a shield construction method, a construction method for carrying out shield propulsion into water has been proposed (see Patent Document 1 below).

JP-A-8-128296

  When the submarine pipeline is landed by the open-cut method, the bottom of the sea is excavated from the sea to a predetermined depth, and the pipeline is laid in the excavation trench. In designated areas, etc., there is a limit to excavating the seabed, and this method cannot be adopted.

  In addition, when adopting the arc-shaped propulsion method, a pilot pipe equipped with a drill head is used to dig a hole under the seabed, and a pipeline is drawn into it. Therefore, if there is a protected area as described above, it may not be possible to secure a construction extension distance exceeding that.

  On the other hand, when the shield construction method is adopted, a shaft is provided on the ground, a tunnel is constructed horizontally under the sea floor with a shield machine, and a pipeline is laid in the tunnel. Since the shield method can be designed and constructed according to the soil conditions at the site, the construction possible distance can be lengthened, and it is possible to cope with the above-mentioned protected water surface. However, since seawater flows into the tunnel when pulling in the pipeline, if it is necessary to fill the gap between the tunnel and the pipeline with air mortar with air permeability after pulling in like a gas pipeline, New construction technology is required to make the inside dry.

  The present invention has been proposed to deal with such a situation. In other words, even if there is a protected area at the landing part of the landing site in the submarine pipeline landing method, it is possible to perform construction without adversely affecting the protected part of the anchorage area, and the installed pipeline should be It is an object of the present invention to enable maintenance and management in a state.

In order to solve such problems, the submarine pipeline landing method according to the present invention has the following configuration.
The process of building a tunnel from the shaft built on the ground to the sea floor with the shield method, and cutting and collecting the shield machine that has reached the sea floor, opening the tip of the tunnel, and pipeline from the tip into the tunnel And a water sealing seal between the inner surface of the tunnel-side tip of the tunnel and the outer peripheral surface of the drawn-in pipeline, so that the tip of the tunnel is stopped, and the seawater in the tunnel is A submarine pipeline landing method characterized by having a process of draining.

  The present invention having such a feature makes it possible to perform construction without adversely affecting the ridge of the protected area even when there is a protected area at the ridge of the landing site in the submarine pipeline landing method. The installed pipeline can be maintained and managed in an appropriate state.

It is a process flow which shows the landing method of the submarine pipeline which concerns on embodiment of this invention. It is explanatory drawing which shows each process of the landing method of the submarine pipeline which concerns on embodiment of this invention. It is explanatory drawing which shows each process of the landing method of the submarine pipeline which concerns on embodiment of this invention. It is explanatory drawing which shows each process of the landing method of the submarine pipeline which concerns on embodiment of this invention. It is explanatory drawing which shows each process of the landing method of the submarine pipeline which concerns on embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Hereinafter, the same reference numerals in different drawings indicate parts having the same function, and repeated description in each drawing will be omitted as appropriate.

  As shown in FIG. 1, the submarine pipeline landing method according to the embodiment of the present invention includes a step of constructing a shaft on the ground (S1) and a step of constructing a shield tunnel (hereinafter referred to as a tunnel) toward the seabed ( S2), shield machine cutting / collecting step (S3), pipeline drawing step (S4), tunnel tip water stopping step (S5), tunnel draining step (S6), filling the tunnel with filler. It has processes, such as a process (S7) and a standing pipe connection process (S8).

  The landing process of the submarine pipeline according to the embodiment of the present invention is effectively applied when a protected area exists between the sea floor and the ground where the pipeline is landed. It can be constructed so as not to affect the environment of the part.

  Each process S1-S8 mentioned above is demonstrated in detail based on FIGS. In FIG. 2, the vertical shaft V constructed on the ground is a start vertical shaft for performing the shield method, and the vertical shaft V is built in the candidate landing site of the pipeline, and the shield machine S is inserted therein. Then, the shield machine S is propelled toward the seabed reaching point, and the tunnel T is built.

  As shown in FIG. 3, when the tunnel T reaches the seabed arrival position, seawater is put into the tunnel T, and the shield machine S is cut and collected. The shield machine S is cut by connecting the shield machine S to a crane that has been lowered from the work ship (crane ship) U1 to the seabed, and using a wire cutter such as diamond wire outside of the shield machine S cutting position. Wrap, and push and pull in the water to cut the shield machine steel shell. The cut shield machine S is collected on the work boat U1.

  In the tunnel T whose tip is open to the seabed, a water stop device Q is mounted inside the tip. The water stop device Q is attached to the tunnel T before the shield machine S is collected. Pipelines P laid on the seabed are connected to each other by welding on the laying ship U2, and are sent out to the sea one after another. A wire W is connected to the tip of the pipeline P that has been sent out and inserted into the opening of the water stop device Q, and the pipeline P is drawn into the tunnel T by pulling the wire W by the winch W1.

  After the completion of the pull-in of the pipeline P, as shown in FIG. 4, the water stop device Q attached to the tip of the tunnel T is operated, and the inner surface of the tip of the sea side of the tunnel T and the outer periphery of the pipeline P pulled in The tip of the tunnel T is water-stopped by installing a water-stop seal Q1 between the surface and the surface. Thereafter, the tunnel T and the seawater in the shaft V are drained from the shaft V by a pump (not shown) to make the inside of the tunnel T dry.

  Thereafter, as shown in FIG. 5, the tunnel T is filled with a filler E such as air mortar. For filling with the filler E, the hose is fed into the tunnel T from the ground via the shaft V, and the tunnel T is filled with the filler E discharged from the hose. After that, the vertical pipe P1 is connected to the pipeline P, predetermined piping is performed, and the vertical shaft V is backfilled. Further, the work is completed by refilling the outside of the tip of the tunnel T on the seabed.

  As described above, in the submarine pipeline landing method according to the embodiment of the present invention, the tunnel T constructed under the ground without affecting the protected water surface of the coastal area in the protected area and the environment of the buttock. The submarine pipeline P can be landed via the route.

  At this time, since no reaching shaft is provided on the sea, the work on the sea such as a ship is minimized by cutting and collecting the shield machine S and connecting (welding) the pipeline P, so the construction period can be shortened. Moreover, the delay risk due to stormy weather standby is suppressed, and the economic efficiency can be improved.

  And after drawing in the pipeline P, the tip of the tunnel T can be stopped and the inside of the tunnel T can be made into a dry environment, so that the inside of the tunnel T can be filled with a filler such as air mortar under appropriate and safe construction conditions. Can be filled.

  As a result, even when there is a protected area at the landing part of the landing site in the submarine pipeline landing method, construction can be made possible without adversely affecting the protected area. Can be maintained in an appropriate state.

V: shaft, S: shield machine, T: tunnel, U1: work ship (crane ship),
U2: Laying ship, P: Pipeline, P1: Vertical pipe,
Q: Water stop device, Q1: Water stop seal,
W: wire, W1: winch, E: filler

Claims (4)

The process of building a tunnel from the shaft built on the ground toward the sea floor using the shield method,
Cutting and collecting the shield machine that has reached the seabed, opening the tip of the tunnel, and drawing the pipeline into the tunnel from the tip;
A step of water-stopping the tunnel tip and draining the seawater in the tunnel by attaching a water-stop seal between the inner surface of the sea-side tip of the tunnel and the outer peripheral surface of the drawn-in pipeline A submarine pipeline landing method.   The method for landing a submarine pipeline according to claim 1, further comprising a step of filling the tunnel with a filler after draining seawater in the tunnel.   Before the shield machine is collected, a water stop device is attached to the inner surface of the sea side tip of the tunnel, and after the pipeline is drawn into the tunnel, the water stop device is operated to attach the water stop seal. The landing method for a submarine pipeline according to claim 1 or 2.   The method of landing a submarine pipeline according to any one of claims 1 to 3, wherein the pipeline drawn into the tunnel is connected to a vertical pipe laid in the shaft.

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