KR20120019175A - Method for installing flare tower - Google Patents

Abstract

PURPOSE: A flare tower installation method is provided to minimize additional facilities and costs by integrating processes for erecting and mounting a flare tower. CONSTITUTION: A flare tower installation method is as follows. A pair of booms(11) provided on a first sea crane(10) are located in parallel above a flare tower laid on a carrier so that the flare tower is located between the booms. The hooks of the booms are connected to both sides of the flare tower and the hook of a second sea crane(20) is connected to the flare tower. The flare tower is lifted off the carrier using the first and second sea cranes, and then erected between the booms and mounted on a marine structure at the same time.

Description

Installation method of flare tower {METHOD FOR INSTALLING FLARE TOWER}

The present invention relates to a method for installing a flare tower configured to minimize the additional equipment operation and costs by enabling the unified and mounted flare tower to be carried out unified continuously.

In general, a vessel storing crude oil or LNG (Liquefied Natural Gas) is provided with a flare tower (flare tower) for incineration of crude oil or gas.

These flare towers are largely divided into upright and inclined types. The upright flare tower is erected by a large crawler crane on land, and then fixed and then mounted again using a marine crane. This is used.

Such a conventional flare tower installation method requires the securing and fixing of the on-shore workshop for the upright flare tower, requires a heavy lifting frame (rigging) and rigging (rigging), and the use of a crane The high frequency and number of working days contributed to the increased cost.

In particular, the conventional flare tower installation method requires an additional cost, for example, a dedicated workshop and a crane for upright, as the manufacturing work and the installation work are carried out in a separate process, additionally, such as fixed work after the land upright. As the operation occurred, the operation cost and duration of the facility and the addition of additional working hours were inevitable, and it was difficult to secure workability and safety due to the accompanying height work when working on the land, and the working period was long.

In addition, the lifting frame used in the conventional flare tower installation is dismantled from the flare tower when finished using it takes a lot of effort and time due to this, there was a problem causing an increase in cost due to high weight.

The present invention is to solve the conventional problems as described above, by minimizing the additional equipment operation and cost, by reducing the time required to work by uniting the installation work for the upright and mounting of the flare tower continuously To improve it.

In addition, it is possible to lighten the lifting frame used for the installation of the flare tower to reduce the cost incurred.

In the method for installing a flare tower according to an aspect of the present invention, in the method for installing a flare tower, a pair of booms provided in the first offshore crane is located so as to be parallel to the upper side of the flare tower lying on the carrier ship, the boom An alignment step of positioning the flare tower in between; Connecting the hooks of each of the booms to both sides of the flare tower, and connecting the hooks of the second marine crane to the flare towers; An upright step of lifting the flare tower from the carrier by the first and second marine cranes and standing vertically between the booms; And a mounting step of mounting the flare tower erected by the upright step on an offshore structure.

In addition, the connecting step is characterized in that the hook of each of the boom is connected to the upper side of the center of gravity in the flare tower, and the hook of the second marine crane is characterized in that connected to the lower side of the center of gravity in the flare tower.

In addition, the connecting step has a support bar extending horizontally on both sides of the flare tower, the flare tower is the first by using a lifting frame provided with a fastening portion for fastening the hook of the boom at each end of the support bar It is characterized in that it is connected to the marine crane.

In addition, the lifting frame is characterized in that the support bar is fixed to be integral to the flare tower by being connected to the vertical member and the horizontal member of the flare tower by a plurality of reinforcing bars.

In addition, the upright step may include the first and second marine cranes lifting up to a predetermined height while keeping the flare tower level; And allowing the first marine crane to lift the flare tower upright between the booms while guiding the second marine crane inclined to the flare tower.

According to the present invention, it is possible to minimize the additional equipment operation and cost, and to reduce the time required for offshore cranes, as well as to be able to continuously perform the production, upright and mounting of the flare tower unified, and through the rotation of the land workshop Productivity can be improved, and the lifting frame can be lightened, thereby increasing the ease of installation and economy.

1 to 6 are views for sequentially explaining the installation method of the flare tower according to the present invention.
7 is a front view showing a state in which the first marine crane is connected to the flare tower in the installation method of the flare tower according to the present invention.
8 is a perspective view showing a lifting frame used in the installation method of the flare tower according to the present invention.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

1 to 6 are views for sequentially explaining the installation method of the flare tower according to the present invention.

As shown in Figures 1 to 6, the installation method of the flare tower according to the present invention is an alignment step of aligning the first marine crane 10 and the flare tower (flare tower 1), and the first marine crane (10) ) And a connecting step of connecting the second marine crane 20 to the flare tower 1, an upright step of vertically setting the flare tower 1 by the first and second marine cranes 10, 20, and an upright It may include a mounting step for mounting the flared tower (1) to the offshore structure (50).

As shown in FIG. 1, according to the alignment step, the pair of booms 11 provided on the first marine crane 10 are positioned side by side on the flare tower 1 lying on the carrier ship 30, The flare tower 1 is positioned between the booms 11. In addition, the first marine crane 10 can be moved while the carrier ship 30 is docked to align the boom 11 and the flare tower 1 with each other. In the docked state, it is fixed to the mooring line 31, and the first and second marine cranes 10 and 20 are also fixed to the position defined by the mooring lines 13 and 23 for work.

As shown in FIG. 2, according to the connecting step, each hook (not shown) of each of the booms 11 provided on the first marine crane 10 is connected to both sides of the flare tower 1 (see FIG. 7). , The hook (not shown) of the second marine crane 20 is connected to the flare tower (1). At this time, in the connecting step, the hooks of each of the booms 11 provided in the first marine crane 10 are connected to the upper side of the center of gravity in the flare tower 1, so that the first marine crane 10 connects the flare tower 1. At the time of lifting, the player tower 1 may be lifted in the direction in which it is erected. In addition, by connecting the hook of the second marine crane 20 to the lower side of the center of gravity in the flare tower 1, the second marine crane 20 can serve to guide the flare tower (1) to be vertical. . In the first and second marine cranes (10, 20), each hook is located at the ends of the cable (12, 22), the reference numerals will be omitted.

On the other hand, as shown in FIG. 7, the cables 12 drawn out from the boom 11 of the first marine crane 10 (shown in FIG. 2) are substantially parallel to both sides of the flare tower 1 so as not to cross each other. For this purpose, the first marine crane 10 may be connected to the flare tower 1 by using a lifting frame 40.

As shown in FIG. 8, the lifting frame 40 has a support bar 41 extending horizontally on both sides of the flare tower 1, and at the end of the support bar 41 a boom 11 (shown in FIG. 7). Fastening part 42 to which hooks (or wires) from each other are fastened to each other, and the support bar 41 is provided with a plurality of reinforcing bars on the vertical member 1a and the horizontal member 1b of the flare tower 1. By being connected by 43 can be fixed to the flare tower (1) integrally. On the other hand, the flare tower (1) usually has three vertical members (1a), except for one vertical member (1a) in which the lifting frame 40 is installed, the same as the fastening portion (42) Each of the fastening portions 44 to which hooks (or wires) from the 1 marine crane 10 may be connected may be installed.

As shown in FIGS. 3 to 5, according to the upright step, the flare tower 1 is lifted from the carrier ship 30 by the first and second marine cranes 10 and 20 to lift the first crane 10. Stand vertically through the booms (11).

The upright step is, for example, as shown in Figure 3, the first and second marine cranes (10, 20) to maintain the height of the flare tower 1, for example, the flare tower (1) Lifting it to a height such that the lower portion of the flare tower 1 does not collide with the carrier ship 30 when standing up, and as shown in FIGS. 4 and 5, the second marine crane 20 is flared tower 10. ), The first offshore crane 10 may be lifted to bear most of the weight of the flare tower 1 to allow the flare tower 1 to stand upright between the booms 11.

As shown in FIG. 6, according to the mounting step, the flare tower 1 erected by the upright step is mounted on a marine structure 50 such as a ship or a floating structure that requires mounting. Here, the first offshore crane 10 and the second offshore crane 20 (shown in FIG. 5) may move to the offshore structure 50 to mount the flare tower 1. Alternatively, the flare tower 1 The flare tower 1 is mounted on the offshore structure 50 in a state where the positions of the first offshore crane 10 and the second offshore crane 20 (shown in FIG. 5) are fixed in order to ensure stable mounting and operation reliability. You can do that. In addition, the mounting step may continuously perform the operation of fixing the flare tower (1) mounted so as to stand up to the offshore structure 50 to the offshore structure (50).

Such installation method of the flare tower according to the present invention can be carried out continuously by unifying the production and upright and mounting of the flare tower, thereby minimizing additional equipment operation and costs. In addition, it reduces the time required for offshore cranes and improves productivity through the rotation of the on-shore workshop, and the lifting frame is integrated with the flare tower to enable light weight, thereby increasing the ease of operation and economy.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

1: flare tower 1a: vertical member
1b: horizontal member 2: inner wall
10: first offshore crane 11: boom
12 cable 13 mooring line
20: second offshore crane 21: boom
22 cable 23 mooring line
30: carrier ship 31: mooring line
40: lifting frame 41: support bar
42, 44: fastening portion 43: reinforcing bar
50: offshore structures

Claims (5)

In the method of installing a flare tower,
An alignment step in which a pair of booms provided on a first marine crane are positioned side by side on a flare tower lying on a carrier, and the flare towers are positioned between the booms;
Connecting the hooks of each of the booms to both sides of the flare tower, and connecting the hooks of the second marine crane to the flare towers;
An upright step of lifting the flare tower from the carrier by the first and second marine cranes and standing vertically between the booms; And
Mounting step for mounting the flare tower erected by the upright step in the offshore structure
Installation method of the flare tower comprising a. The method according to claim 1,
The connecting step is the installation method of the flare tower, characterized in that for connecting the hooks of each of the boom to the upper side of the center of gravity in the flare tower, the hook of the second marine crane from the flare tower to the lower side of the center of gravity . The method according to claim 1 or 2,
The connecting step has a support bar extending horizontally on both sides of the flare tower, the flare tower is the first marine crane by using a lifting frame provided with a fastening portion for fastening the hook of the boom at each end of the support bar Installation method of the flare tower, characterized in that connected to. The method according to claim 3,
The lifting frame is installed on the flare tower, characterized in that the support bar is fixed to be integral to the flare tower by being connected to the vertical member and the horizontal member of the flare tower by a plurality of reinforcing bars. The method of claim 1, wherein the upright step
Lifting the first and second marine cranes to a predetermined height while keeping the flare tower level; And
Guiding the second offshore crane to tilt the flare tower while the first offshore crane lifts the flare tower between the boom to stand upright.
Installation method of the flare tower comprising a.

Images