KR101300705B1 - Ventilating apparutus for drillship - Google Patents

Abstract

The present invention relates to a drilling vessel, and more particularly, to a drilling vessel ventilator to allow the drilling vessel operating in the polar region to have an appropriate temperature and pressure.
According to the present invention, there is provided a ventilation device applied to a drilling ship, comprising: a derrick forming a closed space isolated from the outside; A moonpool formed below the derrick; an air inlet device for introducing air to supply the outside air to the moonpool or the derrick; And an air discharge device for discharging the introduced air from the upper part of the derrick; Ventilation device of a drilling vessel is provided, comprising a.

Description

VENTILATING APPARUTUS FOR DRILLSHIP}

The present invention relates to a drilling vessel, and more particularly, to a drilling vessel ventilator to allow the drilling vessel operating in the polar region to have an appropriate temperature and pressure.

With the rapid development of international industrialization and industry, the use of earth resources such as petroleum is gradually increasing, and thus the stable production and supply of oil is becoming a very important issue on a global scale.

For this reason, interest in the development of marginal fields or deep-field oilfields, which have been neglected in recent years due to lack of economic feasibility, has become a concern. Accordingly, along with the development of seabed mining technology, a drill ship having a drilling facility suitable for the development of such an oil field has been developed.

Conventional subsea drilling mainly used a rig ship or fixed platform dedicated to subsea drilling, which can be sailed only by other tugboats and anchored at one point on the sea using mooring devices. Recently, so-called drill ships, which are manufactured in the same form as general ships so that they can be sailed by their own power and equipped with advanced drilling equipment, have been developed and used for subsea drilling.

In the center of a drilling vessel equipped with various drilling equipments for drilling oil or gas existing in the basement of the seabed, a riser or drill pipe for drilling oil or gas existing in the basement of the seabed. Moonpool is formed so that it can be moved up and down.

1 is a side view showing a conventional drilling vessel performing drilling operation at sea level.

The deck of the drilling line 1 is fixedly installed with a large structure of derrick 2 composed of a beam and various drilling equipments. These derricks are a type of tower where all the drilling rigs installed near the moon pool 3 on the drilling rig are concentrated. In addition, the derrick is for elevating drilling equipment, such as the drill pipe (5), by winding or loosening the wire rope connected to the drilling equipment by the operation of the winch, thereby elevating the drilling equipment to the desired position. Drilling ships use one derrick and two derricks.

The operator advances the riser 4 and the drill pipe 5 downward through the door pool 3 formed in the center of the drilling line 1 to the reservoir 12 below the sea bed 6. Drilling seabed resources stored in wells (13) located.

The riser 4 provides a passage through which the mud returns as a member that is advanced to the bottom of the sea floor 6 before advancing the drill pipe 5 to the well 13. When the riser 4 is installed, the drill pipe 5 is advanced downwardly into the well 13 through the subsea layer 11 into the riser 4.

In this way, when the riser 4 is advanced downward to the sea bottom 6 or the drill pipe 5 is advanced to the oil well 13, the short riser 4 or the drill pipe 5 is connected to each other. Advance downward. A blowout preventer (BOP) 7 is provided at the sea bottom 6 to prevent abnormal high pressure from riding up the drill pipe 5. In the subsea bed 11, the casing 8 is fixed by cement, and then the seabed resources are drilled by inserting the drill pipe 5 equipped with the drill bit 10 into the casing. The mud 9 is inserted into the drill pipe 5 in order to prevent the drill bit 10 from being overheated by the heat generated when the drill bit 10 penetrates the ground, do. This mud exits through the drill bit 10 and back through the casing 8 and riser 4. When the drilling operation is completed, the drill pipe 5 is transported to the drill floor through the door pool 3, separated, and then transported to the loading site.

In the case of such a conventional drilling ship, the derrick has an open structure in which rebars are coupled to each other like a transmission tower installed on the ground. Therefore, natural ventilation is possible even without a separate mechanical ventilation device.

However, in the case of a drilling ship operating in the polar region, when installing the derrick of the open structure as in the prior art, there is a problem that various drilling equipment is not properly operated because it is exposed for a long time at sub-zero temperatures.

The present invention for solving such a conventional problem, in consideration of the effects of temperature and waves in order to enable the operation of the drilling line in the polar to provide a well-ventilated device for maintaining the temperature, pressure, etc. of the door pool and derrick appropriately I would like to.

According to the present invention for achieving the above object, a ventilator applied to the drilling vessel, the derrick (derrick) to form a closed space blocked from the outside; A moonpool formed below the derrick; An air inlet device for introducing air to supply the outside air to the door pool or the derrick; And an air discharge device for discharging the introduced air from the upper part of the derrick; Ventilation device of a drilling vessel is provided, comprising a.

The air inlet device preferably includes a heater capable of applying a heat source to the outside air.

The air inlet device preferably includes a blocking damper that can block the flow of air when an emergency situation occurs during the operation of the drilling vessel.

It is preferable that an inflow louver is formed in the air inflow device to prevent particles other than air from being introduced.

The derrick preferably has an openable air inlet portion through which external air can be introduced.

The derrick is preferably formed with a pressure control damper capable of inhaling or discharging air to make the pressure inside the derrick constant.

The inside of the derrick is preferably provided with a heat blower (heat blower) capable of heating the air to facilitate ventilation.

It is preferable that an inflow louver is formed in the air exhaust device to prevent particles other than air from being introduced.

Inlet fan (supply fan) is installed in the air inlet device, exhaust fan (exhaust fan) is installed in the air discharge device, the inlet fan and the discharge fan is preferably different in operating speed according to the temperature of the outside air. Do.

The air inlet device may supply external air to the door pool or the derrick through a transport pipe, and a wire mesh is formed at the end of the transport pipe that meets the door pool or the derrick. .

According to another aspect of the present invention, a ventilator is applied to a drill ship having a derrick formed on the deck and a moonpool connected to the seawater at the bottom of the derrick, wherein the ventilator is external to the derrick or the moonpool. There is provided a drilling vessel ventilator which allows air to be vented by introducing air and exhausting air through the top of the derrick.

According to the present invention as described above, it is possible to provide a drilling vessel ventilator that properly maintains the temperature, pressure, etc. of the door pool and derrick in consideration of the effects of temperature and waves to enable the operation of the drilling vessel in the polar. .

Accordingly, according to the present invention, since the derrick and the moon grass have a closed space blocked from the outside for freezing treatment, it is possible to minimize the influence of the temperature and pressure of the space formed by the derrick and the moon grass due to the outside temperature and waves Can be.

In addition, according to the present invention, the pressure regulating damper prevents the pressure of the derrick and the moon pool to be excessively changed to prevent the excessive positive pressure and sound pressure generated even if the waves in the moon pool.

1 is a side view showing a conventional drill ship performing a drilling operation at sea level;
Figure 2 is a conceptual diagram showing a state in which the ventilator of the drilling vessel operating the polar region operating in the hot season according to the present invention.
Figure 3 is a conceptual diagram showing a state in which the ventilator of the drilling vessel operating the polar region operating in the cold season according to the present invention.

Hereinafter, a ventilator of a drilling vessel according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

Figure 2 shows a state in which the ventilator of the drilling vessel for operating the polar region in the hot season operating in the hot season.

With respect to the derrick (110), the moonpool (moonpool, 120) through which the air is ventilated through the ventilator according to the present invention, the derrick 110 is fixed to the deck (deck, not shown) of the drilling vessel 100 And the door pool 120 is formed in the lower portion of the derrick 110 is a drill, etc. used for drilling is falling, so the detailed description thereof will be omitted.

Since the drilling vessel 100 to which the present invention is applied operates in the polar region, the derrick 110 is external to prevent direct contact between various drilling equipments formed inside the derrick 110 and air having a subzero temperature, especially in cold seasons. It is formed in a closed structure blocked with.

However, the term "hot season" and "cold season" are used in the present specification, but since it basically indicates the state in the polar region, it should be noted that the temperature does not exceed 10 ° C even in the hot season.

Ventilation device according to an embodiment of the present invention, even if the drilling vessel 100 is operated in the polar region can prevent the temperature of the internal drops sharply and maintain a constant temperature and pressure suitable for operation and drilling work.

To this end, the air inlet device 130 installed outside the derrick 110 introduces fresh air from the outside through a supply fan 131. However, when the ventilator according to the present invention is operated in a hot season, the air is not heated separately through the heater 134 of the air inlet device 130 in consideration of the external air temperature. The introduced outside air may flow into the space where the door pool 120 is formed through the transport duct 136.

At this time, the end of the transport pipe 136 may be connected to the derrick 110, but is connected to the door pool 120 at the bottom is more glass in terms of circulating the outside air can be ventilated air throughout the derrick 110 Do.

A wire mesh 137 is formed at the end of the transport pipe 136 connected to the door pool 120 so that air can be properly sent.

 The inflow louver 132 is formed in the air inlet device 130, so that outside air is introduced, but inflow of large particles or rainwater can be prevented. In addition, the air inlet device 130 has a blocking damper 133 is formed to block the flow of air in the event of a fire or emergency.

An air inlet 150 is formed at the side of the derrick 110, and the air inlet 150 may be opened in a hot season. Therefore, the outside air may be introduced not only through the air inlet 130 but also through the air inlet 150 formed in the derrick 110.

When the drilling vessel 100 according to the present invention is operated in the hot season in the polar region, the inlet fan (supply fan, 131) and the exhaust fan (exhaust fan, 141) operates at a high speed may be a fast flow rate of the air flow. Since the temperature is relatively high compared to the cold season, the possibility of freezing in the derrick 110 and the moon pool 120 is low, so that the outside air stays in the space formed by the derrick 110 and the moon pool 120 for a long time. There is no need to, because in the hot season air is also introduced through the air inlet 150 as described above because the amount of air for ventilation is also sufficient.

The outside air introduced into the door pool 120 rises as shown in the arrow direction and is discharged to the outside through an exhaust fan 141 formed in the air discharge device 140 via the derrick 110. In this process, the door pool 120 and the derrick 110 are continuously supplied with fresh air and immediately discharged to the outside even if a gas is generated during drilling, so even if the closed derrick 110 is used, it is possible to secure safety during operation. Can be.

An exhaust louver 142 may be formed in the air exhaust device 140 as shown. Air may be discharged through the discharge louver 142, but large particles or rainwater may be prevented from being introduced from the outside.

At this time, since the derrick 110 to the door pool 120 is formed in a closed structure is formed by the door pool 120 and derrick 110 when the wave hits the open space under the door pool 120 in contact with sea water There is a fear that the pressure in the compartment may rise or fall excessively. In order to prevent such a sudden change in pressure and to maintain a constant pressure inside the derrick 110 and the door pool 120, as shown in the side of the derrick, a pressure control damper 111 may be installed. The pressure control damper 111 inhales or discharges air in accordance with the pressure change in the derrick 110 and the door pool 120.

Figure 3 shows a state in which the ventilator of the drilling ship operating the polar region in the cold season is operating in the cold season.

Since the operation of the ventilator of the present invention when operated in the cold season is mostly the same as when operated in the hot season, the following description will focus on differences.

In the cold season in the polar region, since the air outside the drilling vessel 100 is below zero and the temperature is considerably low, the outside cold air flowing into the air inlet device 130 has an appropriate temperature through the heater 134 installed in the air inlet device 130. After rising to the moon pool 120 and the derrick 110 is supplied.

In addition, when considering the sub-zero temperature outside the drilling vessel 100, it is necessary to keep the air whose temperature rises by the heater 134 in the space formed by the derrick 110 and the moon pool 120 for a long time (supply fan) 131 and exhaust fan 141 can operate slower than in hot seasons.

Air inlet 150 formed on the side of the derrick 110 is preferably closed. Since the temperature of the outside air is quite low, if the air immediately enters the derrick 110 without heating such as the heater 134, because of the icing of various drilling equipment.

The inside of the derrick 110 may be provided with a plurality of heat blowers (heat blower, 160) capable of forcibly circulating the air by heating. Although the air heated by the heater 134 is introduced into the door pool 120 and the derrick 110, since it is a cold season, a heat source separate from the heater 134 is additionally installed inside the derrick 110 to provide air. It is possible to smoothly ventilate.

Thus, according to the ventilator of the drilling vessel of the present invention, by ventilating the warm air into the drilling vessel to meet the required temperature maintenance conditions when operating in the polar, minimize the sudden change of the pressure due to the influence of waves generated in the moon pool can do.

In addition, according to the present invention, it may be possible to use energy efficiently by differently operating the ventilator of the drilling vessel in the cold and hot season at the polar.

As described above, the ventilator of the drilling vessel according to the present invention has been described with reference to a preferred embodiment of the present invention. However, it should be understood that the present invention is not limited to the above-described embodiments and drawings, and various modifications and changes may be made by those skilled in the art without departing from the scope of the present invention.

100: drilling rig 110: derrick
111: pressure control damper 120: moonpool
130: air inlet device 131: supply fan (supply fan)
132: louver 133: blocking damper
134: heater 136: duct
137: wire mesh 140: air exhaust device
141: exhaust fan 142: louver
150: air inlet 160: heat blower

Claims (11)

A ventilator applied to a drilling vessel having a derrick forming a closed space isolated from the outside and a moonpool formed below the derrick, and the air is supplied to supply the outside air to the moonpool or the derrick. Inlet air inlet device; And an air discharge device for discharging the introduced air from the upper part of the derrick; wherein the derrick is formed with a pressure control damper capable of inhaling or discharging air to keep the pressure inside the derrick constant. The airtight device of the drilling vessel, characterized in that the closed structure from the derrick to the door pool keeps the pressure inside the door pool and the derrick constant even when waves hit in the open space under the door pool. The method according to claim 1,
The air inlet device is a drilling vessel ventilator, characterized in that it comprises a heater for applying a heat source to the outside air. The method according to claim 1,
The air inlet device is a drilling vessel ventilator characterized in that it comprises a blocking damper for blocking the flow of air in the event of an emergency during operation of the drilling vessel. The method according to claim 1,
The air inlet device is a ventilation device for a drilling vessel, characterized in that the inlet louver (louver) for preventing the inflow of particles other than air is formed. The method according to claim 1,
The derrick ventilator of the drilling vessel, characterized in that the openable air inlet is formed to be introduced into the outside air. delete The method according to claim 1,
The inside of the derrick is a drilling vessel ventilator, characterized in that provided with a heat blower (heat blower) for heating the air to facilitate the ventilation. The method according to claim 1,
The air ventilator of the drilling vessel, characterized in that the inlet louver (louver) is formed to prevent particles other than air from being introduced. The method according to claim 1,
Inlet fan (supply fan) is installed in the air inlet device, exhaust fan (exhaust fan) is installed in the air exhaust device, the inlet fan and the exhaust fan is characterized in that the operating speed varies depending on the temperature of the outside air Ventilation system for drilling ships. The method according to claim 1,
The air inlet device may supply external air to the door pool or the derrick through a transport pipe, and a wire mesh is formed at the end of the transport pipe that meets the door pool or the derrick. Ventilation of drilling vessels. delete

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