KR20160025815A - Apparatus for power supply in offshore plant and offshore plant comprising the apparatus - Google Patents

Abstract

The present invention relates to an apparatus for power supply in an offshore plant, where a double fuel oil electric power generator can work in a gas mode even when there is a rapid change in the power consumption of drilling equipment and a thruster motor. According to an embodiment of the present invention, the apparatus, in an apparatus for power supply in an offshore plant, comprises: a double fuel oil electric power generator which uses gas as the fuel in the gas mode and uses oil as the fuel in the oil mode; an AC/DC converter for converting the alternating current produced in the power generator into a direct current to supply the direct current to a DC bus; a power load connected to the DC bus; and, a power storage unit connected to the DC bus to supply power to the power load when the increase quantity per unit time of the power consumption of the power load is a first threshold value or higher.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an offshore power plant,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply apparatus for an offshore plant and an offshore plant including the power supply apparatus. More particularly, To a power supply of an offshore plant that can operate.

As the international phenomenon of industrialization and industry develops, the use of 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, the development of the marginal field or deep-sea oil field, which had been neglected due to economic difficulties, has become economic in recent years. Therefore, along with the development of submarine mining technology, the development of offshore plants equipped with drilling facilities suitable for the development of such oilfields is actively under way.

The offshore plant is equipped with various drilling equipments such as derrick system, draw works, top drive, mud pump, cement pump, riser, drill pipe, etc. to drill oil and gas existing under the sea floor .

Drawwork is equipment to perform elevation of a drill pipe, insertion of a casing, etc., and includes a drum and a motor. The drum receives the power from the motor and controls the lifting and lowering of the drill pipe by winding or loosening the wire rope. The motor is adjustable in speed so that the speed of the drums can be adjusted, thus controlling the speed of the drill pipe.

The Top Drive is a device that provides power for drilling and pipe joining in drilling operations.

The offshore plant has a fixed platform for drilling at one point in the offshore area and a floating offshore plant capable of drilling at depths of over 3,000 meters.

Floating offshore plants are equipped with a plurality of thruster as a propulsion unit for dynamic positioning by a main propulsion unit or a computer. A thruster is a propeller installed on the bottom of the ship so as to change the direction of operation of the propeller. The thruster is powered by a thruster motor connected to the thruster.

1 is a diagram illustrating a power supply system according to the prior art.

1, the AC power generated in the generator 110 is supplied to an AC bus, and the AC bus includes a first AC / DC converter 121, a second AC / DC converter 122, and a third AC / DC converter 123 are connected.

The first AC / DC converter 121 converts the AC supplied from the AC bus to DC and supplies the DC to the first DC bus 131. The DC / AC converter 141 converts the alternating current supplied from the first DC bus 131 Converts the direct current into alternating current and supplies it to the first thruster motor 151.

The second AC / DC converter 122 converts AC supplied from the AC bus to DC and supplies it to the second DC bus 132. The DC / AC converter 142 converts the AC supplied from the AC bus to DC Converts the direct current into alternating current and supplies it to the second thruster motor 152.

The third AC / DC converter 123 converts AC supplied from the AC bus to DC and supplies it to the third DC bus 133, and the third DC bus 133 is connected to a plurality of DC / AC converters 143 to 148 are connected. Each of the plurality of DC / AC converters 143 to 148 converts a DC supplied from the third DC bus 133 into an AC to generate a plurality of draw work motors 153, 154, 155, 158, 159 and a plurality Of the top drives 156 and 157 to the motor connected thereto.

Since the motors 153, 154, 155, 158 and 159 of the drawways and the motors 156 and 157 of the top drive have to repeat the operation of raising and lowering drilling equipment such as a drill pipe, The thruster motors 151 and 152 are rotated at a rated speed for dynamic position control and then suddenly stopped rotating or rotating in the opposite direction, There are frequent driving characteristics. However, when braking occurs in the motor, regenerative power is generated. Also, when the thruster is rotated by disturbance, a regenerative electric power is generated in the thruster motor.

When a regenerative electric power is generated in the drawrows motor, the top drive motor, or the thruster motor, the voltages of the drawrows motor, the top drive motor, or the DC bus to which the thruster motor is connected rise , The DC bus will trip if the voltage rises beyond the limit that the DC bus can accommodate.

Therefore, according to the related art, resistors 161 to 166 are provided to consume regenerative power as heat to prevent tripping of the DC bus.

2 is a graph showing the power consumed in each component in the power supply system according to the prior art.

In Fig. 2, the electric power generated by the generator is supplied to the first load 220 and the AC / DC converter 260 through the switchboard. The AC / DC converter 260 converts the alternating current into direct current, supplies the alternating current to the second load 240, and supplies the alternating current to the drawrows 230 through the DC / AC converter. The first load 220 and the second load 240 are loads that consume a certain amount of power. On the other hand, the draw work 230 continuously changes the amount of electric power consumed, and when the electric power is negative in FIG. 2, it indicates that regenerative electric power is generated. The regenerative power generated in the draw work 230 is consumed in the second load 240 or the resistor 250. [

As the power consumption of the draw work 230 rapidly changes, the power output of the generator 210 also changes drastically. However, diesel generators use more fuel when power output is suddenly changed, and more exhaust gas when more fuel is used than when power output is constant.

In order to appropriately supply electric power according to the rapidly varying power consumption of the drawrows motor, the top drive motor, and the thruster motor, the generator must be able to quickly change the output power. However, the generator has a slow reaction speed, and accordingly, there is a problem in that power can not be supplied appropriately in accordance with rapidly changing power consumption of the drawrows motor, the top drive motor, and the thruster motor. There is a problem that if the electric power is not appropriately supplied to the drawrows motor, the top drive motor, and the thruster motor, a dangerous situation may be caused due to the nature of the drilling operation. In the case where a power failure occurs, even when the power supply to the motor of the draw work or the motor of the top drive is suddenly cut off, a dangerous situation may occur.

Alternatively, the generator 210 may be a dual fuel oil electric generator. A dual-fuel oil electric generator uses a fuel oil of three types of heavy oil, light oil, and natural gas to drive a plurality of engines and generate electric power through a generator connected to the drive shaft.

Since the gas cost is lower for the same power production than for the heavy fuel oil and light oil, dual fuel electric generators can save fuel by operating in the gas mode as much as possible.

When using gas as a fuel, the amount of harmful substances (NOx, SOx, etc.) contained in exhaust gas discharged from the dual fuel electric generator is reduced and the amount of NOx emission in the exhaust gas specified by IMO NOx Tier-III requirements (Tier-III requirement). In the case of a general diesel engine, NOx tier-three requirements are satisfied by reducing NOx by using a selective catalytic reduction (SCR) system. In the case of a dual-fuel oil electric generator, an SCR device is not required , There are significant advantages in the layout design of the ship. SCRs are usually installed in funnel casings and are difficult to deploy because they are more than 2.5 times the diameter of gas pipes.

However, when operating in the gas mode, the dual fuel oil generator takes longer to change the load than when operating in the oil mode. 3 is a graph showing the maximum load increase rate of the generator. As shown in FIG. 3, when the generator operates in the gas mode, it takes much more time to change the generator load by the same amount than when operating in the oil mode.

If the slack / heaving motion is fast, the draw work requires a large load within 2 to 5 seconds. Since the gas mode can not supply a large amount of load required by the draw work at that time, When operating in the gas mode, power failure may occur due to damage to the engine and frequency instability of the main power, and occurrence of a power failure during drilling may cause explosion of the well.

That is, according to the related art, when the power consumption of the drilling equipment changes suddenly, the dual fuel oil generator can not operate in the gas mode, the energy is wasted by consuming the regenerative power in the resistor, There is a problem in that the generator can not properly supply electric power to the motor of the Draw Works, the motor of the top drive, the thruster motor, and the risk of a sudden power outage.

Prior Art: Japanese Publication No. 2006-117179 (Published May 5, 2006)

It is an object of the present invention to provide a power supply apparatus of an offshore plant capable of operating in a gas mode even when the power consumption of the drilling equipment changes rapidly and efficiently using regenerative power, To provide an offshore plant.

According to an aspect of the present invention, there is provided a power supply apparatus for an offshore plant, comprising: a dual fuel oil electric generator using gas as fuel in a gas mode and oil as a fuel in an oil mode; An AC / DC converter for converting an alternating current produced by the generator into a direct current and supplying the alternating current to a DC bus; A power load coupled to the DC bus; And a power storage connected to the DC bus, for supplying power to the power load when the increase per unit time of the power consumption of the power load is equal to or greater than a first threshold value.

Particularly, when the increase per unit time of the power consumption of the power load is equal to or greater than the first threshold value, the dual fuel electric generator can operate in the gas mode.

In addition, the first threshold may be determined according to the load change tolerance of the dual fuel electric generator when the dual fuel electric generator is operating in the gas mode.

Also, the power storage unit may store power remaining when the power generated by the dual fuel electric generator is left.

Further, the power supply apparatus may further include a resistance unit that consumes power remaining when the capacity of the power storage unit is exhausted in a state where the power generated by the dual-fuel oil electric power generator is left.

Further, the power load can generate regenerative power.

The power storage unit may store the regenerative power.

The power supply apparatus may further include a resistance unit that consumes the regenerative power when the power storage unit is full.

The power load may also be a drilling rig.

Also, the power load may be a thruster.

The first power storage unit may be an ultracapacitor.

According to another aspect of the present invention, there is provided an offshore plant comprising: a dual fuel oil electric generator using gas as a fuel in a gas mode and using oil as a fuel in an oil mode; An AC / DC converter for converting an alternating current produced by the generator into a direct current and supplying the alternating current to a DC bus; A power load coupled to the DC bus; And an electric power storage connected to the DC bus, for supplying electric power to the electric power load when the increase per unit time of electric power consumption of the electric power load is equal to or greater than a first threshold value.

Particularly, when the increase per unit time of the power consumption of the power load is equal to or greater than the first threshold value, the dual fuel electric generator can operate in the gas mode.

In addition, the first threshold may be determined according to the load change tolerance of the dual fuel electric generator when the dual fuel electric generator is operating in the gas mode.

Also, the power storage unit may store power remaining when the power generated by the dual fuel electric generator is left.

In addition, the offshore plant may further include a resistance unit that consumes power remaining when the capacity of the power storage unit is exhausted in a situation where power generated by the dual-fuel oil electric power generator is left.

Further, the power load can generate regenerative power.

The power storage unit may store the regenerative power.

In addition, the offshore plant may further include a resistance unit that consumes the regenerative power when the power storage unit is full.

The power load may also be a drilling rig.

Also, the power load may be a thruster.

The first power storage unit may be an ultracapacitor.

According to the embodiment of the present invention, when the power consumption of the drone work motor, the top drive motor, and the thruster motor is rapidly increased by using the power storage unit, the power stored in the power storage unit is supplied, The double fuel oil generator can be operated in the gas mode even in the case of rapid change.

When the power storage unit stores the regenerative power generated by the motor of the draw work, the motor of the top drive, and the thruster motor, and the power consumption of the draw work motor, the top drive motor, and the thruster motor is rapidly increased The regenerative power can be efficiently used.

1 is a diagram illustrating a power supply system according to the prior art.
2 is a graph showing the power consumed in each component in the power supply system according to the prior art.
3 is a graph showing the maximum load increase rate of the generator.
4 is a view illustrating a power supply apparatus of an offshore plant according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

First, referring to FIG. 4, a power supply system of an offshore plant according to an embodiment of the present invention will be described. 4 is a view illustrating a power supply apparatus of an offshore plant according to an embodiment of the present invention. Offshore plants represent plants involved in the development of marine resources such as drill ships and semi-submersible drilling rigs.

4, the power supply apparatus of the offshore plant according to the embodiment of the present invention includes a dual fuel electric generator 310, an AC / DC converter 321, a power load 330, a power storage unit 340 And a resistive portion 350. [0050]

A dual fuel oil electric generator (310) generates electricity using oil or natural gas as fuel. The dual-fuel oil electric power generator 310 generates electric power by using oil when operating in the oil mode, and generates electric power by using natural gas when operating in the gas mode.

The electric power produced by the dual fuel electric generator 310 may be supplied to the AC / DC converter 321 after the electric power in the transformer is changed to a voltage suitable for use in the power loads.

The AC / DC converter 321 converts the AC power produced by the dual fuel oil power generator 310 into DC power and supplies the DC power to the DC bus 322. 4, the DC bus 322 may be a drilling DC bus or a thruster DC bus, the drilling DC bus may be connected to a power load associated with the drilling equipment, and the thruster DC bus may be connected to a thruster motor have.

The power load 330 is connected to the DC bus 322 to receive power from the DC bus 322. The power load 330 may be a drilling machine such as a drawwheel motor, a top drive motor, or a thruster motor. Drawwork motors, top drive motors, and thruster motors are subject to sudden changes in power consumption and regenerative power due to their operating characteristics.

In the embodiment of the present invention, even when the power consumption of the power load 330 suddenly changes, the dual fuel electric generator 310 operates in the gas mode, and the power storage unit 340 supplies power to the power load 330 Thereby securing the portion where the dual-fuel electric power generator 310 does not satisfy the power consumption of the electric power load 330. [ For example, when the amount of power consumption per unit time of the power load 330 is equal to or greater than the threshold value, the dual fuel oil electric power generator 310 operates in the gas mode and the power storage unit 340 . At this time, the threshold value may be determined according to the load change tolerance of the dual fuel electric generator 310 when the dual fuel electric generator 310 operates in the gas mode. In other words, when the power consumption of the power load 330 suddenly increases, the dual fuel electric generator 310 operates in the gas mode, and an increase in the power consumption of the electric power load 330 is generated in the dual fuel electric generator 310, The electric power storage unit 340 compensates for the portion of the dual fuel electric generator 310 that does not meet the power consumption of the main propulsion motor 330 because it is larger than the allowable load change value of the main propulsion motor 330.

The power storage unit 340 may store the power remaining when the power generated by the dual fuel electric power generator 310 remains. In particular, the power storage unit 340 may store the regenerative power generated in the power load 330. FIG. That is, the power storage unit 340 stores the regenerative power when the regenerative power is generated in the power load 330, and can supply the power to the power load 330 when the power consumption of the power load 330 rapidly increases .

When the power consumption of the power load 330 rapidly decreases, the degree of load change of the dual-fuel electric power generator 310 may not follow the decrease in the power consumption of the power load 330. In this case, the electric power produced by the dual-fuel electric power generator 310 remains, and the electric power remaining in the electric power storage unit 340 is stored. When the power stored in the power storage unit 340 is exhausted when the power generated by the dual-fuel oil electric power generator 310 remains, the resistance unit 350 consumes remaining power. When the regenerative power is generated in the power load 330, the regenerative power is stored in the power storage unit 340 and the regenerative power is consumed in the resistor unit 350 when the power storage unit 340 is completed.

The power storage unit 340 may be at least one of an ultracapacitor, a capacitor, and a battery. Particularly, when the power storage unit 340 is an ultracapacitor, the ultracapacitor has a faster response speed to the power load 330 when the required power of the power load 330 suddenly increases because the reaction speed is faster than that of the dual- Power can be supplied.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

310: Dual fuel oil generator
321: AC / DC converter
330: Power load
340: Power storage unit
350:

Claims (22)

In a power supply of an offshore plant,
A dual fuel oil electric generator using gas as fuel in gas mode and oil as fuel in oil mode;
An AC / DC converter for converting an alternating current produced by the generator into a direct current and supplying the alternating current to a DC bus;
A power load coupled to the DC bus; And
And a power storage unit connected to the DC bus and supplying power to the power load when the increase per unit time of the power consumption of the power load is equal to or greater than a first threshold value. The method according to claim 1,
Wherein the dual fuel electrodynamic generator operates in a gas mode when the increase per unit time of power consumption of the power load is equal to or greater than the first threshold value. The method according to claim 1,
Wherein the first threshold is determined according to a load change tolerance of the dual fuel electric generator when the dual fuel electric generator is operating in the gas mode. The method according to claim 1,
Wherein the power storage unit stores power remaining when the power produced by the dual fuel electric generator is left. The method of claim 4,
Further comprising a resistance unit that consumes remaining power when the capacity of the power storage unit is full in a situation where the power generated by the dual fuel electric power generator remains. The method according to claim 1,
Wherein the power load generates regenerative power. The method of claim 6,
And the power storage unit stores the regenerative power. The method of claim 7,
Further comprising: a resistance portion that consumes the regenerative power when the power storage portion is full. Claim 1
Wherein the power load is a drilling rig. The method according to claim 1,
Wherein the power load is a thruster. The method according to claim 1,
Wherein the first power storage is an ultracapacitor. For offshore plants,
A dual fuel oil electric generator using gas as fuel in gas mode and oil as fuel in oil mode;
An AC / DC converter for converting an alternating current produced by the generator into a direct current and supplying the alternating current to a DC bus;
A power load coupled to the DC bus; And
And a power storage unit connected to the DC bus and supplying power to the power load when the amount of increase in power consumption per unit time of the power load is equal to or greater than a first threshold value. The method of claim 12,
Wherein the dual fuel electric generator operates in a gas mode when the increase per unit time of the power consumption of the power load is equal to or greater than the first threshold. The method of claim 12,
Wherein said first threshold is determined in accordance with a load change tolerance of said dual fuel electric generator when said dual fuel electric generator is operating in a gas mode. The method of claim 12,
Wherein the power storage unit stores power remaining when the power generated by the dual fuel electric generator is left. 16. The method of claim 15,
Further comprising a resistance unit that consumes remaining power when the capacity of the power storage unit is full in a situation where the power generated by the dual fuel electric generator is left. The method of claim 12,
Wherein the power load generates regenerative power. 18. The method of claim 17,
And the power storage unit stores the regenerative power. 19. The method of claim 18,
Further comprising a resistive portion that dissipates the regenerative power when the power storage portion is full. Claim 12
Wherein said power load is a drilling rig. The method of claim 12,
Wherein said power load is a thruster. The method of claim 12,
Wherein the first power storage is an ultracapacitor.

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