KR101279646B1 - A marine power plant using barge - Google Patents

Abstract

PURPOSE: A floating marine power plant is provided to temporarily supply electricity by moving to a place in which a power plant is needed by mounting a generating unit on a deck of a barge and to replace a power plant on a ground. CONSTITUTION: A floating marine power plant comprises a barge(10), a generating unit, and a jack-up device(20). The generating unit is installed on a deck of the barge. The jack-up device fixes the barge on the sea. The generating unit includes a gas turbine(31) generating torque, a generator(32) generating electricity by the torque, an air duct(33) in which air is supplied for combusting of the gas turbine, a stack(34) in which combustion gas is discharged, a transformer(35) changing voltage of the electricity generated from the generator, a circuit break(36) blocking the electricity when emergency is generated in the generator, a cooling device(37) cooling the gas turbine and the generator, and a control room(38) controlling the generating unit.

Description

A marine power plant using barge

The present invention relates to a floating offshore power plant, and more particularly, to a floating offshore power plant that can be quickly replaced because the power generation equipment is mounted on the deck of the barge to move to the required place.

In general, power plants generate electricity by rotating turbines using energy sources such as water, oil, coal, natural gas, or geothermal heat, and the generated electricity is transmitted to cities or industrial complexes, which are large demand destinations. Here, the electricity transmitted to the city or industrial complex is a high voltage to increase the transmission efficiency, so it is converted into a voltage suitable for home use and supplied.

Such a power plant is recognized as a hateful facility and it is difficult to secure a site due to local residents' opposition.

Even if a plant site is secured, more than a decade of air is needed due to earthwork, facility construction, and secondary work, including site preparation work and site reinforce work.

Meanwhile, the demand for SOC is exploding in recent years for many underdeveloped countries and developing countries to build infrastructure for industrial development.

In particular, underdeveloped countries and developing countries have emerged as an urgent task for the development of power plants.

In addition, due to global warming, the occurrence of natural disasters is increasing, which causes frequent power outages due to problems in power generation facilities and transmission lines.

Moreover, when the power outage occurs as described above, water supply facilities and drinking water storage facilities have problems, and thus there is often no water to drink.

However, the recovery of such power plants takes considerable time, so there is a growing need for power plants that can provide water and electricity temporarily.
On the other hand, the prior art patent document related to the present invention is Japanese Patent Laid-Open No. 2010-17562, European Patent Publication No. EP 2146006 A1.

Therefore, the present invention has been made in accordance with the needs as described above, the purpose is to provide a floating offshore power plant that can quickly replace the onshore power plant is equipped with a power plant installed on the deck of the barge to move to the required place. have.

In addition, the present invention has a further object to provide a floating offshore power plant equipped with a jack-up device so that the barge is firmly fixed to the sea to produce electricity even in an extreme environment such as a typhoon.

In another aspect, the present invention is to provide a floating offshore power plant equipped with a gas turbine can be disposed in the longitudinal direction on one side of the barge in the longitudinal direction to control the vibration, and to facilitate the inspection and repair of the gas turbine when the berth is docked. There is a purpose.

In addition, the present invention is to arrange the generator on the same axis as the gas turbine so as to be directly connected to the turbine shaft can maximize the efficiency and the convenience of unloading space and access passage when the shaft is attached and detached as well as the operator's operator Another object is to provide a floating offshore power plant equipped for easy viewing in the field of view.

In addition, the present invention has another object to provide a floating offshore power plant that is arranged to the air duct to the upper portion of the gas turbine to maximize the space utilization and secure the empty space under the air duct as an access space.

In another aspect, the present invention is to provide a floating offshore power plant is maximized space utilization and improved accessibility by placing the stack on the opposite side of the gas turbine around the longitudinal line of the barge.

In addition, the present invention is to arrange the circuit brake on the side of the terminal box of the generator to cut off the electricity generated by the generator in the upstream when an accident occurs in the power system and transmission line of the power plant, the floating offshore power plant with improved stability There is another purpose to provide.

In addition, the present invention is to provide a floating offshore power plant with improved safety according to the operation of the power plant is spaced apart from the gas turbine to be a source of flame because the transformer is disposed on the stern opposite the gas turbine around the longitudinal line of the barge There is another purpose.

In addition, the present invention is disposed on the opposite side of the gas turbine around the longitudinal line of the barge so that when the gas turbine is in the eyepiece direction, the cooling device is disposed in the coastal direction so that the structure obstructs air flow There is another purpose to provide a floating offshore power plant that is sufficiently cooled and has a small propagation of noise in the direction of the port, so that the restriction on the noise is small and the distance from the gas turbine is prevented to raise the temperature of the cooling water pipe exposed to the atmosphere. .

In addition, the present invention is another object to provide a floating offshore power plant that can effectively utilize the space by arranging the lower space of the barge in the machine room.

In addition, the present invention has a further object to provide a floating offshore power plant that is equipped with a gas turbine so that the power generation equipment is compact in the power generation can be mounted on the barge.

The present invention provides a floating offshore power plant comprising a barge, a power plant installed on the deck of the barge, and a jack up device capable of fixing the barge to the sea.

The power plant includes a gas turbine for generating rotational power, a generator for producing electricity by the rotational power generated in the gas turbine, an air duct for supplying air for combustion of the gas turbine, and combustion gas combusted in the gas turbine. The chimney from which the gas is discharged, a transformer for converting the voltage of the electricity produced by the generator, a circuit brake to cut off the power when an emergency occurs in the generator, a cooling device for cooling the gas turbine and the generator and the power plant It is preferable that it consists of a control room.

In addition, the gas turbine is preferably disposed in the longitudinal direction on one side of the barge.

In addition, the generator is preferably arranged on the same axis as the gas turbine.

In addition, the air duct is preferably disposed on the gas turbine.

In addition, the stack is preferably disposed on the opposite side of the gas turbine about the longitudinal line of the barge.

In addition, the circuit brake is preferably disposed on the side of the terminal box of the generator.

In addition, the transformer is preferably disposed at the stern opposite the gas turbine around the longitudinal line of the barge.

In addition, the cooling device is preferably disposed on the opposite side of the gas turbine around the longitudinal line of the barge.

In another aspect, the present invention preferably further includes a machine room for storing equipment necessary for maintaining the power generation facility and installed with auxiliary facilities for the power generation facility.

Here, the machine room is preferably formed in the space below the barge.

As described above, the floating offshore power plant according to the present invention may be installed on the deck of the barge to move to the place where the power plant is needed to temporarily supply electricity as well as to replace the power plant on land.

In addition, the floating offshore power plant according to the present invention is provided with a jack-up device so that the barge is firmly fixed to the sea can produce electricity even in extreme environments such as typhoons.

In addition, the floating offshore power plant according to the present invention can be disposed in the longitudinal direction of the gas turbine on one side of the barge to control the vibration, and easy inspection and repair work of the gas turbine when docking the quay wall.

In addition, the floating offshore power plant according to the present invention is disposed on the same axis as the gas turbine so as to be directly connected to the turbine shaft can maximize the efficiency and there is a convenience of unloading space and access passage when the shaft is detached In addition, it can be easily observed in the operator's field of view.

In addition, the floating offshore power plant according to the present invention can be arranged in the upper portion of the gas duct to maximize the space utilization and secure the empty space under the air duct as an access space.

In addition, the floating offshore power plant according to the present invention is disposed on the opposite side of the gas turbine around the longitudinal line of the barge to maximize space utilization and improve accessibility.

In addition, the floating offshore power plant according to the present invention is placed in the terminal box side of the generator of the circuit break so that when the accident occurs in the power loss system and transmission line of the power plant can be directly cut off the electricity generated from the generator upstream This is improved.

In addition, the floating offshore power plant according to the present invention is disposed on the stern opposite the gas turbine around the longitudinal line of the barge, so that it is spaced apart from the gas turbine serving as a flame source, thereby improving the safety of the operation of the power plant.

In addition, the floating offshore power plant according to the present invention is arranged on the opposite side of the gas turbine around the longitudinal line of the barge so that when the gas turbine is in the eyepiece direction, the cooling device is arranged in the coastal direction air Since there is no structure that obstructs the flow, it is sufficiently cooled and the propagation of noise in the direction of the port is small. Therefore, the restriction on the noise is small and the distance from the gas turbine prevents the temperature rise of the cooling water pipe exposed to the atmosphere.

In addition, the floating offshore power plant according to the present invention can effectively utilize the space by arranging the lower space of the barge in the machine room.

In addition, since the floating offshore power plant according to the present invention can generate power in a floating sieve on the sea, it can save the cost and time required for earthwork during construction of the power plant.

In addition, since the floating offshore power plant according to the present invention uses a gas turbine, the power plant is compact, so that the power plant can be mounted on a barge.

In addition, the floating offshore power plant according to the present invention, since the plant is inspected through the final test of the power plant in the shipyard, the reliability of the power plant is very high.

In addition, the floating offshore power plant according to the present invention can be recycled by modifying the waste barge, contributing to environmental protection in terms of resource recovery.

1 is a plan view conceptually showing a floating offshore power plant according to the present invention.
2 is a front view conceptually showing a floating offshore power plant according to the present invention.
Figure 3 is a plan sectional view conceptually showing the pants of the floating offshore power plant according to the present invention.

Hereinafter, an embodiment of a floating offshore power plant according to the present invention will be described with reference to the accompanying drawings.

Floating offshore power plant according to an embodiment of the present invention is a barge bar 10, a jack-up device for fixing the barge 10 to the sea, power generation equipment installed on the deck 12 of the barge (10) 30) and the machine room 40 is installed and the auxiliary equipment of the power generation facility 30 is stored and the equipment necessary for maintenance.

The barge 10 is a ship that does not have a propulsion engine is usually provided with a ballast tank 14 for the support at the bottom. In addition, the barge 10 is a deck 12 is very wide because the cargo moves in a state loaded on the deck (12). Since the barge 10 is not provided with a propulsion engine, a tug boat (not shown) may be connected to one side to be towed or moved by using a winch (not shown) installed on land.

The jack-up 20 is a facility for fixing the barge 10 to the sea floor. The jack-up device 20 may prevent the barge 10 from vibrating because the lower end of the lug is fixed to the sea floor. In particular, even in extreme conditions such as a typhoon jack up device 20 can be firmly fixed to the barge 10 prevents the barge 10 from vibrating.

The power plant 30 is a gas turbine 31 for generating rotational power, a generator 32 for producing electricity by the rotational power generated in the gas turbine 31, the air required for the combustion of the gas turbine (31) The air duct 33 is supplied, the stack 34 in which the combustion gas burnt from the gas turbine 31 is discharged, the transformer 35 for converting the voltage of electricity produced by the generator 32, the generator ( 32, a circuit brake 36 to cut off power when an emergency occurs, a cooling device 37 to cool the gas turbine 31 and a generator 32, and a control room to control the power generation facility 30 ( 38).

The gas turbine 31 is a device that generates rotational power by burning gas. The gas turbine 31 is not as large as a steam turbine, but can usually obtain up to 100,000 KW. Moreover, the gas turbine 31 has an advantage that the structure is simple compared to the steam turbine, its size is compact, and the time required for starting is short. The gas turbine 31 is preferably arranged in the longitudinal direction to the gas turbine 31 on one side of the barge (10). Therefore, the gas turbine 31 can control the vibrancy, and is easy to inspect and repair the gas turbine 31 at the eyepiece docking.

The generator 32 is an energy conversion device for converting the rotational power generated in the gas turbine 31 into electrical energy. Here, the generator 32 is disposed on the same axis as the gas turbine 31 so as to be directly connected to the turbine shaft (not shown). Therefore, the power generation efficiency of the generator 32 can be maximized, and when the generator shaft (not shown) is attached and detached, there is not only convenience of the unloading space and the access passage, but also can be easily observed from the operator's view.

The air duct 33 is provided to supply the air necessary for the combustion of the gas turbine 31, and may be provided with a coal mill for preheating the air sucked using the waste gas, if necessary. Preferably, the air duct 33 is disposed above the gas turbine 31. Therefore, it is possible to maximize the overall space utilization of the barge 10 and to secure the empty space under the air duct 33 as an access space.

The stack 34 is a device for discharging the gas burned from the gas turbine 31, the upper end of the stack 34 is preferably provided at a height at which the waste gas does not affect the structure or equipment of the vessel can enter the residence. . The stack 34 is disposed opposite the gas turbine 31 about the longitudinal line of the barge 10. Therefore, the overall space utilization of the barge 10 is maximized and accessibility is improved.

The transformer 35 is a device for converting the electricity produced by the generator 32 to the voltage required by the consumer, it is preferable that the final output is mainly converted to 110V or 220V depending on the voltage used by the customer. Here, the transformer 35 is preferably disposed at the stern opposite the gas turbine with respect to the longitudinal line of the barge 10. Accordingly, the transformer 35 is spaced apart from the gas turbine 31 serving as a flame source, thereby improving safety of the power plant.

The circuit brake 36 is a device provided to cut off electricity when an emergency occurs in the generator 32. Therefore, the circuit brake 36 is preferably installed between the generator 32 and the transformer 35. Here, the circuit brake 36 is disposed on the side of the terminal box of the generator 32. Therefore, the circuit brake 36 can directly cut off the electricity produced by the generator 32 in the upstream when an accident occurs in the damage power system and transmission line of the power plant, thereby improving stability.

The cooling device 37 is provided to discharge the heat generated from the gas turbine 31 and the generator 32 to the outside, and consists of a cooling tower (cooler) may be provided with a chiller (chiller), if necessary. Of course. Here, the cooling device 37 is disposed on the opposite side of the gas turbine 31 about the longitudinal line of the barge 10 so that the cooling device 37 when the gas turbine 31 is in the eyepiece direction. It is arranged in the coastal direction. Therefore, since the cooling device 37 has no structure to prevent air flow, the cooling device 37 is sufficiently cooled, and the propagation of noise in the port direction is insignificant, so the restriction on the noise is small and the distance from the gas turbine 37 is exposed to the atmosphere. To prevent the temperature rise.

The control room 38 is provided to control the power plant 30 as a whole, it is preferable that the control room 38 is provided so that it can be used as a living space that can be occupied by personnel required for the operation of the power plant 30.

The machine room 40 is provided so that the auxiliary equipment of the power generation facility 30 is installed and can store equipment necessary for the maintenance of the power generation facility 30. The machine room 40 is preferably disposed below the barge 10 in order to improve space utilization.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and a person skilled in the art to which the present invention belongs may make various modifications and adaptations within the scope of the claims. It is self-evident.

10: barge
20: jack up device
30: power generation equipment
31 gas turbine
32: generator
33: air duct
34: stack
35: transformer
36: Circuit Brake
37: cooling device
38: control room
40: machine room

Claims (11)

delete In the floating offshore power plant comprising a barge, a power plant installed on the deck of the barge and a jack-up device for fixing the barge at sea,
The power plant includes a gas turbine for generating rotational power, a generator for producing electricity by the rotational power generated in the gas turbine, an air duct for supplying air for combustion of the gas turbine, and combustion gas burned in the gas turbine. A stack is discharged, a transformer for converting the voltage of the electricity produced by the generator, a circuit break to cut off the power when an emergency occurs in the generator, a cooling device for cooling the gas turbine and the generator and controlling the power generation equipment Floating offshore power plant, characterized in that consisting of a control room.
The method according to claim 2,
The gas turbine is a floating offshore power plant, characterized in that disposed in the longitudinal direction on one side of the barge.
The method according to claim 3,
The generator is a floating offshore power plant, characterized in that disposed on the same axis as the gas turbine.
The method according to claim 3,
The air duct is a floating offshore power plant, characterized in that disposed on top of the gas turbine.
The method according to claim 2,
And said stack is disposed on an opposite side of said gas turbine about a longitudinal line of said barge.
The method according to claim 2,
The circuit break is floating marine power station, characterized in that disposed on the side of the terminal box of the generator.
The method according to claim 3,
The transformer is a floating offshore power plant, characterized in that disposed on the stern opposite the gas turbine around the longitudinal line of the barge.
The method according to claim 3,
The cooling apparatus is a floating offshore power plant, characterized in that disposed on the opposite side of the gas turbine around the longitudinal line of the barge.
The method according to claim 2,
Floating offshore power plant, characterized in that for storing the equipment necessary for maintaining the power plant and installed auxiliary equipment for the power plant is installed.
The method of claim 10,
The machine room is a floating offshore power plant, characterized in that formed in the space below the barge.

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