KR20180079937A - Current supply system for ballast water treatment system - Google Patents

Abstract

The present invention relates to a ballast water treatment system (BWTS) electricity supply system generating electricity by using rotation of a turbine operating a cargo pump installed in a large ship and supplying the electricity to a BWTS. The BWTS electricity supply system includes: a plurality of generator engines; a first generator connected to each of the engines; a turbine connected by a shaft to the cargo pump and operating the cargo pump by rotation depending on an operation source; a second generator connected to the turbine and generating electricity in accordance with the operation of the turbine; and a control operation unit connected to the first and second generators and the BWTS, supplying the BWTS with the electricity supplied from the first and second generators, and stopping the operation of at least one of the generator engines once the second generator is operated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a BWTS electric power supply system,

The present technology relates to a BWTS electrical supply system.

In particular, a car generator is installed in a turbine that is powered by steam to operate a cargo pump in a car equipped with a cargo pump, so that spare electric power supplied to the BWTS is excessively produced, thereby generating a BWTS Electric power supply system.

VLCC is defined as less than 300,000 DWT in the meaning of a super crude oil carrier, not less than 175,000 DWT (dead weight ton, excluding the weight of the ship itself, measured only by the weight of crude oil). These ships are equipped with ballast tanks for storing or discharging seawater for a certain period of time on the ship in order to maintain equilibrium.

However, there has been steadily been pointed out that in the ballast tanks, sea water is stored for the balance of ships and that new marine life will be introduced into the new ocean when it is discharged, destroying the ecosystem.

In order to solve these problems, the International Maritime Organization (IMO) has established the International Maritime Organization (IMO) in order to prevent and minimize the risks to environment, human health, property and resources caused by the movement of harmful aquatic organisms and pathogens. The International Convention for the Control and Management of Ships (Ballast Water and Sediments) was adopted and mandated for the installation of BWTS by 2017.

BWTS utilizes physical treatment and chemical treatment to treat marine life, and electrolysis is typically used. That is, a method of destroying the cell nucleus by generating radicals (OH, HCO, O _2, etc.) as an electrolytic device, destroying the cell membrane through the redox potential and sterilization treatment, or generating oxygen or ozone It is used to treat marine organisms in a variety of ways, including injecting them into tubes.

Although the BWTS is constructed in various ways as described above, although the method is different, a common feature is that electricity is inevitably required when the BWTS is operated.

As the installation of BWTS becomes mandatory, there arises a problem that a separate generator for operating the BWTS is installed, or a generator having a small capacity is replaced with a generator having a large capacity.

A ballast drive system according to an operating area of a ballast water treatment apparatus and a marine plant having the same,

The present invention utilizes a cargo pump installed when a large ship unloads crude oil and the rotation of the turbine to operate the cargo pump to produce extra electricity supplied to the BWTS, It is an object of the present invention to provide a BWTS electric power supply system which does not need to be replaced with a large capacity generator.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

The BWTS electric power supply system of the present invention utilizes the rotation of a turbine that operates a cargo pump installed in a large ship to produce electricity and supply it to a ballast water treatment system (BWTS).

The BWTS electric power supply system of the present invention includes: a plurality of generator engine; A first generator connected to the plurality of engines, respectively; A turbine connected to the cargo pump and the shaft to rotate according to an operation source to operate the cargo pump; A second generator connected to the turbine to generate electricity according to the operation of the turbine; And a generator connected to the first generator, the second generator and the BWTS to supply electricity to the BWTS supplied from the first generator and the second generator, wherein when the second generator is operated, at least one of the plurality of generators And stops the operation of the control unit.

Here, the operation source is a steam gas which is supplied with energy by the boiler, is guided through the steam pipe, and is supplied to the turbine.

Here, the control operation unit includes a recognition supply unit for confirming the supply of electricity by the second generator; And a control switch unit connected to the recognition supply unit and connected to the plurality of generator engines and receiving signals from the recognition and supply unit, to stop the operation of at least one of the plurality of generator engines.

Here, the control switch unit may include a logic unit connected to the recognition and supply unit to determine the amount of electricity produced by the second generator, and a switching unit for stopping the operation of any one of the plurality of generator engines by the logic unit, And the logic unit operates the switching unit to stop the operation of the generator engine for producing the electricity quantity of the reference electricity quantity among the plurality of generators engines, using the electricity quantity received by the recognition and supply unit as the reference electricity quantity.

In the BWTS electric power supply system of the present invention constructed as above, extra electric power is produced by utilizing a turbine operated for the operation of a cargo pump which is inevitably operated when a ship is stuck, and the extra electricity applied to the BWTS It is not necessary to replace the existing generator even if the BWTS is installed.

At least one or more of the plurality of generators may not be operated due to the excess electricity generated by the turbine, so that the maintenance time can be secured.

1 shows a BWTS electrical supply system of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to exemplary drawings. However, this is not intended to limit the scope of the invention.

It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different 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.

In addition, the size and shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the constitution and operation of the present invention are only for explaining the embodiments of the present invention, and do not limit the scope of the present invention.

1 illustrates a BWTS 50 electrical supply system of the present invention.

The BWTS 50 electric power supply system of the present invention utilizes the rotation of the turbine 30 operating the cargo pump 40 installed on a large ship to produce electricity and supplies the generated excess electricity to the BWTS 50 The BWTS 50 can be operated by a conventional generator, so that it is not necessary to replace a small-capacity generator with a large capacity generator. Even if at least one of the plurality of generator engines 70 is not operated, It is possible to secure a time for servicing the engine 70 for the generator and the generator in rest.

The BWTS 50 electric power supply system of the present invention includes an engine 70 for a generator, a first generator 80, a turbine 30, a cargo pump 40, a second generator 20, a control operation unit 60 .

In the present invention, for convenience of explanation, three generator engines 70 will be described. The engine 70 for the three generators will be referred to as the engine 71 for the first generator 80, the engine 72 for the second generator, and the engine 73 for the third generator, respectively.

However, it is to be understood that the generator engine 70 is not limited to the above-described number, but may be changed depending on the user and the circumstances.

The number of the first generators 80 installed in correspondence with the generators 70 for generators is also three. The three first generators 80 will be referred to as the first A generator 81, the first B generator 82, and the first C generator 83.

The plurality of generator engines 70 operate the first generator 80 connected to each other to produce electricity. Here, the generator engine 70 is an engine that can be operated with diesel, gasoline or the like.

The plurality of first generators 80 are operated according to the operation of the plurality of generator motors 70 as described above to produce electricity. The electricity thus produced is transferred to the control operation unit 60. The control operation unit 60 acts as a switchboard, which will be described later, and moves the supplied electricity to the BWTS 50. [

The BWTS 50 is composed of a plurality of components such as a ballast tank, a filter, a pump for moving seawater, an electrolytic device, a neutralization treatment device, a control PC, a valve, an electro-chamber unit (ECU) Installed seawater biological treatment device, and temporarily storing and discharging seawater.

The control operation unit 60 is also connected to each component of the BWTS 50 and supplies electricity, which is a power source, to which each configuration can be operated.

The cargo pump 40 is a plurality of pumps installed in the cargo pump room 41. The cargo pump 40 serves to unload the stored crude oil when the vessel is anchored.

Here, the cargo pump 40 requires an operation source to be operated. The cargo pump 40 is installed on a large ship and is connected to a turbine 30 driven by a steam and operated by a shaft.

The turbine 30 is operated in accordance with an operation source to drive the cargo pump 40 or the second generator 20 to operate the second generator 20 to produce excess electricity.

In FIG. 2 of the present invention, only one second generator 20 is shown, but the present invention is not limited thereto, and a plurality of second generators 20 may be installed.

Therefore, when the turbine 30 is operated, the cargo pump 40 is operated to unload the crude oil, and the second generator 20 is operated to generate extra electricity, And can be supplied to the BWTS 50.

Although the source of operation of the turbine 30 can be operated for a variety of reasons, in the present invention the turbine 30 is operated by a vapor gas.

That is, the turbine 30 is supplied with heat energy by the boiler 10, and the steam gas supplied with a sufficient energy is supplied to the steam pipe 100, and the steam is supplied to the steam turbine 30, And is guided to move from the center of the turbine 30 to the outside in the direction that the turbine 30 moves.

The control operation unit 60 is connected to the plurality of first generators 80, the second generator 20 and the BWTS 50 to convert the electricity supplied by the first and second generators 80 and 20 into BWTS And the second generator 20 is operated to stop the operation of at least one of the plurality of generators 70 when the second generator 20 is operated.

The control operation section 60 is composed of the recognition supply section 61 and the control switch section 62 more precisely and the control switch section 62 is composed of the logic section 63 and the switching section 64 again.

The recognition supply section 61 is connected to the first A generator 81, the first B generator 82 and the first C generator 83 to receive electricity from the respective first generators 80 and the turbine 30 is operated The extra electricity generated by the second generator 20 is also supplied.

Further, the recognition supply unit 61 supplies the supplied electricity to the BWTS 50, and distributes the supplied electricity to each configuration of the BWTS 50 to supply it.

When receiving the electricity generated from the second generator 20, the recognition supply unit 61 outputs a signal to the logic unit 63.

The logic unit 63 may be connected to the recognition and supply unit 61 and may operate the switching unit 64 to stop the operation of at least one of the generator engines 70 when a signal is output to the recognition supply unit 61 .

The logic section 63 operates the switching section 64 to stop the operation of the engine 73 for the third generator to stop the operation of the first C generator 83 Stop.

Thus, the engine 73 for the third generator and the first C generator 83 can secure the maintenance time.

The logic section 63 allows the switching section 64 to operate in various logic.

The engine 71 for the first generator 80, the engine 72 for the second generator, and the engine 73 for the third generator may have different electric quantities to be produced.

For example, the engine 71 for the first generator 80 produces an amount of electricity corresponding to 10, the engine 72 for the second generator produces an amount of electricity corresponding to 8, If the engine 73 is capable of producing an amount of electricity corresponding to 6, the logic unit 63 can calculate the amount of electricity supplied to the engine 71 for the first generator 80, The switching of the engine 72 for the generator and the engine 73 for the third generator can be operated through the switching unit 64. [

That is, when the ship is in operation, when the BWTS 50 requires only the electricity quantity of 8 produced by the first B generator 82 when the engine 72 for the second generator is operated, The switching section 64 can be operated so that the engine 71 for the engine 80 and the engine 73 for the third generator are turned off.

If the cargo pump 40 is operated by the hull and the second generator 20 is supplying an amount of electricity corresponding to 6, the logic unit 63 receives the signal of the recognition / supply unit 61 And if it is recognized that the measured electricity quantity corresponds to 6, the switch of the generator engine 70 for generating the electricity quantity with the reference electricity quantity equal to 6 (OFF). That is, the logic unit 63 turns off the engine 73 for the third generator via the switching unit 64 and turns off the engine 71 for the first generator 80, the engine 72 for the second generator 80, The switch can be turned ON so as to be continuously operated.

The logic unit 63 switches on the engine 71 for the first generator 80, the engine 72 for the second generator, and the engine 73 for the third generator, And the switch is turned off (maximized).

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

10: boiler 20: second generator
30: turbine 40: cargo pump
41: Cargo pump room
50: BWTS (BALLAST WATER TREATMENT SYSTEM)
60: control operation part 61: recognition part
62: control switch section 63: logic section
64: switching section 70: engine for generator
71: engine for first generator 72: engine for second generator
73: engine for third generator 80: first generator
81: first-A generator 82: first-B generator
83: First C generator 100: Steam pipe

Claims (4)

A BWTS electric power supply system for generating electric power by utilizing rotation of a turbine for operating a cargo pump installed on a large-sized ship and supplying the electric power to a ballast water treatment system (BWTS)
An engine for a plurality of generators;
A first generator connected to the plurality of engines, respectively;
A turbine connected to the cargo pump and the shaft to rotate according to an operation source to operate the cargo pump;
A second generator connected to the turbine to generate electricity according to the operation of the turbine; And
Wherein the first generator, the second generator, and the BWTS are connected to the first generator and the second generator to supply electricity to the BWTS, wherein when the second generator is operated, at least one of the plurality of generators And a control operation unit
The BWTS electrical supply system comprising: The method according to claim 1,
The operating source
Which is supplied with energy by a boiler, is guided through a steam pipe, and is a steam gas supplied to the turbine
The BWTS electrical supply system comprising: The method according to claim 1,
Wherein the control operation unit comprises: a recognition supply unit for confirming the supply of electricity by the second generator;
A control switch unit connected to the recognition supply unit and connected to the plurality of generator engines to stop the operation of at least one of the plurality of generators when receiving a signal from the recognition supply unit;
The BWTS electrical supply system comprising: The method of claim 3,
The control switch unit,
A logic unit coupled to the recognition and supply unit to determine an amount of electricity produced by the second generator and a switching unit for stopping the operation of any one of the engines for the generator by the logic unit
And the logic unit operates the switching unit to stop the operation of the generator engine for producing the electricity quantity of the reference electricity quantity among the plurality of generators engines by using the electricity quantity received by the recognition supply unit as the reference electricity quantity
The BWTS electrical supply system comprising:

Images