KR102113914B1 - Power management system for engine generator - Google Patents

Abstract

The present invention is to store the electric power generated by the engine generator in the process of engine commissioning in the energy storage device, and for the load test of the engine generator when the energy storage device is unable to accumulate electricity generated for some reason or partially An engine generator power management system capable of effectively performing an engine generator load test while preventing unnecessary waste of power generated by the engine generator by operating the engine generator power in parallel with a load bank. As one, the power management system of the engine generator according to the present invention includes a generator for generating power according to the engine operation; An energy storage device that stores electric power produced by the generator; A load device that consumes power of the generator in connection with the generator; And checking the power stored in the energy storage device in real time, determining whether the power of the energy storage device exceeds a preset reference value, and when the power of the energy storage device exceeds a preset reference value, the power of the generator is transferred to the load device. It characterized in that it comprises a; power management device that controls to be supplied.

Description

Power management system for engine generator

The present invention relates to an electric power management system of an engine generator, and more specifically, to store the electric power produced by the engine generator during the engine commissioning process in an energy storage device, and the energy storage device cannot store all the electricity generated for some reason. In the case of power storage in case or partly, the engine generator power is run in parallel with a load bank to test the load of the engine generator. It relates to a power management system of an engine generator that can be effectively implemented.

The ship's generator engine undergoes a factory commissioning process to check the engine's output and operating state after the engine is assembled. One of the main items to check during the engine commissioning process is the load test of the generator. The load test of the engine generator is usually performed using a load bank that is a load test facility. In detail, while the engine generator is connected to the load bank, the load test of the engine generator is conducted in a form of consuming power generated by the generator through the load bank.

However, the load test method of a conventional engine generator using a load bank is a method in which all power generated by the engine generator is consumed as heat through a load bank, and thus fuel according to the operation of the engine generator. Significant waste of waste follows.

Korea Patent Publication No. 2013-7095

The present invention has been devised to solve the above problems, when the electric power generated by the engine generator during the engine commissioning process is stored in the energy storage device, and the energy storage device is unable to accumulate all the electricity generated for some reason. In the case of storing only part of the power, the engine generator's power is operated in parallel with a load bank for load testing of the engine generator. An object of the present invention is to provide a power management system for an engine generator that can be implemented.

The power management system of the engine generator according to the present invention for achieving the above object is a generator that generates power according to the engine operation; An energy storage device that stores electric power produced by the generator; A load device that consumes power of the generator in connection with the generator; And checking the power stored in the energy storage device in real time, determining whether the power of the energy storage device exceeds a preset reference value, and when the power of the energy storage device exceeds a preset reference value, the power of the generator is transferred to the load device. It characterized in that it comprises a; power management device that controls to be supplied.

A plurality of generators are provided. Under the control of the power management device, any one of the plurality of generators is connected to a load device so that a load test is performed and the power produced by the remaining generators is controlled to be stored in an energy storage device.

The energy storage device may store power generated by the solar cell module together with generator power.

The power management system of the engine generator according to the present invention has the following effects.

When the engine is commissioned, the power generated by the generator is stored in the energy storage device, and when the power of the energy storage device is saturated, the generator power is used for the load test. Can effectively carry out the load test.

1 is a block diagram of a power management system of an engine generator according to an embodiment of the present invention.
Figure 2 is a flow chart for explaining the operation of the power management system of the engine generator according to an embodiment of the present invention.

The present invention proposes a technique of using the generator power produced during the commissioning process of a ship engine for load testing and storing residual power.

To this end, the present invention allows the power produced by the engine generator to be stored in an energy storage system (ESS) under the control of a power management system, and the energy storage device is saturated or the load test is urgently If required, a technique is proposed to control the power of the engine generator to be consumed in the load test.

Hereinafter, a power management system of an engine generator according to an embodiment of the present invention will be described in detail with reference to the drawings.

1, the power management system of the engine generator according to an embodiment of the present invention includes an engine 110, a generator 120, an energy storage system (ESS) 130, a load device 140 And a power management system 150.

The engine 110 and the generator 120 are integrally interlocked, and power is produced by the generator 120 according to the operation of the engine 110. The energy storage device 130 serves to store power generated by the generator 120 under the control of the power management device 150. The load device 140 is a load that consumes the supplied power, and may be configured as a heater and a fan in one embodiment. The power management device 150 checks the state of the energy storage device 130 in real time, and when the power stored in the energy storage device 130 exceeds a predetermined reference value, the power of the generator 120 is supplied to the load device 140. It serves to control as much as possible.

Under this configuration, when the generator 120 is operated according to the test operation of the engine 110 and power is produced, the power produced by the generator 120 is stored in the energy storage device 130 (see S201 and S202 in FIG. 2). ). In the process where the power of the generator 120 is stored in the energy storage device 130, the power management device 150 checks the power stored in the energy storage device 130 in real time and the power of the energy storage device 130 is previously It is determined whether or not the set reference value is exceeded, and when the power of the energy storage device 130 exceeds a preset reference value, the power of the generator 120 is controlled to be supplied to the load device 140 (S203 and S204 of FIG. 2). Reference).

That is, according to the present invention, the power produced by the engine generator 120 is basically stored in the energy storage device 130, and when the energy storage device 130 is in a power saturation state, the power of the generator 120 is loaded. It is supplied to the device 140 so that the load test of the engine generator 120 is performed. Through the management of the electric power produced during the trial run of the engine 110 as described above, the load test of the engine generator 120 is performed as in the past, and the electric power not required for the load test is stored in the energy storage device 130. It is possible to prevent unnecessary waste of power in the load test process of the engine generator 120.

Meanwhile, when a plurality of generators 120 are provided, that is, when a plurality of engine 110-generator 120 pairs are provided, each of the generators 120 may be selectively controlled. In this case, under the control of the power management device 150, any one of the plurality of generators 120 is connected to the load device 140 so that the load test proceeds and the power produced by the remaining generators 120 is an energy storage device ( 130).

In addition, the energy storage device 130 may store power generated from a solar cell module or the like installed in an engine commissioning device together with power of the generator 120.

110: engine 120: generator
130: energy storage device 140: load device
150: power management device

Claims (3)

In the power management system of the engine generator that stores the remaining power while using the generator power produced during the commissioning process of the ship engine for load testing,
A generator that generates power according to the engine operation;
An energy storage device that stores electric power produced by the generator;
A load device that consumes power of the generator in connection with the generator; And
The power stored in the energy storage device is checked in real time, and it is determined whether the power of the energy storage device exceeds a preset reference value, and when the power of the energy storage device exceeds a preset reference value, the power of the generator is supplied to the load device. It is made to include; power management device to control as much as possible,
Multiple engine-generator pairs are provided,
Power management system of the engine generator, characterized in that any one of the plurality of generators under the control of the power management device is connected to the load device so that the load test proceeds and the power produced by the remaining generators is stored in the energy storage device.
delete The power management system of an engine generator according to claim 1, wherein the energy storage device stores power generated by the solar cell module together with generator power.

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