JP2016146679A - Electric power supply system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electric power supply system using a renewable energy power generator and an engine power generator capable of reducing the size of the system and the amount of engine fuel used.SOLUTION: The electric power supply system supplies electric power by using both of a power generation unit R that converts renewable energy into electrical energy and an engine power generation unit 7. A part of the electric energy acquired by the power generation unit R is supplied to the electrolysis apparatus 6 to generate hydrogen and oxygen. The generated hydrogen and oxygen are directly supplied to the engine power generation unit 7 to generate the electric power by the engine power generation unit using at least one of the hydrogen or engine fuel as fuel.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a system for performing stable power generation using a renewable energy power generation device and an engine generator.

Due to the problem of CO ₂ reduction and the problem of depletion of underground resources, power generation using renewable energy such as sunlight and wind power is being actively promoted. However, since renewable energy is greatly affected by the natural environment, fluctuations are large, and when it is introduced on a large scale, the grid power becomes unstable. Therefore, it is necessary to prepare an energy storage system separately. For example, as in Patent Document 1, a system has been proposed in which hydrogen is produced by an electrolysis apparatus using a part of power generation by renewable energy, and the produced hydrogen is combined with an aromatic compound and stored as a hydride.

  In addition, since it is impossible to meet all demand with power generation using renewable energy, it is used in combination with other power generation devices such as thermal power generation.

JP 2014-84792

  By the way, in the system of patent document 1, in order to convert and store a part of electric power generated by renewable energy into hydrogen energy, a hydrogenation device, a hydride tank, a dehydride tank, a reactor, etc. An energy storage device is required, and there are problems in terms of system enlargement and equipment costs.

On the other hand, in an electric power supply system using a renewable energy power generation device and an engine generator, there are the following problems when the energy storage device is eliminated to simplify the system. Engine generators need to be able to meet demand even when the generation of renewable energy is zero. Therefore, when a part of the demand power can be supplied by the renewable energy power generation apparatus, the output is lowered to follow the operation. However, since the efficiency of the engine generator is reduced at low output, the problem is that the consumption of engine fuel increases. Further, from the viewpoint of stable power supply, it is necessary to keep the engine generator output at a certain value or more, assuming that the engine generator is always generating power. Therefore, the amount of engine fuel required to maintain the power generation state of the engine generator is required, and there are problems such as an increase in the size of the fuel tank and CO ₂ emission due to combustion of the engine fuel. In addition, even when the renewable energy power generation apparatus can supply more power than the demand power, the engine generator cannot be stopped, so that the surplus power that can be generated with the renewable energy cannot be effectively used.

  An object of the present invention is to provide a power supply system that uses a renewable energy power generation device and an engine generator, and that can reduce the amount of engine fuel used while reducing the size of the system.

  A power supply system according to the present invention is a system that supplies power using both power generation by renewable energy and power generation by an engine generator, and includes a power generation device that converts renewable energy into electrical energy, and a power generation device A power distribution device that supplies a part of the electric energy obtained by the method to the electrolysis device, an electrolysis device that produces hydrogen and oxygen using the electric energy supplied from the power distribution device, and hydrogen and oxygen from the electrolysis device First supply means for supplying oxygen to the engine generator; fuel tank for storing engine fuel supplied to the engine generator; and second supply means for supplying engine fuel from the fuel tank to the engine generator; The engine generator generates electricity using at least one of hydrogen and engine fuel as fuel. That.

  According to the present invention, in a power supply system using a renewable energy power generation apparatus and an engine generator, the amount of engine fuel used can be reduced along with downsizing of the system.

BRIEF DESCRIPTION OF THE DRAWINGS Configuration explanatory drawing of the electric power supply system which concerns on embodiment of this invention. It is the figure which showed an example of the relationship of the renewable energy electric power generation amount with respect to supplied electric power, and an engine electric power generation amount. It is a figure which shows an example of the consumption of the fossil fuel by renewable energy introduction. It is the elements on larger scale which show typically the cylinder head neighborhood of the diesel engine used for the engine generator which constitutes the electric power supply system concerning the embodiment of the present invention. It is an example of the partial enlarged view which shows typically the cylinder head vicinity of the spark ignition engine used for the engine generator which comprises the electric power supply system which concerns on embodiment of this invention. It is an example of the partial enlarged view which shows typically the cylinder head vicinity of the spark ignition engine used for the engine generator which comprises the electric power supply system which concerns on embodiment of this invention. It is a control flowchart of the operation mode of the electric power supply system which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
[First embodiment]
The power supply system according to the present embodiment is a system that supplies power using both a power generation device R that converts renewable energy into electric energy and power generation by the engine generator 7, and is obtained by the power generation device R. Hydrogen and oxygen are produced by supplying a part of the electrical energy to the electrolyzer 6, and the produced hydrogen and oxygen are directly supplied to the engine generator 7. It is characterized by generating electricity with a machine. That is, a part of the electric power derived from the fluctuating renewable energy is supplied to the electrolyzer, and hydrogen and oxygen generated by the electrolysis are used as assist fuel for the engine generator. By determining the amount of power supplied to the electrolyzer and the amount of power generated by the engine generator with reference to the power demand and the amount of renewable energy generated, the amount of hydrogen generated and the amount of oxygen to determine the engine fuel amount Stable supply and reduction of engine fuel.

Hereinafter, the configuration of the power supply system and the operation of the system will be described.
<System configuration>
FIG. 1 is a configuration explanatory diagram of a power supply system according to an embodiment of the present invention. As shown in FIG. 1, the power supply system S according to this embodiment includes a power generator R using renewable energy, and a power distribution that distributes and supplies power generated by the power generator R to the electrolyzer 5 and the system 10. An apparatus 5, an electrolyzer 6 that generates hydrogen and oxygen, an engine generator 7 that generates electric power by burning engine fuel and hydrogen, and a fuel tank 8 that stores engine fuel to be supplied to the engine generator 7 A supply device 101, 102, 103 for supplying hydrogen, oxygen, and engine fuel to the engine generator, a power adjusting device 9 for supplying power generated by the engine generator 7 to the system, and a control unit 11. Composed. In FIG. 1, the practice represents electrical wiring, the double line represents hydrogen and oxygen lines, and the broken line represents signal lines used for measurement or control.

  In the power supply system of this embodiment, the power generation amount (Weg) of the engine generator is set so that the demand power (Wd), the power generation amount (Weg) of the engine generator, and the power generation amount (Wr) of the power generator R satisfy the following relationship. ) Is determined. Thereby, electric power is stably supplied with respect to electric power demand.

Wd−Weg ≦ Wr
Then, when the demand power (Wd), the power generation amount (Weg) of the engine generator, and the power generation amount (Wr) of the power generator R have the following relationship, a part of the power of the power generator R is transferred by the power distribution device 5 Distributed and supplied to the electrolyzer 6.

Wd-Weg <Wr
Energy for supplying surplus power that can be generated with renewable energy to the system by supplying hydrogen and oxygen generated by the electrolyzer 6 to the engine generator 7 and using them as assist fuel for engine fuel Can be used effectively. Further, by supplying hydrogen and oxygen as assist fuel to the engine generator, it is possible to improve the power generation efficiency of the engine generator 7 and reduce the amount of engine fuel used. At this time, depending on the amount of hydrogen produced by the electrolyzer 6, it is also possible to generate electricity using only hydrogen without using engine fuel. The amount of power generated by the engine generator (Weg) and the amount of power distributed and supplied from the power generator R to the electrolyzer 6 can be determined in consideration of the efficiency of the electrolyzer 6 and the power generator efficiency of the engine generator 7, etc. desirable. Rather than supplying all the power that can be generated by the power generator R to the system, the amount of power generated by the engine generator is increased and a part of the power of the power generator R is supplied to the electrolyzer 6 to generate hydrogen. This is because there are cases where the overall system efficiency is higher when oxygen and oxygen are supplied to the engine generator as assist fuel. For example, when the amount of power in the power generator R is large and the output of the engine generator 7 is small, the system efficiency is reduced due to the reduction in the power generation efficiency of the engine generator 7. Therefore, when the amount of renewable energy with respect to the amount of power demand is greater than or equal to the predetermined amount, the amount of power supplied to the electrolyzer by the power distribution device is reduced according to the increase in the amount of renewable energy without reducing the output of the engine generator. It is preferable to increase.

  As described above, in the power supply system of the present embodiment, fluctuations in the amount of power generated by the renewable energy power generation device R can be absorbed as shown in FIG. 2 without using an energy storage device, thereby enabling stable power supply. Further, in the system configuration that does not use the conventional energy storage device as shown in FIG. 3, the engine generator output cannot be reduced below a certain level, so the effect of reducing the engine fuel is small. It is also possible to stably supply power with% renewable energy, and the amount of fuel used by the engine generator can be reduced. In addition, this configuration eliminates the need for energy storage devices such as storage devices that store fluctuations and surpluses from renewable energy power generation devices, and hydrogen storage devices such as hydrogen storage high-pressure tanks and organic hydrides. Simplification can be achieved.

<Renewable energy equipment>
The renewable energy power generation apparatus R is configured by a power generation apparatus using renewable energy such as a solar power generation apparatus 1 or a wind power generation apparatus 2. In addition, it will not be limited if it is a power generator using renewable energy. The power generation device includes a current control device capable of adjusting each power amount and supplying it to the system. For example, PCS3 in the case of the solar power generation device 1 and power conversion device 4 in the wind power generation device (AC / DC / AC, etc.) that can control the voltage, frequency, etc. and can supply power to the system It is not limited.

<Power distribution device>
Part of the electric power generated by the renewable energy power generator is supplied to the electrolyzer 6 through the power distributor 5. The power distribution device 5 is not particularly limited as long as each power value can be supplied to the electrolyzer 6. However, the amount of power supplied to the electrolysis is determined by the control unit 11.

<Electrolysis device>
The specific configuration of the electrolyzer 6 is not particularly limited. For example, the electrolyzer 6 is configured to electrolyze water using an electrolyte solution, an electrolyte, and a reaction promoting electrode catalyst provided so as to sandwich the electrolyte. Hydrogen and oxygen are generated.

  The electrolyzer 6 is preferably an electrolyzer using solid polymer water electrolysis or alkaline water electrolysis that can be electrolyzed at a relatively low temperature and can be started in a short time. The electrolysis apparatus based on solid polymer water electrolysis uses a polymer electrolyte having proton conductivity as a partition and an electrolyte to electrolyze pure water, and can efficiently produce high purity hydrogen. . An electrolysis apparatus based on alkaline water electrolysis produces hydrogen by electrolyzing an alkaline aqueous solution using an alkaline compound as an electrolyte when dissolved in water such as potassium hydroxide.

<Fuel supply device>
Hydrogen and oxygen generated from the electrolysis device 6 are supplied to the engine generator 7 via the hydrogen fuel supply device 101 and the oxygen supply device 102. Further, engine fuel is supplied from the fuel tank 8 to the engine generator 7 via the fuel supply device 103. Known supply means such as an injector is applied to the supply devices 101, 102, and 103, and the supply amount, supply pressure, and the like are controlled by the control unit 7. When the supply pressure of hydrogen and oxygen is low, pressurization may be performed with a compressor or the like.

<Engine generator>
A known engine such as a diesel engine or a spark ignition engine is applied to the engine generator. The engine generator 7 is configured to generate electric power by burning hydrogen and engine fuel. The electric power generated by the engine generator 7 is adjusted in voltage, frequency and the like by the power converter 9 and supplied to the system. Oxygen and hydrogen generated by electrolysis are supplied to the engine generator. The exhaust heat from the engine generator can be used as heat energy supplied inside or outside the system. The heat supply destination is not particularly limited as long as the engine exhaust heat can be used. For example, the electric power may be supplied to the electrolyzer 6 for use in raising the temperature of the electrolyzer, heating, or the like, or electric power may be supplied by thermoelectric conversion using engine exhaust heat.

<Diesel engine>
FIG. 4 is a partially enlarged view schematically showing the vicinity of a cylinder head when a diesel engine is used as an engine of an engine generator constituting the power supply system according to the present embodiment. The diesel engine includes a piston 11 that reciprocates in a cylinder, and an intake pipe 13 and an intake pipe 14 are connected to a combustion chamber 12 in the cylinder. A hydrogen supply device 101 for supplying hydrogen and oxygen generated by the electrolyzer 6 and an oxygen supply device 102 are attached to the intake pipe 13. Hydrogen and oxygen are supplied to the engine together with intake air from the hydrogen supply device 101 and the oxygen supply device 102. Since hydrogen is manufactured based on renewable energy, the introduction ratio of renewable energy can be increased by using hydrogen. In addition, the oxygen concentration in the engine intake gas can be increased by supplying oxygen to the engine, so the engine output can be increased, the engine operating range can be expanded, and the engine can be downsized. It becomes. Further, a fuel supply device 103 for directly supplying the engine fuel of the fuel tank 8 to the engine is attached.

<Spark engine>
FIG. 5 is a partially enlarged view schematically showing the vicinity of a cylinder head when a spark ignition engine is used as the engine of the engine generator constituting the power supply system according to the present embodiment. The spark ignition engine includes a piston 21 that reciprocates in a cylinder, and an intake pipe 23, an intake pipe 24, and an ignition plug 25 are connected to a combustion chamber 22 in the cylinder. A hydrogen supply device 101 for supplying hydrogen and oxygen generated by the electrolyzer 6 and an oxygen supply device 102 are attached to the intake pipe 23. Hydrogen and oxygen are supplied to the engine together with intake air from the hydrogen supply device 101 and the oxygen supply device 102. Since hydrogen is manufactured based on renewable energy, the introduction ratio of renewable energy can be increased by using hydrogen. In addition, hydrogen has a higher combustion speed than hydrocarbon fuels generally used as engine fuel, so that it is possible to improve engine thermal efficiency. Further, since oxygen concentration in the engine intake gas can be increased by supplying oxygen to the engine, it is possible to prevent a decrease in engine output due to hydrogen supply.

  Further, an engine fuel supply device 103 for directly supplying the engine fuel of the fuel tank 8 to the engine is attached. As shown in FIG. 6, the engine fuel supply device 103 may have a structure in which it is directly injected into the engine combustion chamber.

<Engine fuel>
As the engine fuel, known hydrocarbon fuels such as gasoline, light oil, heavy oil, natural gas, bioethanol, and biodiesel are applied.

<Power adjustment device>
The power adjustment device 9 is not particularly limited as long as it is a device that can adjust voltage, frequency, and the like in order to supply power generated by the engine generator to the system. Specifically, a known device such as an AC / AC converter can be used.

<System>
The grid 10 is not limited to the power grid of an electric power company, and may be an independent power grid such as an island or a large-scale factory, and is not limited.

<Control unit>
Next, the control unit 11 that electronically controls the power supply system S will be described.

  The control unit 11 includes a CPU, a ROM, a RAM, various interfaces, an electronic circuit, and the like, and comprehensively controls the power supply system S according to a program stored therein. And the control part 11 controls the electric power distribution apparatus shown in FIG. 1, various supply apparatuses, etc. according to the procedure mentioned later. The procedure executed by the control unit 11 will be described in detail later together with the description of the power supply system.

<Operation of power supply system>
Next, an example of the operation of the power supply system according to this embodiment will be described.

  FIG. 7 is a flowchart showing a procedure executed by the control unit in the operation mode of the present system.

  The control unit 11 measures the system demand power Wd (step S1). Thereafter, the target system supply power Wt is determined (step S2). Then, the renewable energy power generation amount Wr is measured from the power meter 104 (step S3). Then, the amount of electricity Wel supplied to the electrolyzer is determined, and a control signal is sent to the power distribution device 5 (step S4). The amount of electricity Wel supplied to the electrolyzer is determined with reference to the target system supply power Wt and A shown in the following equation.

A = Renewable energy generation amount Wr / Target system power supply Wt
Wel is determined from the values of the target grid supply power Wt and A. This is determined in advance by the efficiency of the electrolyzer actually used, the power generation efficiency of the engine generator, and the like. Thereafter, the power generation amount We of the engine generator is determined (step S5). Thereafter, the amount of hydrogen produced by the electrolyzer 6 is measured by the hydrogen flow meter 105, and the amount of oxygen is measured by the oxygen flow meter 106 (step S6). Then, the hydrogen supply flow rate and the oxygen supply flow rate are determined, and control signals are sent to the hydrogen supply device 101 and the oxygen supply device 102 (step S7). Thereafter, the supply amount of engine fuel is determined based on the hydrogen supply flow rate and the oxygen supply flow rate, and a control signal is sent to the engine fuel supply device 103 (step S8). Thereafter, it is determined whether the power supply amount is the target system power supply amount. If the power supply amount is different from the target system power supply amount, the process returns to step S3 to perform feedback control (step S9).

  By such operation control, even when the generation amounts of hydrogen and oxygen change due to fluctuations in renewable energy, the engine power generation amount can be kept constant at the required amount, and stable power supply can be achieved.

  As described above, according to the power supply system of the present embodiment, a part of the power generated by the renewable energy power generation is used for electrolysis, hydrogen and oxygen are generated, and hydrogen or engine fuel is supplied to the engine generator. Thus, power can be supplied stably. Further, by supplying hydrogen and oxygen to the engine generator, it is possible to reduce the amount of fossil fuel used as engine fuel. Further, since the energy storage device is not necessary, the cost of the entire system can be reduced.

S Power supply system
R Renewable energy generator
1 Solar power generator
2 Wind power generator
3 PCS
4 Power converter
5 Power distribution device
6 Electrolyzer
7 Engine generator
8 Fuel tank
9 Power conditioner
10 lines
11 Control unit
101 Hydrogen fuel supply system
102 oxygen supply
103 engine fuel supply system
104 Renewable energy generation meter
105 hydrogen flow meter
106 oxygen flow meter
107 engine generator
108 Power supply meter

Claims (5)

A power supply system that supplies power using both power generation by renewable energy and power generation by an engine generator,
A power generator that converts renewable energy into electrical energy;
A power distribution device for supplying a part of the electrical energy obtained by the power generation device to the electrolysis device;
An electrolyzer for producing hydrogen and oxygen using electrical energy supplied from the power distribution device;
First supply means for supplying hydrogen and oxygen from the electrolyzer to the engine generator;
A fuel tank for storing engine fuel to be supplied to the engine generator;
Second supply means for supplying engine fuel from the fuel tank to the engine generator;
A control unit that electronically controls the power supply system,
The engine generator generates power using at least one of hydrogen and engine fuel as a fuel. 2. The first supply means according to claim 1, wherein the first supply means detects a flow rate of hydrogen and oxygen generated by the electrolyzer, a line for supplying hydrogen and oxygen to the engine generator, and a hydrogen fuel supply An apparatus and an oxygen supply device,
The control unit controls the supply amount of engine fuel supplied from the second supply means to the engine generator based on the flow rates of hydrogen and oxygen detected by the flow rate detection device. Power supply system.   In Claim 1, the said control part determines the electric energy supplied to an electrolyzer, the electric power generation amount of an engine generator based on the amount of demand electric power and the electric power generation amount of the above-mentioned power generator, the electric power distribution device, and A power supply system for controlling the engine generator.   2. The power supply amount to the electrolyzer by the power distribution device according to claim 1, when the power amount of the power generation device with respect to the demand power amount is equal to or greater than a predetermined amount, according to an increase in the power amount of the power generation device. A power supply system that performs control to increase the power.   The power supply system according to claim 1, wherein the engine fuel is a hydrocarbon fuel.