KR102316035B1 - Energy self-contained waterpure system using electrolysis and hydrogen fuel cell - Google Patents

Abstract

An energy-independent water electrolysis fuel cell water pure system is presented. The energy-independent water electrolysis fuel cell water pure system proposed in the present invention uses supplied water to generate hydrogen and oxygen through water electrolysis, and regulates the pressure of the generated hydrogen gas to supply hydrogen gas to the energy generator. A water electrolysis unit that uses the air as a power source for purification, an energy generation unit that generates electric energy based on hydrogen gas supplied to use the air as a power source for purification. The energy storage unit that supplies power, the oxygen exhaust port that discharges the oxygen generated by the water electrolysis unit to purify the air, and the supplied water are sprayed or evaporated through any one of ultrasonic vibration type, heating type, natural evaporation type, or nozzle method. It includes a humidifier that generates water vapor to control humidity in the room.

Description

Energy self-contained waterpure system using electrolysis and hydrogen fuel cell

The present invention relates to an energy-independent water electrolysis fuel cell water pure air cleaning system.

The water electrolysis (electrolysis) system is a system that electrochemically decomposes water to generate hydrogen and oxygen. Compared to other hydrogen production methods, it has the advantages of simple operating conditions, small volume, and high purity hydrogen. is attracting attention as Representative methods in the field of water electrolysis for water electrolysis include Solid Oxide Electrolysis (SOE), Polymer Electrolyte Membrane Electrolysis (PEME), and Alkaline Electrolysis (AE). exist.

In the field of water electrolysis, high-temperature steam electrolysis is a method that uses the phenomenon that the electrical energy required to decompose water becomes lower at high temperatures. It is possible to drive in both directions.

A fuel cell is a method of producing electricity by electrochemically reacting hydrogen and oxygen. Compared to an internal combustion engine, a fuel cell is considered as one of the alternative energy technologies because of its low environmental pollution and high energy efficiency. In particular, the water electrolysis treatment unit, which produces hydrogen by electrolysis of water, is in the spotlight in terms of environment-friendly aspects of emitting only oxygen as a by-product and hydrogen purity close to 100%.

Polyelectrolyte membrane fuel cells (PEMFCs) are continuously growing through a wide range of power supply and various applications. It is rapidly being introduced to the private market as well as the mandatory installation of institutions market.

Among fuel cell applications, transportation is focused on the automobile market, and Doosan Fuel Cell is concentrating on producing fuel cells that can be supplied to buildings and vehicles by merging Clear Edge Power. Hyundai Motor plans to start producing hydrogen electric vehicles from January 2018.

The Korea Institute of Energy Research has developed a flat tube type high-temperature water electrolysis hydrogen production technology that can recycle high-temperature and high-pressure waste heat and water vapor. Thus, a solid oxide water electrolysis battery that produces 0.9 L of hydrogen per hour was developed.

Korean Patent Laid-Open No. 10-2005-0075628 relates to a high-temperature methane reforming hybrid water electrolysis processing unit, which is configured so that hydrogen production by the steam reforming reaction of methane and the high-temperature water electrolysis reaction can proceed together, and the autothermal reaction of methane The heat generated by the methane and the heat generated by the complete or partial oxidation reaction of methane are configured so that they can be utilized in a water electrolyzer that requires high-temperature operating conditions to efficiently utilize energy and energy compared to the existing water electrolysis treatment unit. Disclosed is a technique for reducing consumption.

The technical task to be accomplished by the present invention is to reduce the use of chemical fuels, utilize alternative eco-friendly energy, and convert hydrogen produced through water electrolysis into air to reduce greenhouse gas emissions for climate change response and to fulfill the duty to adapt to climate change. It is to provide an energy-independent water electrolysis fuel cell water pure air cleaning system that supplies oxygen, a by-product, by using it as a power source to generate power.

In one aspect, the energy self-reliant water electrolysis fuel cell water pure air cleaning system proposed by the present invention generates hydrogen and oxygen through water electrolysis using supplied water, and regulates the pressure of the generated hydrogen gas to generate energy. Water electrolysis unit that supplies hydrogen gas to the generator, energy generator that generates electric energy based on hydrogen gas supplied to use air as a power source for purification, electricity generated without requiring separate energy charging An energy storage unit that supplies energy as power for air purification, an oxygen exhaust port that discharges oxygen generated by the water electrolysis unit for air purification, and an ultrasonic vibration type, heating type, natural evaporation type, or nozzle method for the supplied water One includes a humidifier that controls the humidity in the room by spraying or evaporating it to produce water vapor.

The water electrolysis unit uses solar energy to supply the power required for the initial water electrolysis treatment, and a solar panel for use as a reserve power, filtered and purified water are supplied, and oxygen and clean water are supplied through hydrogen electrolysis using solar energy. A water electrolysis processing unit that generates hydrogen gas, a gas control unit that regulates and supplies the pressure of hydrogen gas generated through water electrolysis treatment, and a hydrogen that converts the generated hydrogen into high-purity clean hydrogen gas through a hydrogen purification process using an adsorbent It includes a purification unit and a hydrogen storage unit for storing purified hydrogen gas.

The energy generator generates electricity by electrochemically reacting hydrogen gas and oxygen produced through water electrolysis and converted into high-purity clean hydrogen gas through a hydrogen purification process using the fuel cell 130 .

The oxygen exhaust port is discharged through a fan so that the oxygen generated in the water electrolysis unit is dispersed and discharged.

In another aspect, the power supply method of the energy-independent water electrolysis fuel cell water pure system proposed in the present invention uses water supplied to the water electrolysis unit to generate hydrogen and oxygen through water electrolysis, and the generated hydrogen The step of supplying hydrogen gas to the energy generator by adjusting the pressure of the gas, the step of generating electric energy based on the hydrogen gas supplied to the energy generator to use the air as a power source for purification, the generated electric energy The step of supplying air as power for purification through the energy storage unit, the step of discharging the oxygen generated in the water electrolysis unit through the oxygen exhaust port for purification of the air, and the step of discharging the supplied water through an ultrasonic vibration type, heating type, natural evaporation type, or nozzle and controlling the humidity in the room by using a humidifier that generates water vapor by spraying or evaporating through any one of the methods.

The step of generating hydrogen and oxygen through water electrolysis using the water supplied to the water electrolysis unit, and supplying hydrogen gas to the energy generation unit by controlling the pressure of the generated hydrogen gas is the initial water electrolysis using solar energy. The power required for treatment is supplied and used as a reserve power, filtered and purified water is supplied to generate oxygen and clean hydrogen gas through hydrogen electrolysis using solar energy, and hydrogen gas generated through water electrolysis treatment The pressure is controlled and the generated hydrogen is converted into high-purity clean hydrogen gas through a hydrogen purification process using an adsorbent and stored.

In order to use air as a power source for purification, the step of generating electric energy based on the hydrogen gas supplied to the energy generator is hydrogen gas produced through water electrolysis and converted into high-purity clean hydrogen gas through a hydrogen purification process. and oxygen are electrochemically reacted using a fuel cell to produce electricity.

In the step of discharging the oxygen generated in the water electrolysis unit through the oxygen exhaust port to purify the air, the oxygen generated in the water electrolysis unit is discharged through a fan to be dispersed and discharged.

According to embodiments of the present invention, an oxygen generating air purifier that reduces the use of chemical fuels, utilizes alternative eco-friendly energy, and supplies oxygen as a by-product by using hydrogen produced through water electrolysis as a power source to power the air purifier. We propose an energy-independent water electrolysis fuel cell water pure air purifying system to provide fresh air to the room and control the humidity in the room.

1 is a view showing an opening diagram of an energy-independent water electrolysis fuel cell water pure air cleaning system according to an embodiment of the present invention.
2 is a view showing a bird's eye view of an energy-independent water electrolysis fuel cell water pure air cleaning system according to an embodiment of the present invention.
3 is a flowchart illustrating a power supply method of an energy-independent water electrolysis fuel cell water pure air cleaning system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an opening diagram of an energy-independent water electrolysis fuel cell water pure air cleaning system according to an embodiment of the present invention.

Due to the depletion of fossil energy and global warming, interest in eco-friendly alternative energy is increasing. In particular, hydrogen energy is evaluated as an alternative fuel to fossil fuels because it can produce electric energy using fuel cells. As a method of producing hydrogen, the electrolysis method using water electrolysis produces hydrogen and oxygen by electrolyzing water.

The present invention relates to an energy self-reliant water electrolysis fuel cell water pure that uses productive hydrogen as a power source for power generation of an air purifier and supplies oxygen as a by-product through such a water electrolysis method.

The proposed energy-independent water electrolysis fuel cell water pure system includes a solar panel (not shown), a water electrolysis unit 110, an energy generation unit (ie, a fuel cell) 120 and an energy storage unit 130, a motor ( 140 ) and an oxygen exhaust port 150 .

The water electrolysis unit 110 generates hydrogen and oxygen through water electrolysis using the supplied water, and supplies hydrogen gas to the energy generation unit by adjusting the pressure of the generated hydrogen gas. The water electrolysis unit 110 includes a water electrolysis treatment unit 111 , a gas control unit 112 , a hydrogen purification unit 113 , a hydrogen storage unit 114 , an injection unit 115 , and a humidifier 116 .

A solar panel (not shown) supplies power required for the initial water electrolysis treatment using solar energy and uses it as a reserve power.

The water electrolysis treatment unit 111 is supplied with filtered and purified water through the injection unit 115 to generate oxygen and clean hydrogen gas through hydrogen electrolysis using solar energy.

The gas control unit 112 controls and supplies the pressure of hydrogen gas generated through the water electrolysis process.

The hydrogen purification unit 113 converts the generated hydrogen into high-purity clean hydrogen gas through a hydrogen purification process using an adsorbent.

The hydrogen storage unit 114 stores purified hydrogen gas.

The energy generator (ie, fuel cell) 120 generates electric energy based on hydrogen gas supplied to use air as a power source for purification. The energy generator 120 generates electricity by electrochemically reacting hydrogen gas and oxygen produced through water electrolysis and converted into high-purity clean hydrogen gas through a hydrogen purification process using the fuel cell 120 .

In addition, the humidifier 116 may generate water vapor by spraying or evaporating the supplied water through any one of an ultrasonic vibration type, a heating type, a natural evaporation type, or a nozzle method to adjust the humidity in the room.

The energy storage unit 130 includes a battery manager 131 and a battery 132 . The battery management unit 131 does not require separate energy charging and supplies the generated electric energy as power for air purification. The energy storage unit 130 includes a battery management system (BMS) and an energy storage system (ESS). In addition, extra electricity is stored in the battery 132 so that it does not require separate energy charging and can be driven without power supply.

The motor 140 may drive the pure water shown in FIG. 1 by using the power supplied from the energy storage unit 130 .

The oxygen exhaust port 150 discharges oxygen generated in the water electrolysis unit to purify the air. At this time, it may be discharged through a fan so that oxygen generated in the water electrolysis unit is dispersed and discharged.

2 is a view showing a bird's eye view of an energy-independent water electrolysis fuel cell water pure system according to an embodiment of the present invention.

The proposed energy-independent water electrolysis fuel cell water pure system includes a solar panel (not shown), a water electrolysis unit 210, an energy generation unit (ie, a fuel cell) 220 and an energy storage unit 230, a motor ( 240 ), an oxygen exhaust port 250 and a humidifier 260 .

The water electrolysis unit 210 uses the supplied water to generate hydrogen and oxygen through water electrolysis, and controls the pressure of the generated hydrogen gas to supply hydrogen gas to the energy generation unit. The water electrolysis unit 210 includes a water electrolysis processing unit 211 , a gas control unit 212 , a hydrogen purification unit 213 , a hydrogen storage unit 214 and an injection unit 215 , filters 216 and 217 , and a suction pump 218 . ) is included.

A solar panel (not shown) supplies power required for the initial water electrolysis treatment using solar energy and uses it as a reserve power.

The water electrolysis treatment unit 211 filters and purifies the sediment through the filters 216 and 217 to receive water. Thereafter, filtered and purified water through the suction pump 218 is supplied to the water electrolysis treatment unit 211 to generate oxygen and clean hydrogen gas through hydrogen electrolysis using solar energy.

The gas control unit 212 controls and supplies the pressure of hydrogen gas generated through the water electrolysis process.

The hydrogen purification unit 213 converts the generated hydrogen into high-purity clean hydrogen gas through a hydrogen purification process using an adsorbent.

The hydrogen storage unit 214 stores purified hydrogen gas.

The energy generating unit (ie, fuel cell) 220 generates electric energy based on hydrogen gas supplied to use air as a power source for purification. The energy generator 220 generates electricity by electrochemically reacting hydrogen gas and oxygen produced through water electrolysis and converted into high purity clean hydrogen gas through a hydrogen purification process using the fuel cell 220 .

The energy storage unit 230 includes a battery manager 231 and a battery 232 . The battery management unit 231 does not require separate energy charging and supplies the generated electric energy as power for air purification. The energy storage unit 230 includes a battery management system (BMS) and an energy storage system (ESS). In addition, extra electricity is stored in the battery 232 so that it does not require separate energy charging and can be driven without power supply.

The motor 240 may drive the pure water shown in FIG. 2 by using the power supplied from the energy storage unit 230 .

The oxygen exhaust port 250 discharges oxygen generated in the water electrolysis unit to purify the air. The oxygen exhaust port 250 may discharge purified air through a fan 260 so that oxygen generated in the water electrolysis unit is dispersed and discharged.

In addition, the humidifier 270 may generate water vapor by spraying or evaporating the supplied water through any one of an ultrasonic vibration type, a heating type, a natural evaporation type, or a nozzle method to control the humidity in the room.

3 is a flowchart illustrating a power supply method of an energy-independent water electrolysis fuel cell water pure system according to an embodiment of the present invention.

The proposed energy-independent water electrolysis fuel cell water pure system power supply method uses water supplied to the water electrolysis unit to generate hydrogen and oxygen through water electrolysis, and adjusts the pressure of the generated hydrogen gas to the energy generation unit. Supplying hydrogen gas (310), generating electric energy based on the hydrogen gas supplied to the energy generating unit to use air as a power source for purification (320), and transferring the generated electric energy through the energy storage unit A step of supplying air as power for purification (330), a step of discharging oxygen generated in the water electrolysis unit through an oxygen exhaust port for purification of air (341), and ultrasonic vibration type, heating type, natural evaporation type, or controlling the humidity in the room using a humidifier that generates water vapor by spraying or evaporating through any one of the nozzle methods ( 342 ).

In step 310, hydrogen and oxygen are generated through water electrolysis using water supplied to the water electrolysis unit, and the pressure of the generated hydrogen gas is adjusted to supply hydrogen gas to the energy generation unit.

The water electrolysis unit generates hydrogen and oxygen through water electrolysis using the supplied water, and controls the pressure of the generated hydrogen gas to supply hydrogen gas to the energy generation unit. First, the solar panel supplies the power required for the initial water electrolysis treatment using solar energy and uses it as a reserve power. The water electrolysis treatment unit generates oxygen and clean hydrogen gas through hydrogen electrolysis using solar energy by supplying filtered and purified water through the injection unit. The gas control unit controls and supplies the pressure of hydrogen gas generated through water electrolysis. The hydrogen purification unit converts the generated hydrogen into high-purity clean hydrogen gas through a hydrogen purification process using an adsorbent. The hydrogen storage unit stores purified hydrogen gas.

In step 320, electric energy is generated based on the hydrogen gas supplied to the energy generator in order to use air as a power source for purification.

The energy generator (ie, fuel cell) generates electric energy based on hydrogen gas supplied to use air as a power source for purification. The energy generator produces electricity by electrochemically reacting hydrogen gas and oxygen produced through water electrolysis and converted into high-purity clean hydrogen gas through a hydrogen purification process using a fuel cell.

In step 330, the generated electrical energy is supplied as power for air purification through the energy storage unit.

The battery manager does not require separate energy charging and supplies the generated electrical energy as power for air purification. An energy storage unit including a battery management system (BMS) and an energy storage system (ESS) does not require a separate energy charge, and stores excess electricity in a battery to enable operation without power supply.

In step 341, oxygen generated in the water electrolysis unit is discharged through an oxygen exhaust port for air purification.

The motor may drive the water pure by using power supplied from the energy storage unit. The oxygen exhaust port discharges the oxygen generated in the water electrolysis section to purify the air. At this time, it may be discharged through a fan so that oxygen generated in the water electrolysis unit is dispersed and discharged.

In addition, the humidity in the room may be controlled by using a humidifier that generates water vapor by spraying or evaporating the water supplied in step 342 through any one of an ultrasonic vibration type, a heating type, a natural evaporation type, or a nozzle method.

The device described above may be implemented as a hardware component, a software component, and/or a combination of the hardware component and the software component. For example, devices and components described in the embodiments may include, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA), It may be implemented using one or more general purpose or special purpose computers, such as a programmable logic unit (PLU), microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For convenience of understanding, although one processing device is sometimes described as being used, one of ordinary skill in the art will recognize that the processing device includes a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that can include For example, the processing device may include a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as parallel processors.

The software may comprise a computer program, code, instructions, or a combination of one or more thereof, which configures a processing device to operate as desired or is independently or collectively processed You can command the device. The software and/or data may be any kind of machine, component, physical device, virtual equipment, computer storage medium or device, to be interpreted by or to provide instructions or data to the processing device. may be embodied in The software may be distributed over networked computer systems, and stored or executed in a distributed manner. Software and data may be stored in one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in a different order than the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (8)

In the energy-independent water electrolysis fuel cell water pure air cleaning system,
a water electrolysis unit for generating hydrogen and oxygen through water electrolysis using the supplied water, and supplying hydrogen gas to the energy generating unit by adjusting the pressure of the generated hydrogen gas;
an energy generator for generating electric energy based on hydrogen gas supplied to use air as a power source for purification;
an energy storage unit that does not require separate energy charging and supplies the generated electrical energy as power for air purification;
an oxygen exhaust port for discharging oxygen generated in the water electrolysis unit to purify the air; and
A humidifier that generates water vapor by spraying or evaporating supplied water through any one of ultrasonic vibration, heating, natural evaporation, or nozzle methods to control indoor humidity.
An energy-independent water electrolysis fuel cell water pure system comprising a. According to claim 1,
water dissection,
A solar panel for supplying power required for the initial water electrolysis treatment using solar energy and using it as a reserve power;
a water electrolysis treatment unit that supplies filtered and purified water to generate oxygen and clean hydrogen gas through hydrogen electrolysis using solar energy;
a gas control unit for controlling and supplying the pressure of hydrogen gas generated through water electrolysis;
a hydrogen refining unit converting the generated hydrogen into high-purity clean hydrogen gas through a hydrogen refining process using an adsorbent; and
Hydrogen storage unit that stores purified hydrogen gas
An energy-independent water electrolysis fuel cell water pure system comprising a. According to claim 1,
energy generator,
Hydrogen gas produced through water electrolysis and converted into high-purity clean hydrogen gas through hydrogen purification process is electrochemically reacted with oxygen using a fuel cell to produce electricity.
Energy-independent water electrolysis fuel cell water pure system. According to claim 1,
oxygen exhaust,
The oxygen generated in the water electrolysis section is discharged through a fan so that it is dispersed and discharged.
Energy-independent water electrolysis fuel cell water pure system. In the power supply method of an energy-independent water electrolysis fuel cell water pure system,
generating hydrogen and oxygen through water electrolysis using the water supplied to the water electrolysis unit, and supplying hydrogen gas to the energy generating unit by adjusting the pressure of the generated hydrogen gas;
generating electric energy based on the hydrogen gas supplied to the energy generating unit to use air as a power source for purification;
supplying the generated electrical energy as power for purifying air through an energy storage unit;
discharging oxygen generated in the water electrolysis unit through an oxygen exhaust port to purify the air; and
Controlling the humidity in the room using a humidifier that generates water vapor by spraying or evaporating the supplied water through any one of the ultrasonic vibration type, heating type, natural evaporation type, or nozzle method
A power supply method of an energy-independent water electrolysis fuel cell water pure system comprising a. 6. The method of claim 5,
The step of supplying hydrogen gas to the energy generating unit by generating hydrogen and oxygen through water electrolysis using the water supplied to the water electrolysis unit, and regulating the pressure of the generated hydrogen gas,
Using solar energy, the power required for the initial water electrolysis treatment is supplied and used as a reserve power. Filtered and purified water is supplied to generate oxygen and clean hydrogen gas through hydrogen electrolysis using solar energy. It controls the pressure of hydrogen gas generated through sea treatment, and converts the generated hydrogen into high-purity clean hydrogen gas through a hydrogen purification process using an adsorbent and stores it.
A method of supplying power in an energy-independent water electrolytic fuel cell water pure system. 6. The method of claim 5,
The step of generating electric energy based on the hydrogen gas supplied to the energy generating unit to use air as a power source for purification is,
Hydrogen gas produced through water electrolysis and converted into high-purity clean hydrogen gas through hydrogen purification process is electrochemically reacted with oxygen using a fuel cell to produce electricity.
A method of supplying power to an energy-independent water electrolytic fuel cell water pure system. 6. The method of claim 5,
To purify the air, the step of discharging the oxygen generated in the water electrolysis part through the oxygen exhaust port,
The oxygen generated in the water electrolysis section is discharged through a fan so that it is dispersed and discharged.
A method of supplying power to an energy-independent water electrolytic fuel cell water pure system.

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