CN112344508A - Energy self-sufficient type water electrolysis fuel cell pure water air purification system - Google Patents

Abstract

The invention discloses an energy self-sufficient water electrolysis fuel cell pure water system. The invention discloses an energy self-sufficient water electrolysis fuel cell pure water system, which comprises: a water electrolysis unit for generating hydrogen and oxygen by performing water electrolysis treatment on the received water, and supplying hydrogen gas to the energy generation unit by adjusting the pressure of the generated hydrogen gas; an energy generation unit that generates electric energy based on the supplied hydrogen gas to be used as a power source for purifying air; an energy storage unit for supplying the generated electric energy as power for purifying air without additional supplementary energy; an oxygen discharge port for purifying air by discharging oxygen generated in the water electrolysis portion; and a humidifier for generating water vapor and adjusting indoor humidity by spraying or evaporating the received water using one of an ultrasonic vibration method, a heating method, a natural evaporation method, or a nozzle method.

Description

Energy self-sufficient type water electrolysis fuel cell pure water air purification system

Technical Field

The invention relates to an energy self-sufficient water electrolysis fuel cell pure water air purification system.

Background

A water electrolysis (electrolysis) system is a system that electrochemically decomposes water to generate hydrogen and oxygen, and has advantages of simple operating conditions, small volume, and high-purity hydrogen availability compared to other hydrogen production methods, and thus has attracted attention as a hydrogen production technology. In the field of water Electrolysis for electrically decomposing water, Solid Oxide water Electrolysis (SOE), Polymer Electrolyte Membrane water Electrolysis (PEME), Alkaline water Electrolysis (AE), and the like are typical methods.

In the field of water electrolysis, the high-temperature steam electrolysis is a method utilizing a phenomenon that electric energy required for decomposing water becomes lower under high-temperature conditions, and can efficiently decompose water with small electric energy, and thus can operate bidirectionally because of the same structure and principle as those of a solid oxide cell (SOFC).

Fuel cells generate electricity by electrochemically reacting hydrogen with oxygen, and are one of alternative energy technologies with less environmental pollution and higher energy efficiency than internal combustion engines. In particular, a water electrolysis treatment unit that generates hydrogen by electrically decomposing water generates nearly 100% pure hydrogen and discharges only oxygen as a by-product, and therefore, has attracted attention in terms of environmental protection.

Polymer Electrolyte Membrane Fuel Cells (PEMFCs) continue to grow in a wide power supply range and various application fields, and as guidelines on support of renewable energy devices are modified in 2013, energy production and a correction factor of 6.5 are specified, thereby rapidly attracting public authorities to set obligatory and private markets.

In the field of Fuel Cell applications, the transportation field is concentrated on the automobile market, and the dosan Fuel Cell incorporates Clear Edge Power to intensively produce Fuel cells for supply to buildings and vehicles. Modern automobiles are planned to produce hydrogen electric vehicles from 1 month of 2018.

The korean institute of energy and technology developed a flat-tube type high-temperature water electrolysis hydrogen production technology capable of recycling high-temperature and high-pressure waste heat and steam, and the yunshan scientific and technical institute developed a solid oxide water electrolysis cell in which a fuel electrode (positive electrode) and an air electrode (negative electrode) are formed as a double layer structure and applied as perovskite, and 0.9L of hydrogen is generated within one hour.

Korean laid-open patent No. 10-2005-0075628, which relates to a high-temperature methane reforming mixed water electrolysis unit, discloses a technique in which a steam reforming reaction of methane and hydrogen generation by a high-temperature water electrolysis reaction can be simultaneously performed, and heat generated by an autothermal reaction of methane and heat generated by a complete oxidation reaction or a partial oxidation reaction of methane can be used for a water electrolyzer requiring high-temperature operating conditions.

Disclosure of Invention

The technical purpose to be achieved by the present invention is to provide a pure water air purification system for an energy self-sufficient water electrolysis fuel cell, comprising: in order to reduce greenhouse gases and to satisfy foreign matters according to climate change, the use of chemical fuels is reduced at a national level, and hydrogen generated by electrolysis of water is used as a power source of an air cleaner instead of environmental energy to supply oxygen as a by-product.

In one embodiment, the present invention provides an energy self-sufficient water electrolysis fuel cell pure water air purification system comprising: a water electrolysis unit for generating hydrogen and oxygen by performing water electrolysis treatment on the received water, and supplying hydrogen gas to the energy generation unit by adjusting the pressure of the generated hydrogen gas; an energy generation unit that generates electric energy based on the supplied hydrogen gas to be used as a power source for purifying air; an energy storage unit for supplying the generated electric energy as power for purifying air without additional supplementary energy; an oxygen discharge port for purifying air by discharging oxygen generated in the water electrolysis portion; and a humidifier for generating water vapor and adjusting indoor humidity by spraying or evaporating the received water using one of an ultrasonic vibration method, a heating method, a natural evaporation method, or a nozzle method.

The water electrolysis unit includes: a solar panel for supplying power required for the initial water electrolysis process using solar energy and for using as backup power; a water electrolysis processing part which receives the filtered and purified water and generates oxygen and pure hydrogen by using the hydrogen generated by solar energy to electrolyze; a gas control unit for adjusting and supplying the pressure of the hydrogen gas generated by the water electrolysis; a hydrogen purification section that converts the generated hydrogen into pure hydrogen gas of high purity through a hydrogen purification step using an adsorbent; and a hydrogen storage part for storing the purified hydrogen gas.

The energy generation unit electrochemically reacts hydrogen gas, which is generated by the water electrolysis and then converted into high-purity pure hydrogen gas through the hydrogen purification step, with oxygen by the fuel cell 120, thereby generating electricity.

The oxygen discharge port dispersively discharges oxygen generated in the water electrolysis unit by a fan (fan).

In another embodiment, the present invention discloses a method for supplying power to a pure water system of a self-sufficient water electrolysis fuel cell, comprising: a step of supplying hydrogen gas to the energy generation unit by performing water electrolysis treatment on the water supplied to the water electrolysis unit to generate hydrogen and oxygen and adjusting the pressure of the generated hydrogen gas; a step of generating electric energy based on the hydrogen gas supplied to the energy generation portion to be used as a power source for purifying air; supplying the generated electric energy as power for purifying air by the energy storage unit; a step of discharging oxygen generated in the water electrolysis portion through an oxygen discharge port to purify air; and adjusting the indoor humidity by a humidifier that generates water vapor by one of an ultrasonic vibration method, a heating method, a natural evaporation method, and a nozzle method so as to spray or evaporate the received water.

In the step of generating hydrogen and oxygen by electrolyzing water supplied to a water electrolysis unit and supplying hydrogen to an energy generation unit by adjusting the pressure of the generated hydrogen, electric power required for initial water electrolysis is supplied by solar energy and used as backup power, the filtered and purified water is received, oxygen and pure hydrogen are generated by electrolysis of hydrogen generated by solar energy, the pressure of the hydrogen generated by water electrolysis is adjusted, and the generated hydrogen is converted into pure hydrogen of high purity and stored by a hydrogen purification step using an adsorbent.

In the step of generating electric energy based on the hydrogen gas supplied to the energy generation part to be used as a power source for purifying air, the hydrogen gas converted into high-purity pure hydrogen gas through the hydrogen purification step after being generated through the water electrolysis process is electrochemically reacted with oxygen by using the fuel cell to generate electricity.

In the step of purifying air by discharging oxygen generated in the water electrolysis portion through the oxygen discharge port, oxygen generated in the water electrolysis portion is dispersedly discharged by a fan (fan).

According to an embodiment of the present invention, there is provided an energy self-sufficient type water electrolysis fuel cell pure water air purification system: the air purifier supplies fresh air to the room and adjusts the humidity of the room by using the hydrogen generated by the water electrolysis as a power source for generating electricity by using the chemical fuel instead of the environmental energy and by using the oxygen supplied as the non-product oxygen.

Drawings

Fig. 1 is a diagram showing a pure water air purification system of an energy self-sufficient water electrolysis fuel cell according to an embodiment of the present invention.

Fig. 2 is a plan view showing the pure water air purification system of the energy self-sufficient water electrolysis fuel cell according to the embodiment of the present invention.

Fig. 3 is a flowchart showing a power supply method of the pure water air purification system of the energy self-sufficient water electrolysis fuel cell according to the embodiment of the invention.

Detailed Description

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

Fig. 1 is a diagram showing a pure water air purification system of an energy self-sufficient water electrolysis fuel cell according to an embodiment of the present invention.

Due to exhaustion of fossil energy and global warming, environmental protection is attracting much attention as an alternative energy. In particular, hydrogen energy sources may utilize fuel cells to generate electrical energy, alternative fuels known as fossil fuels. As a method of generating hydrogen, hydrogen and oxygen are generated by electrolyzing water using an electrolysis method of water electrolysis.

The present invention relates to pure water for an energy-autonomous water electrolysis fuel cell, which uses productive hydrogen as a power source for generating electricity in an air cleaner by such a water electrolysis method and supplies oxygen as a by-product.

The proposed energy self-sufficient water electrolysis fuel cell pure water system includes a solar panel (not shown), a water electrolysis unit 110, an energy generation unit (in other words, a fuel cell) 120, an energy storage unit 130, a motor 140, and an oxygen discharge port 150.

The water electrolysis unit 110 performs water electrolysis on the received water to generate hydrogen and oxygen, and adjusts the pressure of the generated hydrogen gas to supply the hydrogen gas to the energy generation unit. The water electrolysis unit 110 includes a water electrolysis processing 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.

The solar panel (not shown) supplies power necessary for the initial water electrolysis process by solar energy and is used as backup power.

The water electrolysis unit 111 receives the filtered and purified water through the injection unit 115, and generates oxygen and pure hydrogen gas by electrolysis of hydrogen generated by solar energy.

The gas control unit 112 adjusts and supplies the pressure of the hydrogen gas generated by the water electrolysis.

The hydrogen purification section 113 converts the generated hydrogen into pure hydrogen gas of high purity through a hydrogen purification step using an adsorbent.

The hydrogen storage part 114 serves to store the purified hydrogen gas.

The energy generation portion (in other words, the fuel cell) 120 generates electric energy based on the supplied hydrogen gas to serve as a power source for purifying air. The energy generation unit 120 electrochemically reacts hydrogen gas, which is generated by the water electrolysis and then converted into high-purity pure hydrogen gas through the hydrogen purification step, with oxygen by the fuel cell 120, thereby generating electricity.

Also, the humidifier 116 may generate water vapor and adjust the indoor humidity by spraying or evaporating the received water using one of an ultrasonic vibration method, a heating method, a natural evaporation method, or a nozzle method.

The energy storage unit 130 includes a battery management unit 131 and a battery 132. The battery management unit 131 supplies the generated electric energy as the power for purifying the air without additional energy supply. Such an Energy storage unit 130 includes a Battery Management System (BMS) and an Energy Storage System (ESS). Also, without additional supplemental energy, the battery 132 is left with a surplus of electricity in a manner that can be driven without power.

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

The oxygen discharge port 150 purifies air by discharging oxygen generated in the water electrolysis portion. In this case, oxygen generated in the water electrolysis portion can be dispersed and discharged by the fan (fan).

Fig. 2 is a plan view showing the pure water system of the energy self-sufficient water electrolysis fuel cell according to the embodiment of the present invention.

The proposed energy self-sufficient water electrolysis fuel cell pure water system includes a solar panel (not shown), a water electrolysis unit 210, an energy generation unit (in other words, a fuel cell) 220, an energy storage unit 230, a motor 240, an oxygen discharge port 250, and a humidifier 260.

The water electrolysis unit 210 performs water electrolysis on the received water to generate hydrogen and oxygen, and adjusts the pressure of the generated hydrogen gas to supply the hydrogen gas to the energy generation unit. The water electrolysis unit 210 includes a water electrolysis treatment unit 211, a gas control unit 212, a hydrogen purification unit 213, a hydrogen storage unit 214, an injection unit 215, filters 216 and 217, and an intake pump 218.

The solar panel (not shown) supplies power necessary for the initial water electrolysis process by solar energy and is used as backup power.

The water electrolysis processing unit 211 filters and purifies the precipitate with filters 216 and 217 to receive the water. Then, the filtered and purified water is supplied to the water electrolysis treatment section 211 by the suction pump 218, and oxygen and pure hydrogen gas are generated by hydrogen electrolysis using solar energy.

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

The hydrogen purification section 213 converts the generated hydrogen into pure hydrogen gas of high purity through a hydrogen purification step using an adsorbent.

The hydrogen storage part 214 is used to store the purified hydrogen gas.

The energy generation portion (in other words, the fuel cell) 220 generates electric energy based on the supplied hydrogen gas to serve as a power source for purifying air. The energy generation unit 220 generates electricity by electrochemically reacting hydrogen gas, which is generated by water electrolysis and then converted into high-purity pure hydrogen gas through a hydrogen purification step, with oxygen using the fuel cell 220.

The energy storage unit 230 includes a battery management unit 231 and a battery 232. The battery management unit 231 supplies the generated electric energy as the power for purifying the air without additional energy supply. Such an Energy storage 230 includes a Battery Management System (BMS) and an Energy Storage System (ESS). Furthermore, the battery 232 is left without additional supplementary energy and can be driven without power supply.

The motor 240 may drive pure water shown in fig. 2 using power supplied from the energy storage part 230.

The oxygen discharge port 250 purifies air by discharging oxygen generated in the water electrolysis portion. The oxygen discharge port 250 discharges the purified air by a fan (fan)260 to dispersedly discharge the oxygen generated in the water electrolysis unit.

The humidifier 270 generates water vapor and adjusts the indoor humidity by spraying or evaporating the received water using one of an ultrasonic vibration method, a heating method, a natural evaporation method, and a nozzle method.

Fig. 3 is a flowchart showing a power supply method of the water purification system of the self-sufficient energy water electrolysis fuel cell according to the embodiment of the invention.

The power supply method of the energy self-sufficient water electrolysis fuel cell pure water system comprises the following steps: a step (step 310) of subjecting the water supplied to the water electrolysis unit to electrolysis to generate hydrogen and oxygen and supplying hydrogen gas to the energy generation unit by adjusting the pressure of the generated hydrogen gas; a step (step 320) of generating electric energy based on the hydrogen gas supplied to the energy generation unit to be used as a power source for purifying air; a step (step 330) of supplying the generated electric energy as power for purifying air by the energy storage unit; a step of discharging oxygen generated in the water electrolysis unit through the oxygen discharge port to purify air (step 341); and adjusting the indoor humidity by a humidifier that generates water vapor by one of an ultrasonic vibration method, a heating method, a natural evaporation method, and a nozzle method so as to spray or evaporate the received water (step 342).

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

The water electrolysis unit performs water electrolysis treatment on the received water to generate hydrogen and oxygen, and adjusts the pressure of the generated hydrogen gas to supply the hydrogen gas to the energy generation unit. First, the solar panel supplies power required for the initial water electrolysis process using solar energy and serves as backup power. The water electrolysis treatment unit receives the filtered and purified water through the injection unit, and generates oxygen and pure hydrogen gas by electrolysis of hydrogen generated by solar energy. The gas control unit adjusts and supplies the pressure of the hydrogen gas generated by the water electrolysis. The hydrogen purification section converts the generated hydrogen into pure hydrogen gas of high purity through a hydrogen purification step using an adsorbent. The hydrogen storage part is used for storing the purified hydrogen gas.

In step 320, electrical energy is generated based on the hydrogen gas supplied to the energy generation portion to be used as a power source for purifying air.

The energy generation unit (in other words, the fuel cell) generates electric energy based on the hydrogen gas supplied to the energy generation unit to be used as a power source for purifying air. The energy generation unit generates electricity by electrochemically reacting hydrogen gas, which is generated by water electrolysis and then converted into high-purity pure hydrogen gas by a hydrogen purification step, with oxygen using a fuel cell.

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

The battery management unit supplies the generated electric energy as the power for purifying the air without additional energy supply. The Energy storage unit, which includes a Battery Management System (BMS) and an Energy Storage System (ESS), stores the remaining Energy in the Battery 132 in a non-powered and drivable manner without additional supplementary Energy.

In step 341, the oxygen generated in the water electrolysis portion is discharged through the oxygen discharge port to purify the air.

The motor can drive the pure water by the power supplied from the energy storage unit. The oxygen discharge port purifies air by discharging oxygen generated in the water electrolysis portion. In this case, the oxygen generated in the water electrolysis unit is further dispersed and discharged by a fan (fan).

Also, in step 342, the indoor humidity may be adjusted by a humidifier that generates water vapor by one of an ultrasonic vibration method, a heating method, a natural evaporation method, or a nozzle method in such a manner that the received water is sprayed or evaporated.

The apparatus described in the above can be realized by a hardware configuration element, a software configuration element, and/or a combination of a hardware configuration element and a software configuration element. For example, the devices and structural elements described in the embodiments may be implemented using one or more general purpose or special purpose computers, such as processors, controllers, Arithmetic Logic Units (ALUs), digital signal processors (digital signal processors), microcomputers, Field Programmable Gate Arrays (FPGAs), Programmable Logic Units (PLUs), microprocessors, or any other devices that execute and respond to instructions (instructions). The processing device may execute an Operating System (OS) and one or more application programs executing on the OS. Also, the processing device may access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the description will be made using one processing device, and it will be understood by those skilled in the art that the processing device may include a plurality of processing elements (processing elements) and/or a plurality of types of processing elements. For example, the processing device may include multiple processors or a processor and a controller. Also, other processing configurations like parallel processors (parallel processors) may be included.

The software may comprise a computer program (computer program), code, instructions (instructions), or a combination of one or more of them, capable of configuring the processing device to operate in a desired manner or of communicating instructions to the processing device in a standalone or combined (collective) manner. Software and/or data may be embodied in any type of machine, component, physical device, virtual device, computer storage medium, or device for interpreting instructions or providing data by a processing device or for providing instructions or data to a processing device. The software may be distributed over network coupled computer systems for storage and execution in a distributed fashion. The software and data may be stored in more than one computer-readable recording medium.

The methods of the embodiments are embodied in the form of program instructions that are executable by various computer units and recorded in computer-readable media. The computer readable media described above may include program instructions, data files, data structures, etc., alone or in combination. The program instructions recorded on the medium are specifically designed and configured for the purpose of example, and may be known and used by those skilled in the art of computer software. The computer-readable recording medium may include a magnetic medium (magnetic media) such as a hard disk, a flexible disk, and a magnetic tape, an optical recording medium (optical media) such as a CD-ROM and a DVD, a magneto-optical medium (magnetic-optical media) such as a flexible disk, and a hardware device particularly configured to store and execute program instructions, such as a Read Only Memory (ROM), a Random Access Memory (RAM), and a flash memory. The program instructions include not only machine code manufactured by a compiler but also high-level language code executed on a computer by using an interpreter or the like.

As described above, the embodiments are described with reference to the limited embodiments and the drawings, and various modifications and variations can be made by those skilled in the art by using the above description. For example, the techniques described may be performed in a different order than the methods described, and/or components of systems, structures, devices, circuits, etc. described may be combined or combined with different methods described, or may be replaced or substituted with other components or equivalent techniques to achieve suitable results.

Therefore, other examples, other embodiments, and arrangements within the scope and range of equivalents of the claimed invention are also within the claimed invention.

Claims (8)

1. An energy self-sufficient water electrolysis fuel cell pure water system, characterized by comprising:

a water electrolysis unit for generating hydrogen and oxygen by performing water electrolysis treatment on the received water, and supplying hydrogen gas to the energy generation unit by adjusting the pressure of the generated hydrogen gas;

an energy generation unit that generates electric energy based on the supplied hydrogen gas to be used as a power source for purifying air;

an energy storage unit for supplying the generated electric energy as power for purifying air without additional supplementary energy;

an oxygen discharge port for purifying air by discharging oxygen generated in the water electrolysis portion; and

and a humidifier for generating water vapor and adjusting indoor humidity by spraying or evaporating the received water using one of an ultrasonic vibration method, a heating method, a natural evaporation method, or a nozzle method.

2. The energy self-sufficient water electrolysis fuel cell pure water system according to claim 1, characterized in that the water electrolysis portion comprises:

a solar panel for supplying power required for the initial water electrolysis process using solar energy and for using as backup power;

a water electrolysis processing part which receives the filtered and purified water and generates oxygen and pure hydrogen by using the hydrogen generated by solar energy to electrolyze;

a gas control unit for adjusting and supplying the pressure of the hydrogen gas generated by the water electrolysis;

a hydrogen purification section that converts the generated hydrogen into pure hydrogen gas of high purity through a hydrogen purification step using an adsorbent; and

a hydrogen storage part for storing the purified hydrogen gas.

3. The energy self-sufficient water electrolysis fuel cell pure water system according to claim 1, wherein the energy generation part electrochemically reacts hydrogen gas, which is generated by the water electrolysis process and then converted into high-purity pure hydrogen gas through the hydrogen purification step, with oxygen by the fuel cell to generate electricity.

4. The energy self-sufficient water electrolysis fuel cell pure water system according to claim 1, characterized in that the oxygen discharge port dispersively discharges oxygen generated in the water electrolysis portion by a fan.

5. A power supply method of an energy self-sufficient water electrolysis fuel cell pure water system is characterized by comprising the following steps:

a step of supplying hydrogen gas to the energy generation unit by performing water electrolysis treatment on the water supplied to the water electrolysis unit to generate hydrogen and oxygen and adjusting the pressure of the generated hydrogen gas;

a step of generating electric energy based on the hydrogen gas supplied to the energy generation portion to be used as a power source for purifying air;

supplying the generated electric energy as power for purifying air by the energy storage unit;

a step of discharging oxygen generated in the water electrolysis portion through an oxygen discharge port to purify air; and

and adjusting the indoor humidity by a humidifier that generates water vapor by one of an ultrasonic vibration method, a heating method, a natural evaporation method, and a nozzle method, the humidifier being sprayed with the received water or evaporating the received water.

6. The method for supplying power to a pure water system using a water electrolysis fuel cell according to claim 5, wherein in the step of generating hydrogen and oxygen by electrolyzing water supplied to the water electrolysis unit and supplying hydrogen to the energy generation unit by adjusting the pressure of the generated hydrogen, the electric power required for the initial water electrolysis is supplied by solar energy and used as backup power, the filtered and purified water is received, oxygen and pure hydrogen are generated by electrolysis of hydrogen by solar energy, the pressure of the hydrogen generated by the water electrolysis is adjusted, and then the generated hydrogen is converted into pure hydrogen of high purity by the hydrogen purification step using an adsorbent and stored.

7. The method for supplying power to a water purification system using a water electrolysis fuel cell according to claim 5, wherein in the step of generating electric energy based on the hydrogen gas supplied to the energy generation unit to be used as a power source for purifying air, the hydrogen gas converted into high-purity pure hydrogen gas through the hydrogen purification step after being generated by the water electrolysis treatment is electrochemically reacted with oxygen by the fuel cell to generate electricity.

8. The method for supplying electric power to a pure water system for a self-sufficient type water electrolysis fuel cell according to claim 5, wherein in the step of purifying air by discharging oxygen generated in the water electrolysis portion through the oxygen discharge port, oxygen generated in the water electrolysis portion is dispersedly discharged by the fan.

Images