JP3215389U - Hydrogen energy saving carbon removal equipment - Google Patents

Abstract

The present invention provides a hydrogen energy-saving carbon removal apparatus that efficiently separates water and gas and circulates and reuses water resources that have not yet evaporated to form a gas. SOLUTION: A water intake 12 and a vent 11 are provided, and an opening of the water intake 12 is provided with a housing 10 provided with a lid 13, and a first filtration unit 21 and a second filtration unit 22 provided in the housing 10. The filtration module 20 is provided, the electrolytic unit 40 provided in the housing 10, and the separation table 30 provided in the housing 10 and provided between the filtration module 20 and the electrolytic unit 40. The separation table 30 includes a tube body and at least one hole, and the hole is provided at the bottom of the separation table 30. When water is added to the water intake port 12, the water flows through the hole of the separation table 30 to the electrolysis unit 40, and the water is heated by the electrolysis unit 40 to become water vapor. By passing through the second filtration unit 22 in order, water and gas are separated and the gas is discharged from the vent 11 to the outside of the housing 10. [Selection] Figure 2

Description

  The present invention relates to a hydrogen energy energy-saving carbon removal device, and in particular, effectively separates water and gas, and saves energy by circulating and reusing water resources that have not yet evaporated to gas. The present invention relates to a hydrogen energy-saving carbon removal device that can achieve the effect.

  Most of the current steam locomotives use a fuel engine, and the fuel engine generates power by burning gasoline vapor, but when used for a long time, carbon deposition occurs in the combustion process. Furthermore, most steam locomotives are currently operating in urban areas, and since they travel in short distances and become congested, steam locomotives need to travel at low speed, brake and wait for a signal. Therefore, since the engine of the steam locomotive is operated at a low speed for a long time, it is natural that a large amount of carbon adheres due to incomplete combustion of gasoline. Since the carbon deposits are easily deposited on the engine, it causes problems such as poor fuel consumption, low operating efficiency, and difficulty in starting the engine.

  In order to prevent carbon adhesion generated during the operation of the steam locomotive, the conventional vehicle employs a carbon removal device, and the application method of the vehicle carbon removal device mainly uses hydrogen as a steam engine in a pipeline. Introduced into the car engine to combine hydrogen and carbon deposits in the engine. In addition, due to the low ignition point of hydrogen and the characteristics that assist the combustion of oxygen, the compound of hydrogen and carbon deposits can be burned during engine operation, and fine carbon molecules are formed by burning the carbon deposits. In addition, as it is discharged from the exhaust pipeline, carbon deposits in the engine are removed, and the disadvantages of low operating efficiency and poor fuel consumption are improved.

  However, a gas-liquid separator that generates hydrogen by electrolyzing water is used to generate hydrogen. Conventional gas-liquid separators have drawbacks that hydrogen production efficiency is not high and water resources cannot be efficiently collected, circulated and reused.

  The present invention provides a hydrogen energy-saving carbon removal device that achieves the effect of saving energy by efficiently separating water and gas and circulating and reusing water resources that have not yet evaporated to gas. The purpose is to provide.

  In order to achieve the above-described object, the hydrogen energy-saving carbon removing apparatus of the present invention includes a casing, a filtration module, an electrolysis unit, and a separation table. The housing includes a water intake and a vent, and a lid is provided at an opening of the water intake. The filtration module is provided in the housing, and the filtration module includes a first filtration unit and a second filtration unit. The electrolysis unit is provided in the housing. The separation table is provided in the housing, and is provided between the filtration module and the electrolysis unit. The separation table includes a tube body and at least one hole, and the hole is provided at the bottom of the separation table. When water is added to the water intake, the water flows to the electrolysis unit through the hole of the separation table, and the water is heated by the electrolysis unit to become water vapor. The water vapor is the tube body and the first filtration. Water and gas are separated by passing through the unit and the second filtration unit in order, and the gas is discharged from the vent to the outside of the housing.

  The first filtration unit in the hydrogen energy-saving carbon removal device described above includes a bottom plate and a plurality of filtration components, and a plurality of filtration components are stacked in order in the lateral direction above the bottom plate, On the side, a plurality of first baffles are arranged at intervals in order. Each said 1st baffle is each provided with a space | gap, Furthermore, the said baseplate and each said filtration component are each provided with a through-hole, and each said through-hole is provided crossing.

  The second filtration unit in the above-described hydrogen energy energy-saving carbon removal device is provided vertically in the housing, and the second filtration unit is provided near the first filtration unit.

  The second filtration unit in the hydrogen energy-saving carbon removal device described above further includes a second filtration component, an exhaust valve, a water intake valve, a plurality of swash plates, a partition plate, and a plurality of second baffles, The exhaust valve is provided at one end above the second filtration unit, the water intake valve is provided at one end below the second filtration unit, and the swash plates and the one side of the second filtration component are disposed on one side. A partition plate is provided. Furthermore, the plurality of swash plates are arranged at intervals in order from top to bottom, and each of the swash plates is provided with the plurality of second baffles, and the plurality of second baffles are arranged from the left. The partition plate is adjacent to the plurality of swash plates, a plurality of inclined plates are provided on one side of the partition plate, and the plurality of inclined plates are arranged from above. The second baffles are provided at intervals between the inclined plates.

  The second filtration unit in the hydrogen energy-saving carbon removal device described above further includes a second filtration component, an exhaust valve, a water intake valve, a plurality of swash plates, a partition plate, and a plurality of second baffles, The exhaust valve is provided at one end above the second filtration unit, the water intake valve is provided at one end below the second filtration unit, and the swash plates and the one side of the second filtration component are disposed on one side. A partition plate is provided. Furthermore, the plurality of swash plates are arranged at intervals in order from top to bottom, and each of the swash plates is provided with the plurality of second baffles, and the plurality of second baffles are arranged from the left. The partition plate is adjacent to the plurality of swash plates, a plurality of inclined plates are provided on one side of the partition plate, and the plurality of inclined plates are arranged from above. The second baffles are provided at intervals between the inclined plates.

1 is a perspective external view of the present invention. It is a structure exploded view inside the housing of the present invention. It is a perspective view of the separation stand of the present invention. It is a structure exploded view of the details in the filtration unit of the present invention. It is the figure which expanded a part of structure of the filtration component in the 1st filtration unit of this invention. It is sectional drawing (1) of this invention. It is sectional drawing (2) of this invention.

  As shown in FIGS. 1 to 7 that are referred to at the same time, the hydrogen energy-saving carbon removing apparatus of the present invention includes a housing 10, a filtration module 20, an electrolysis unit 40, and a separation table 30. The housing 10 includes a water intake 12 and a vent 11, and a lid 13 is provided at the opening of the water intake 12. The filtration module 20 is provided in the housing 10, and the filtration module 20 includes a first filtration unit 21 and a second filtration unit 22. The electrolysis unit 40 is provided in the housing 10. The separation table 30 is provided in the housing 10, and is provided between the filtration module 20 and the electrolysis unit 40. The separation table 30 includes a tube body 31 and at least one hole 32. It is provided at the bottom of the separation table 30. When water is added to the water intake port 12, the water flows into the electrolysis unit 40 through the hole 32 of the separation table 30, and the water is heated by the electrolysis unit 40 to become water vapor. 31, water and gas are separated by passing through the first filtration unit 21 and the second filtration unit 22 in order, and the gas is discharged from the vent 11 to the outside of the housing 10.

  FIG. 4 is a detailed structural exploded view of the filtration unit of the present invention, and FIG. 5 shows a part of the structure of the filtration component in the first filtration unit of the present invention. FIG. The first filtration unit 21 includes a bottom plate 211 and a plurality of filtration components 212, and a plurality of filtration components 212 are stacked in order in the horizontal direction above the bottom plate 211, and on one side of each of the filtration components 212. A plurality of first baffles 213 are arranged at intervals in order. Each of the first baffles 213 includes a gap 214, and the through holes 215 are provided in the bottom plate 211 and the filtration components 212, so that the through holes 215 intersect each other. The second filtration unit 22 is provided vertically in the housing 10, and the second filtration unit 22 is provided near the first filtration unit 21.

  FIG. 6 to be referred to is a sectional view (1) of the present invention. Among them, the second filtration unit further includes a second filtration component 221, an exhaust valve 222, a water intake valve 223, a plurality of swash plates 224, a partition plate 225, and a plurality of second baffles 226. The exhaust valve 222 is provided at one end above the second filtration unit 22, the intake valve 223 is provided at one end below the second filtration unit 22, and the one side of the second filtration component 221 has the above-mentioned A plurality of swash plates 224 and the partition plate 225 are provided. Further, the plurality of swash plates 224 are arranged at intervals in order from the top to the bottom, and each of the swash plates 224 is provided with the plurality of second baffles 226, respectively, and the plurality of second baffles 226 includes The partition plates 225 are adjacent to the plurality of swash plates 224 in order from left to right. A plurality of inclined plates 227 are provided on one side of the partition plate 225, and the plurality of inclined plates 227 are arranged at intervals in order from the top to the bottom, and within the intervals of the inclined plates 227. The second baffle 226 is provided.

  FIG. 7 to be referred to is a sectional view (2) of the present invention. Furthermore, as shown in FIGS. 1 to 6 referred to in combination, when using the hydrogen energy-saving carbon removing device of the present invention, the user opens the lid 13 and adds water from the water intake 12, Water flows through the hole 32 of the separation table 30 to the electrolysis unit 40. When the water is heated by the electrolysis unit 40 to become water vapor, the water vapor is converted into the tube 31, the first filtration unit 21, the first 2 By passing through the filtration unit 22 in order, it is separated into water and gas, and the gas is discharged from the vent 11 to the outside of the housing 10. Water and gas are separated mainly by the structure of the first baffle 213 of the filtration part 212 and the second baffle 226 of the second filtration part 221. The hydrogen energy-saving carbon removing apparatus of the present invention efficiently separates water and gas by allowing the water to be discharged to the outside of the gas generator 10 and returning water to the electrolysis unit through the water intake valve 223. In addition, the water resources that have not yet evaporated and become gas can be circulated and reused to achieve energy savings.

DESCRIPTION OF SYMBOLS 10 Housing | casing 11 Ventilation hole 12 Water intake 13 Cover body 20 Filtration module 21 1st filtration unit 211 Bottom plate 212 Filtration part 213 1st baffle 214 Cavity 215 Through-hole 22 2nd filtration unit 221 2nd filtration part 222 Exhaust valve 223 Intake valve 224 Swash plate 225 Partition plate 226 Second baffle 227 Inclined plate 30 Separation stand 31 Tube 32 Hole 40 Electrolytic unit

Claims (4)

A hydrogen energy energy-saving carbon removal device comprising a housing, a filtration module, an electrolysis unit, and a separation table,
The housing includes a water intake and a vent, and a lid is provided at an opening of the water intake.
The filtration module is provided in the housing;
The filtration module includes a first filtration unit and a second filtration unit,
The electrolysis unit is provided in the housing,
The separation table is provided in the housing, and is provided between the filtration module and the electrolysis unit.
The separation table includes a tube body and at least one hole, and the hole is provided at a bottom of the separation table, and when water is added to the intake port, water passes through the hole of the separation table and the electrolysis unit. The water is heated by the electrolysis unit to become water vapor, and the water vapor passes through the tube body, the first filtration unit, and the second filtration unit in order to separate water and gas, and Is discharged from the vent to the outside of the housing. A hydrogen energy-saving carbon removing device, wherein: The first filtration unit includes a bottom plate and a plurality of filtration components.
Above the bottom plate, a plurality of filtration parts are stacked in order in the lateral direction,
A plurality of first baffles are sequentially arranged at intervals on one side of each of the filtration components,
Each of the first baffles includes a gap,
Furthermore, the bottom plate and each of the filtration parts are each provided with a through hole,
The hydrogen energy-saving carbon removing device according to claim 1, wherein the through holes are provided so as to intersect each other. 2. The hydrogen energy-saving carbon removal according to claim 1, wherein the second filtration unit is provided vertically in a housing, and the second filtration unit is provided near the first filtration unit. apparatus. The second filtration unit further includes a second filtration component, an exhaust valve, a water intake valve, a plurality of swash plates, a partition plate, and a plurality of second baffles,
The exhaust valve is provided at one end above the second filtration unit,
The water intake valve is provided at one end below the second filtration unit,
The one side of the second filtration component is provided with the plurality of swash plates and the partition plate,
Further, the plurality of swash plates are arranged at intervals in order from the top to the bottom,
Each of the swash plates is provided with the plurality of second baffles, and the plurality of second baffles are arranged at intervals in order from left to right,
The partition plate is adjacent to the plurality of swash plates, and a plurality of inclined plates are provided on one side of the partition plate,
The plurality of inclined plates are arranged at intervals in order from the top to the bottom, and the second baffles are provided at intervals between the inclined plates. Hydrogen energy saving carbon removal device.