KR101989703B1 - Process for removing harmful gas in cellar - Google Patents

Abstract

The present invention relates to a method for removing the harmful gas of an underground storage. The present invention removes harmful gas by using a waveform structure having a protrusion unit formed in the bottom and ceiling of an underground storage capable of storing vegetable, fruits, flowers, and food. The present invention includes: a first step of discharging harmful gas inside an underground storage from a gaseous matter collecting duct connected to a groove unit (20) of the ceiling of the underground storage to the outside, and discharging harmful gas from the gaseous matter collecting duct connected to the groove unit (20) of the bottom to the outside of the underground storage; and a second step of removing gaseous matter from a harmful gas removing unit connected to the groove unit (20) of the ceiling and a harmful gas removing unit connected to the groove unit (20) of the bottom unit. The harmful gas discharged from the groove unit (20) of the ceiling includes ethylene and the harmful gas discharged from the groove unit (20) of the bottom includes carbon dioxide. The present invention can secure discharge efficiency of harmful gas.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a process for removing harmful gas

The present invention relates to a method for removing harmful gas in an underground storage room capable of storing vegetable, fruit, flower, and food, and more particularly, to a method for removing harmful gas by using a corrugated structure having protrusions formed on a floor and a ceiling This is a method for removing harmful gas in an underground storage.

Recently, in our society, as the needs of fruits and vegetables such as vegetables and fruits cultivated in agricultural land have increased, the importance of storage has increased. In particular, as market development has been actively pursued due to trade negotiations such as FTA and WTO, the capacity of storage pools to cope with price fluctuations has become active, . For example, Korean Patent Laid-Open Publication No. 2014-96634 relates to a method of constructing a fruit cellar, and is configured to increase long-term storage by spraying cold air. Korean Utility Model No. 2001-22462 discloses a technique for collecting and removing heavy noxious gas by drilling a hole in the bottom surface of the bottom portion under the floor insulation construction for the structure of the low temperature reservoir. Korean Patent Laid-Open Publication No. 2009-33262 discloses an underground storage arrangement system for energy saving. The bottleneck section having the function of blocking the cold air flow is formed on the inner wall of the underground storage and includes urethane foam insulation. Japanese Patent Application Laid-Open No. 2001-064601 discloses a method of controlling gas composition in a storage depot and a method of controlling a gaseous material such as nitrogen, oxygen, carbon dioxide, and ethylene, and storing a fruit or vegetable at a low unit price. Gas separation membrane is used. Although the above-described prior arts have recognized that the storage stability is improved by lowering the temperature and discharging harmful gas through the discharge of cold air, although the density of the gas in the storage depends on the weight and density of the gas, So that the efficiency of removing the harmful gas is insufficient and the supply of cold air and the removal of the harmful gas are separately configured to improve the energy consumption efficiency. In addition, the technical structure of insulation is not presented to improve the energy efficiency of a storage room.

Korean Patent Publication No. 2014-96634 Korean Utility Model No. 2001-22462 Korean Patent Publication No. 2009-33262 Japanese Patent Laid-Open No. 2001-064601

The present invention has been made to solve the above problems and it is an object of the present invention to provide a harmful gas removing method capable of improving the removal efficiency and energy consumption of a harmful gas which can damage the storage properties of fruits, And the like.

For this purpose, the method of removing the harmful gas according to the present invention is based on the fact that the density of the gas in the reservoir may be changed according to the weight and density of the harmful gas to be removed in order to secure the efficiency of the discharge of the harmful gas, The aim is to differentiate the removal configuration.

It is another object of the present invention to provide a harmonized gas removing structure and a cold supply line which are conventionally separately constructed and integrated into a fused structure.

In order to accomplish the above object, the present invention provides a method for removing harmful gas from an underground storage room, comprising the steps of: discharging a harmful gas inside a subterranean storage from a gaseous material collecting duct connected to a groove of a subterranean storage ceiling to the outside, A first step of discharging the harmful gas from the pipe to the outside of the underground storage; And a second step of removing the gaseous material from the harmful gas removing unit connected to the groove of the ceiling and the harmful gas removing unit connected to the groove of the bottom unit.

Herein, the harmful gas discharged from the groove of the ceiling includes ethylene, and the harmful gas discharged from the groove of the bottom includes carbon dioxide. In the first step, the carbon dioxide sensor and the ethylene sensor The method may further include the step of supplying the cooled air of the three stages to a cool air supply pipe connected to the mountain part of the underground storage ceiling and the mountain part of the bottom of the underground storage room.

Also, in the method for removing harmful gas according to the present invention, the harmful gas removing unit may include at least one of potassium permanganate, zeolite and 1-methylcyclopropene as an ethylene removing agent, and calcium oxide as a carbon dioxide removing agent do.

The method may further include a third step of cooling the air from which the gaseous material has been removed by the chiller from the second step of the harmful gas method according to the present invention.

The method of removing the harmful gas according to the present invention can be classified into a protrusion and a non-protrusion by considering that the density of the gas in the reservoir can be changed according to the weight and density of the harmful gas to be removed. It is possible to secure the efficiency of the emission of harmful gas by differentiating it.

In addition, the method for removing harmful gas in the underground storage room according to the present invention can improve the energy efficiency by removing the harmful gas in the air in the storage tank by using the absorption means, cooling the air from which the harmful gas has been removed, It is effective.

1 is a flowchart showing a procedure of a method for removing harmful gas in a underground storage according to the present invention.
FIG. 2 shows the structure of a subterranean reservoir for implementing the method of removing harmful gas in the underground storage according to the present invention.
3 shows the structure of the adsorption means in the method for removing harmful gas in the underground storage space according to the present invention.

The present invention relates to a method for removing a harmful gas in an underground storage room, which can discharge harmful gas in an underground storage room and economically supply cold air so as to efficiently store fruits and vegetables while consuming less energy.

It is to be understood that the terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings with respect to the specific details for carrying out the present invention, It should be interpreted in the meaning and concept consistent with the technical idea of the present invention based on the principle that the concept of the term can be appropriately defined in order to explain it. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that there may be various equivalents and variations thereof.

Referring to FIG. 1, there is shown a flowchart of a method for removing harmful gas in a subterranean storage space according to the present invention. In the method, a harmful gas inside a subterranean storage is discharged to the outside through a gaseous matter collecting duct connected to a groove 20 of a subterranean storage ceiling, A step of discharging the harmful gas from the gaseous matter collecting pipe connected to the bottom part 20 to the outside of the underground storage, a harmful gas removing part connected to the groove part 20 of the ceiling, and a harmful gas removing part connected to the groove part 20 of the bottom part And removing the gaseous material. As shown in the above flowchart, one of the important features of the method of removing harmful gas according to the present invention is that it is possible to efficiently discharge the harmful gas discharged from the storage object as the storage period of the fruit, So that the position of the discharge pipe is determined according to the kind of the harmful gas.

In the case of fruits and vegetables, especially fruits, it absorbs oxygen from the environment and reacts with glucose to generate carbon dioxide and moisture. In addition, it produces ethylene during aging or aging. Ethylene itself promotes the aging and aging of the surrounding vegetables and fruits and shortens the storage period of these storage objects and therefore it is important to discharge ethylene generated from storage objects such as vegetables and fruits in the underground storage room to the outside Do. In the underground storage room according to the present invention, it is noted that the weight of carbon dioxide and ethylene is different. The relatively heavy carbon dioxide is located at the bottom of the underground storage, and the relatively light ethylene, compared to the air, is located in the ceiling of the underground storage, And the discharge structure of the harmful gas is separately provided on the floor and the ceiling. 2, the floor and the ceiling according to the present invention are formed with a hill 10 protruding relatively to the non-protruding groove 20, And an angle is formed between the first and second plates 20 and 20 so as to be bent. As described above, an important reason of the above-described configuration including the hill portion 10 and the groove portion 20 is that the gas that is heavier than air and is lighter than the air and the air that is lighter than air can result in the protrusions 10, 20, the carbon dioxide can be collected from the groove 20 at the bottom, and the ethylene can be collected from the groove 20 of the ceiling by using this constitutional feature. Although not shown in the present specification, the waveform structure of the underground storage hood gas removing method according to the present invention is characterized in that the crests 10 formed in the bottom and the ceiling are connected in series or the crests 10 formed in the crests 10 ) May be alternately arranged. In other words, since the crests 10 protruding from the floor and the ceiling are connected in series, the grooves 20 are also connected in a line so that the carbon dioxide and ethylene are densely positioned in the protrusions 20 . Accordingly, since the grooves 20, which are connected in series, serve as channels through which carbon dioxide and ethylene can easily move, a discharge pipe for discharging carbon dioxide and ethylene to the outside is formed in a part of the hop portion, . ≪ / RTI > In this case, a discharge pipe for discharging carbon dioxide and ethylene to the outside is constituted in each of the groove portions 20. In this case, the groove portion 20 and the crest portion 10 are constituted as described above, The carbon dioxide and ethylene which are dense in the fuel tank 20 may be discharged to the outside.

In this case, in order to efficiently exhaust the carbon dioxide and ethylene dense in the groove 20 as described above, the pump may be operated to discharge the harmful gas from the groove 20, but energy consumption due to pump operation is minimized It is effective to discharge the toxic gas to the outside by operating the pump when the concentration of carbon dioxide and ethylene in the groove 20 is higher than a certain level. Accordingly, in the method for removing harmful gas according to the present invention, a carbon dioxide sensing sensor 70 may be positioned on the floor and an ethylene sensing sensor 80 may be installed on the ceiling to detect a harmful gas above a predetermined level.

One of the important features of the method for removing the harmful gas according to the present invention is that the air containing the harmful gas is purified through the adsorbent while discharging carbon dioxide and ethylene through the groove 20 to the outside as described above , And the air in which carbon dioxide and ethylene have been removed is supplied again to the underground reservoir. This feature of the present invention is advantageous in that low temperature air in the underground storage can be used by circulating the air in the underground storage, compared with the conventional technique of supplying the external air to the underground storage. That is, when using the external air, the temperature is significantly different from that of the underground reservoir. In summer, it is necessary to lower the temperature. In winter, it is necessary to raise the temperature. However, And has a technical feature that the energy consumption for temperature adjustment can be relatively lowered. To this end, in the method for removing harmful gas according to the present invention, the air is purified through a removing means for removing carbon dioxide and ethylene contained in the air, and the purified air is supplied to the underground storage Configuration. As shown in Figs. 2 and 3, the carbon dioxide capture duct 30 for collecting carbon dioxide and the ethylene capture duct 40 for capturing ethylene from the ceiling groove 20 from the bottom groove 20 contain carbon dioxide and ethylene When the air is transported to the outside, a removal means capable of removing carbon dioxide and ethylene can be configured in the transfer pipe. In the method for removing harmful gas according to the present invention, the harmful gas removing unit may include at least one of potassium permanganate, zeolite, and 1-methylcyclopropene as an ethylene removing agent, and may contain burnt lime as a carbon dioxide removing agent. In this case, as shown in FIG. 3, the adsorbent for removing the harmful gas is located inside the carbon dioxide or ethylene discharge pipe 110, and is easily transferred through the adsorbent replacement opening / closing door 120 formed in the carbon dioxide or ethylene discharge pipe 110 Can be exchanged.

2 and 3, the carbon dioxide collecting duct 30 and the ethylene collecting duct 40 are connected to each other, and the cooler 100 is connected to a rear end of the portion where the two ducts are combined. So that the temperature is adjusted. Thus, the air whose temperature is adjusted through the cooler 100 supplies cold air to the inside of the underground storage room through the bottom of the underground storage and the protruding part 10 of the ceiling. As described above, the harmful gas is discharged to the outside through the groove 20, the harmful gas contained in the discharged air is removed through the adsorption means, and the purified air flows through the slope 10 of the floor and ceiling And is supplied to the underground storage, whereby the harmful gas discharge and cool air supply are organically connected to each other in the configuration of the crest 10 and the groove 20.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The scope of protection of the present invention should be construed under the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

10: Hub 20: Groove
30: carbon dioxide capture pipe 40: ethylene capture pipe
50: Ceiling cooler supply line 60: Floor cooler supply line
70: carbon dioxide sensor 80: ethylene sensor
90: Carbon dioxide removing means 95: Ethylene removing means
100: Cooler 110: Carbon dioxide or ethylene outlet pipe
120: opening and closing door for exchanging adsorbent 130: carbon dioxide or ethylene adsorbent

Claims (6)

The ceiling and bottom of the underground storage room are formed with projections 10 protruding relatively to the protruding grooves 20. Light from the gaseous material collecting duct connected to the ceiling grooves 20 is lighter than air inside the underground storage, And discharging the harmful gas containing carbon dioxide to the outside of the underground storage tank while being heavier than air from the gaseous matter collecting duct connected to the groove 20 on the floor;
And removing the gaseous material from the harmful gas removing unit connected to the ceiling groove 20 and the harmful gas removing unit connected to the groove 20 on the bottom.
delete The method according to claim 1, wherein the step (1) comprises detecting the carbon dioxide and ethylene through the carbon dioxide sensing sensor (70) and the ethylene sensing sensor (80)
The method according to claim 1, wherein the harmful gas removing unit comprises at least one of potassium permanganate, zeolite and 1-methylcyclopropene as an ethylene removing agent, and includes burnt lime as a carbon dioxide removing agent
The method according to claim 1, further comprising the step of cooling the air from which the gaseous material has been removed from the step 2 with a chiller
The method according to claim 5, further comprising the step of supplying the cooled air in the three stages to a cold air supply pipe connected to the hill (10) of the underground storage ceiling and the hill (10)

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