KR20230059221A - Rack system for transforming of sludge into biocha through heat treatment at low temperature - Google Patents

Abstract

The present invention relates to a low-temperature heat treatment rack system for producing biochar using process sludge, and more particularly, to a plurality of pillars; A side mesh installed between one pillar and an adjacent pillar in a state in which the plurality of pillars are upright and a bottom mesh connecting both lower parts of the plurality of pillars; and a unit rack including a support unit supporting the column and the mesh from the bottom, wherein the process sludge is accommodated in the unit rack so as to be surrounded by the mesh and heat treated in a heat treatment device. Provided is a low-temperature heat treatment rack system for manufacturing biochar.

Description

Low temperature heat treatment rack system for manufacturing biochar using process sludge {Rack system for transforming of sludge into biocha through heat treatment at low temperature}

The present invention relates to a low-temperature heat treatment rack system for producing biochar using process sludge, and more particularly, improves heat treatment efficiency during heat treatment of process sludge containing a lot of moisture, thereby saving energy and Provided is a low-temperature heat treatment rack system for manufacturing biochar using process sludge to effectively heat process sludge to derive an eco-friendly treatment method for process sludge and to obtain a carbon-containing resource therefrom.

What is a fair oni? It is classified under the Environmental Waste Management Act, and is one of the designated wastes that have a harmful effect on people. In addition, food waste is also a type of process sludge. The characteristic of process sludge is that it contains a large amount of moisture itself.

Such process sludge is not disposed of as waste, and it is desirable to utilize the resource and energy possessed by the sludge. On the other hand, all waste containing carbon becomes biochar, a highly efficient material capable of adsorbing carbon dioxide when heat treated. Biochar is a compound word of biomass and charcoal. It is a high-carbon material produced by pyrolysis of discarded waste resources. Its shape is similar to charcoal, but its physical properties are very different.

When biomass is heated to high temperatures in an oxygen-limited environment, it burns but does not burn. This phenomenon is called pyrolysis, and biochar is produced from biomass through this pyrolysis process. The carbon dioxide adsorption performance was confirmed using biochar generated from livestock manure by-products, and as a result, more than 99% of carbon dioxide was captured. In addition to livestock waste by-products, sewage sludge and human waste are also suitable for biochar production. As such, biochar has been found to be able to purify the soil environment and produce eco-friendly energy, in addition to reducing greenhouse gas emissions, and is in the limelight as an optimal material that can slow down climate change.

However, in order to utilize process sludge as a resource like the above biochar, it is necessary to properly process process sludge, but it is not easy to process because it contains a large amount of moisture. In particular, the deposited sludge has low thermal conductivity, so it takes a lot of time and high energy to remove moisture from the sludge at the core, which will result in environmentally unfriendly results by using more energy for recycling waste. can

Therefore, there is a need for a method that can more simply remove water from process sludge with lower energy.

Korean Registered Patent No. 0860595

The present invention has been made to solve the above-mentioned problems of the prior art, and the present invention introduces a rack in which the bottom and side surfaces are mesh-shaped to heat-treat the process sludge, and accommodates the process sludge in the rack Afterwards, the space between the upper and lower racks containing the process sludge is secured by stacking a plurality of racks containing the process sludge up and down, and when the process sludge is heat treated using the heat treatment device, the high-temperature airflow flows through the space between the upper and lower racks and the mesh. By doing so, the purpose is to ensure that the process sludge is easily heat treated.

In addition, the present invention stacks and heat-treats a plurality of racks, so that more paths for high-temperature air flow can be secured than in the case of receiving process sludge in a single rack at the same height as the plurality of stacked racks and performing heat treatment And, therefore, another object is to heat process sludge more quickly using lower energy.

In order to achieve the above object, the present invention includes a plurality of pillars; A side mesh installed between one pillar and an adjacent pillar in a state in which the plurality of pillars are upright and a bottom mesh connecting both lower parts of the plurality of pillars; and a unit rack including a support unit supporting the column and the mesh from the bottom, wherein the process sludge is accommodated in the unit rack so as to be surrounded by the mesh and heat treated in a heat treatment device. Provided is a low-temperature heat treatment rack system for manufacturing biochar.

The unit racks are stacked up and down, and heat treatment is performed in the state of vertically stacked unit racks by male-female coupling of upper and lower supports, and high-temperature airflow flows through the space formed between the mesh and vertically adjacent unit racks during heat treatment. By passing through, the heat treatment of process sludge with a lot of moisture is promoted, and the heat treatment is preferably performed at 400 ° C or less.

It is preferable that the support portion is provided with a step on the inside of which the lower mesh is seated.

Preferably, the pillar and the support part are integrally formed, the top part of the side mesh is located below the top part of the pillar, and the bottom mesh is located above the bottom part of the support part.

According to the present invention as described above, in order to heat-treat the process sludge, a rack having a bottom surface and a side surface shaped as a mesh is introduced, and after accommodating the process sludge in the rack, a plurality of racks containing the process sludge are moved up and down By stacking, the space between the upper and lower racks in which the process sludge is accommodated is secured, and when the process sludge is heat-treated using the heat treatment device, the high-temperature airflow flows through the space between the upper and lower racks and the mesh, so that the process sludge is easily heat-treated. can be expected

In addition, the present invention stacks and heat-treats a plurality of racks, so that more paths for high-temperature air flow can be secured than in the case of receiving process sludge in a single rack at the same height as the plurality of stacked racks and performing heat treatment Therefore, the effect of enabling the process sludge to be heat-treated faster using lower energy can be expected.

1 is an exploded perspective view showing a rack system for heat treatment according to an embodiment of the present invention.
2 is a perspective view showing a state in which a rack system for heat treatment according to an embodiment of the present invention is moved to a kiln for heat treatment.
3 is a side view showing a state in which a rack system for heat treatment according to an embodiment of the present invention is moved to a kiln for heat treatment.

Hereinafter, the present invention will be described in more detail based on preferred embodiments and drawings.

1 is an exploded perspective view showing a rack system for heat treatment according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a state in which the rack system for heat treatment according to an embodiment of the present invention is moved to a kiln for heat treatment. 3 is a side view showing a state in which the rack system for heat treatment according to an embodiment of the present invention is moved to a kiln for heat treatment.

As shown, the rack system 100 for heat treatment of the present invention is used by arranging a plurality of unit racks vertically. The unit rack is composed of a mesh 110 so that the process sludge accommodated in the rack can come in contact with air in all directions, and during heat treatment, high-temperature airflow can be transmitted to the process sludge in all directions through the mesh 110.

In addition, since the height of the rack is designed to be less than 1 m based on the height from the pillar 130 to the support part 150, the sludge accumulation layer is not thick, and therefore it is easy to transfer heat to the deep part of the sludge. Conventionally, since the process sludge is accommodated in one large container and heat treatment is performed, it must be heated to a very high temperature for a long time. Therefore, the energy required for the process is high and the process cost is very expensive.

Here, the process sludge is not limited to its types, such as food waste and sludge. When such process sludge is heated at a low temperature of 400 ° C. or lower, the process sludge is converted into a large amount of carbon in a state in which the generation of carbon dioxide is suppressed, and this can be used as a resource. Even if it cannot be used as a resource, there is an advantage in that it can be heat treated at a high speed for disposal.

Such a unit rack includes a plurality of pillars 130; In a state where the plurality of pillars 130 are upright, the side mesh 110 installed between one pillar 130 and the pillar 130 adjacent thereto and the bottom mesh connecting both the lower portions of the plurality of pillars 130 (110); and a support part 150 supporting the pillar 130 and the mesh 110 from a lower portion.

The unit racks may be stacked vertically and used. At this time, the support part 150 of the upper unit rack and the pillar 130 of the lower unit rack are coupled to each other to heat treatment in a state of being stacked up and down, and during heat treatment, the mesh 110 And heat treatment of process sludge with a lot of moisture can be promoted by passing a high-temperature airflow through the space formed between vertically adjacent unit racks.

The support part 150 is provided with a step on the inside of which the lower mesh 110 is seated, so that the pillar 130 and the mesh 110 can be stably supported.

The pillar 130 on which the mesh 110 is formed and the support part 150 may be configured separately, but the pillar 130 and the support part 150 may be integrally formed. That is, in this case, it may be composed of a side mesh 110 connecting the pillars 130 and the pillars 130 at the side, and a bottom mesh 110 connected to commonly support the pillars 130 at the bottom.

However, the uppermost part of the side mesh 110 may be located below the uppermost part of the pillar 130, and the bottom mesh 110 may be located above the lowest part of the support part 150.

3 shows a kiln 200 for heat treatment. The kiln 200 for heat treatment is a normal kiln, and may be configured in various forms, such as having a heating element therein or injecting high-temperature hot air. There is no particular limitation on the kiln 200 for heat treatment. In addition, in order to move the rack for heat treatment to the kiln 200 for heat treatment, a rail for moving a bogie may be utilized.

That is, as shown in FIGS. 2 and 3, a unit rack in which process sludge is accommodated or a plurality of racks in which unit racks are stacked vertically are placed on the upper part of the bogie, and after the rail is moved to the inside of the kiln, the inside of the kiln is heated to heat-treat the process sludge.

According to the present invention, food waste is accommodated in a unit rack having a width of 2 m, a length of 1 m, and a height of 0.5 m, and heat treatment is performed by stacking it in three stages (Example), and it is accommodated in a cylindrical steel drum with a diameter of 0.6 m and a height of 1.5 m. Heat treatment was performed together with food waste (comparative example), and the water content after heat treatment and processing time were measured in the two cases. At this time, the heat treatment time was 2 hours, the heat treatment temperature was the same as 300 ℃, and the weight of the food waste was the same.

moisture content Sample weight after heat treatment (10cm*10cm*10cm) Example 7% 1.2kg comparative example 60% 5.4kg

As described above, in the case of the present invention, the moisture content was very low, and the weight of the sample after heat treatment was also significantly low in the case of the present invention. On the other hand, in order to measure the time to reach the same moisture content of 10%, as a result of the experiment with the same sample amount and container conditions as above, in the case of the example, it reached 1 hour and 40 minutes, but in the case of the comparative example, despite heat treatment for 24 hours, 10 % moisture content was not reached.

Therefore, it can be seen that the present invention provides a suitable technique for achieving rapid heat treatment and very low moisture content of process sludge.

100: rack system 110: mesh
130: pillar 150: support
200: kiln for heat treatment 230: power supply
250: heating part

Claims (4)

a plurality of pillars;
A side mesh installed between one pillar and an adjacent pillar in a state in which the plurality of pillars are upright and a bottom mesh connecting both lower parts of the plurality of pillars; and
A unit rack including a support part supporting the pillar and the mesh from the lower part is included,
A low-temperature heat treatment rack system for producing biochar using process sludge, characterized in that the process sludge is accommodated in a unit rack so as to be surrounded by the mesh and heat treated in a heat treatment device. According to claim 1,
The unit racks are stacked up and down, and heat treatment is performed in the state of vertically stacked unit racks by male-female coupling of upper and lower supports, and during heat treatment, high-temperature air flows through the mesh and the space formed between the vertically adjacent unit racks. A low-temperature heat treatment rack system for producing biochar using process sludge, characterized in that the heat treatment of process sludge with a lot of moisture is promoted by passing through, and the heat treatment is performed at 400 ° C or less. According to claim 1,
The low-temperature heat treatment rack system for producing biochar using process sludge, characterized in that the support is provided with a step on the inside of which the lower mesh is seated. According to claim 1,
The pillar and the support are integrally formed, the top of the side mesh is located below the top of the pillar, and the bottom mesh is located above the bottom of the support to manufacture biochar using process sludge, characterized in that Low-temperature heat treatment rack system for

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