KR20240027541A - Composition for eco-friendly packaging and manufacturing method thereof - Google Patents

Abstract

The present invention squeezes out the remaining oil from fried scraps, which are a by-product of making fried foods such as chicken, and mixes and processes the remaining fried food with (waste) biomass to produce a product that was previously manufactured from petrochemical-derived raw materials. It relates to an eco-friendly packaging material composition that can replace existing packaging materials or cushioning materials and a method of manufacturing the same.

Description

Eco-friendly packaging composition and manufacturing method thereof {COMPOSITION FOR ECO-FRIENDLY PACKAGING AND MANUFACTURING METHOD THEREOF}

The present invention squeezes out the remaining oil from fried scraps, which are a by-product of making fried foods such as chicken, and mixes and processes the remaining fried food with (waste) biomass to produce a product that was previously manufactured from petrochemical-derived raw materials. It relates to an eco-friendly packaging material composition that can replace existing packaging materials or cushioning materials and a method of manufacturing the same.

Currently, polyvinyl chloride (PVC), polyethylene (PE), and polypropylene (PP), which are general-purpose plastics derived from petroleum, are used for various purposes, but they generate harmful substances such as dioxin when incinerated, and produce harmful substances such as dioxins during the manufacturing process. There is a problem of accelerating the greenhouse gas effect in the atmosphere due to the generation of large amounts of carbon dioxide. In addition, because these plastic films are chemically and biologically stable, they accumulate without being decomposed, shortening the lifespan of landfills and causing soil pollution on the earth.

Recently, a carbon tax review and a carbon emissions trading system are being actively promoted to secure investment funds for green growth and reduce the Earth's greenhouse gases, and accordingly, much research and development on biopolymers derived from biomass is being conducted. In particular, much research and application is being conducted on polylactic acid, a highly biodegradable aliphatic polyester. However, biomass-derived polylactic acid film maintains mechanical properties and transparency, but lacks flexibility due to its high crystallinity due to its molecular structure, limiting its use for packaging, especially refrigerated and frozen storage that must be stored at low temperatures. In the case of food, the pinhole resistance is not sufficient, so there is a risk that the packaging material may rupture depending on storage and transportation methods.

There have been some attempts to create plastic substitutes, eco-friendly packaging materials, or three-dimensional structures using biomass, but it is difficult to secure sufficient physical properties such as compressive strength and there is no suitable eco-friendly binder, so some of the existing petrochemical-derived raw materials are mixed or silane couples are used as binders. There was a problem that eco-friendliness and biodegradability were inherently impaired due to the use of artificial chemical products such as ring agents.

Meanwhile, fried scraps or fried scraps are representative by-products discharged in the process of manufacturing various fried dishes. In Jinju, Gyeongnam, 130 tons of fried scraps are discharged per month, and the amount is estimated to be several thousand tons nationwide. Fried scraps are known to contain more than 70% of residual oil (waste edible oil), and although they are actually mostly oil-based waste, they are discharged in large quantities as general waste in volume-rate bags and as general food waste, causing soil contamination, groundwater contamination, and landfill. There were problems such as the generation of methane gas.

Accordingly, there have been attempts to encourage or regulate the separate discharge of fried food scraps and to collect residual oil by pressing collected fried food scraps and recycling them into biofuel (biodiesel). However, there was no suitable use for the residue left after pressing, that is, fried food.

Republic of Korea Patent Publication No. 10-2022-0046912 Japanese Patent Publication No. 6884313

The present invention was conceived to solve the above-mentioned problems. It uses biodegradable frying waste as a grain-based ingredient such as flour and frying powder as a binder, and uses biomass waste to have a low manufacturing cost, be environmentally friendly, and have a greenhouse gas reduction effect. The purpose is to provide an eco-friendly packaging composition and a manufacturing method thereof that are highly decomposable even when disposed of in landfill and are free from microplastic problems.

In order to achieve the above technical problem, the present invention provides a packaging composition that can be molded into a three-dimensional structure according to a preferred embodiment, wherein the composition includes fried food waste powder, biomass powder and a solvent, and the fried food waste is a by-product of cooking fried foods. An eco-friendly packaging composition is provided, which is characterized in that it is derived from phosphorus fried scraps (crumbs).

At this time, the fried food may be one in which residual oil has been removed from the fried scraps, and the biomass may be wood-based or starch-based biomass, and in particular, may be pulverized products of (waste) paper products such as corrugated cardboard or paper boxes (containers), It is preferable that it is any one or a mixture of two or more of ground paper, coffee grounds (coffee grounds), and ground rice straw.

The solvent may be water or a basic solution.

The mixing ratio of the fried food waste powder and biomass powder may be 2:1 to 10:1 by weight, and the mixing ratio between the fried food waste powder and biomass powder and the solvent may be 1:1 to 1: based on weight. It could be 2.

More preferably, the solvent is water and the biomass is pulverized paper packaging material, and the mixing ratio of the fried food waste powder, biomass powder and solvent may be 4:1:6 by weight. In addition, the solvent is a potassium hydroxide (KOH) solution, the biomass is pulverized paper packaging material, and the mixing ratio of the fried food waste powder, biomass powder, and solvent may be 4:1:9 by weight.

In addition, the solvent is water and the biomass is coffee waste (coffee grounds), and the mixing ratio of the fried food waste powder, biomass powder and solvent may be 2:1:4 to 2:2:4 by weight. , the solvent is a potassium hydroxide (KOH) solution and the biomass is coffee waste (coffee grounds), and the mixing ratio of the fried food waste powder, biomass powder and solvent is 4:2:6 to 4:3 by weight: It could be 6.

In addition, the solvent is water and the biomass is pulverized rice straw, and the mixing ratio of the fried food waste powder, biomass powder and solvent may be 7:1:10 or 6:1:4 by weight, and the solvent is a potassium hydroxide (KOH) solution and the biomass is pulverized rice straw, and the mixing ratio of the fried food waste powder, biomass powder and solvent may be 10:1:15 to 10:2:15 by weight.

Meanwhile, according to another preferred embodiment, the present invention provides a method for manufacturing a packaging composition that can be molded into a three-dimensional structure, comprising the steps of preparing fried food powder; and preparing a mixing material by mixing the fried food waste powder with biomass and a solvent; The frying cake provides a method of manufacturing an eco-friendly packaging composition, characterized in that residual oil is removed from frying scraps (crumbs), which are by-products of fried food cooking.

At this time, the step of molding and heat-treating the mixing material may be further included.

According to the present invention as described above, biodegradable fried food made of grain-based ingredients such as flour and frying powder, which have no special use, is used as a binder and as a substitute for packaging materials based on petrochemical raw materials using biomass waste, the manufacturing cost is low and it is eco-friendly. It has the advantage of reducing greenhouse gases, being highly decomposable even when disposed of in landfill, and being free from microplastic problems.

The effects of the present invention are not limited to those mentioned above, and may be clearly understood by those skilled in the art from the description throughout the specification, but also include other effects that are not explicitly mentioned.

Figure 1 is a photograph showing the external appearance of fried food scraps discharged after pressing them.
Figure 2 is a photograph showing an eco-friendly packaging material (three-dimensional structure) manufactured and molded according to Example 1 of the present invention.
Figure 3 is a photograph showing preparation for thermoforming by filling a silicone mold with the eco-friendly packaging composition (mixture) prepared according to Examples 1 to 6 of the present invention.
Figure 4 is a graph showing the results of testing the compressive strength of eco-friendly packaging materials (structures) manufactured according to Example 1 (left) and Example 2 (right) of the present invention.
Figure 5 is a graph showing the results of testing the compressive strength of eco-friendly packaging materials (structures) manufactured according to Example 3 of the present invention (two samples with different coffee grounds contents).
Figure 6 is a graph showing the results of testing the compressive strength of eco-friendly packaging materials (structures) manufactured according to Example 4 of the present invention (two samples with different coffee grounds contents).
Figure 7 is a graph showing the results of testing the compressive strength of the eco-friendly packaging material (structure) manufactured according to Example 5 of the present invention (two samples with different contents of rice straw pulverization).
Figure 8 is a graph showing the results of testing the compressive strength of the eco-friendly packaging material (structure) manufactured according to Example 6 of the present invention (two samples with different contents of rice straw pulverization).

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms, and the present embodiments are merely intended to ensure that the disclosure of the present invention is complete and to provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains. Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless clearly specifically defined. The terms used in this specification are for describing embodiments and are not intended to limit the invention. As used herein, singular forms also include plural forms, unless specifically stated otherwise in the context.

As used in the specification, “comprises” and/or “comprising” refers to the presence of one or more other components, steps, operations and/or elements. or does not rule out addition.

First, the present invention relates to a packaging composition that can be molded into a three-dimensional structure, wherein the composition includes fried food waste powder, biomass powder, and a solvent, and the fried food waste is derived from fried scraps (crumbs), which are by-products of cooking fried foods. Provides an eco-friendly packaging composition.

The present invention basically utilizes (waste) biomass such as (waste) paper boxes, (waste) cardboard, rice straw, and coffee grounds (coffee grounds) to produce plastic packaging materials (Styrofoam, etc.) that are widely used as product packaging materials or cushioning materials. The idea was to create an eco-friendly packaging material composition that can be molded into an replaceable three-dimensional shape, and it acts as a binder to improve the mechanical properties that are lacking as a packaging material made of biomass, the basic material, while also maximizing eco-friendliness. The significance is that it suggests usability.

The role of fried food waste powder in the eco-friendly packaging composition is as a binder, which induces biomass particles (powder, pulverized material) to coagulate with a certain level of strength or higher. Fried food, derived from wheat flour or frying powder, contains polysaccharides and exhibits viscosity when exposed to moisture, allowing a dough-like composition to be easily formed before molding packaging materials. When heated during the molding process, it undergoes a Maillard reaction. ) can be triggered, resulting in a cross-linking reaction with biomass particles. Accordingly, it is possible to physically fix solid biomass particles to manufacture a three-dimensional structure with stable and good physical properties.

Fried food waste powder refers to the removal of residual oil (waste cooking oil, etc.) from fried food scraps (crumbs) generated during the production of fried food. Figure 1 shows the fried food waste discharged after pressing the fried food scraps. It is done. Fried food waste powder is in the form of pulverized powder.

The biomass used in the present invention may be of various types, but is preferably lignocellulosic, starch-based, or a mixture thereof. More preferably, (waste) paper materials such as waste containers and waste boxes made of paper or cardboard, coffee waste (coffee grounds, refers to the residual solid components remaining after making a coffee beverage by hot water extraction of ground coffee bean powder) , rice straw, etc. can be used, or a mixture thereof can be used, and pulverized product or powder is used.

Tempura cake powder and biomass powder, which are the core active ingredients of the composition according to the present invention for molding into a three-dimensional structure and using it as a packaging material, must be mixed in an appropriate ratio to ensure optimal physical properties and economic efficiency.

A preferred mixing ratio of fried food waste powder and biomass powder may be 2:1 to 10:1 based on weight. If a relatively small amount of fried food powder is added compared to the above ratio, it is difficult to secure viscosity through the reaction between the polysaccharides and moisture, making it difficult to make the mixture homogeneous and mold it into a three-dimensional structure. Conversely, if it is added relatively excessively, In this case, there is a problem in that the amount of biomass mixed is small and the content of fried food waste is added excessively, which reduces economic efficiency and reduces mechanical properties such as compressive strength. The appropriate mixing ratio of fried food waste powder and biomass powder can be adjusted within the above range depending on the type of biomass and solvent used.

Meanwhile, in the present invention, a solvent is used to uniformly mix the fried food waste particles that serve as a binder along with the biomass particles. Various solvents can be adopted depending on the type of biomass used, the mixing ratio of fried food waste to biomass, and the level of physical properties required for the three-dimensional structure (packaging material) to be manufactured.

Preferred examples of adoptable solvents include water and basic solutions. Water is a general-purpose solvent used to provide consistent fluidity and viscosity to the formulation and can be utilized relatively widely. When a (strongly) basic solution is used, the fried food is easily dissolved, making it easy to mix or knead with biomass.

A variety of strongly basic solutions can be used as a solvent, but if potassium hydroxide (KOH) is used, a fertilizer effect can be expected due to the potassium (K) component remaining in the product when the manufactured packaging material or buffer material is disposed of in the soil after use. there is. When using potassium hydroxide as a solvent, a concentration of 1N is appropriate.

As described above, the mixing ratio between fried food waste-biomass powder mixed in an appropriate ratio and the solvent may be 1:1 to 1:2 by weight. When the content of fried food waste-biomass powder is high and the solvent content is low compared to the above ratio (for example, at the level of 1:0.5), the amount of solvent added compared to the amount of solid ingredients is insufficient, resulting in a dough form with the desired viscosity and fluidity. Because the composition of level), the composition batter is excessively diluted, making homogeneous positioning of the fried food waste-biomass particles difficult, causing agglomeration, and there is a problem in that it is difficult to achieve sufficient mechanical properties such as compressive strength. The appropriate mixing ratio between fried food waste-biomass powder and solvent can be adjusted within or outside the above range depending on the type of biomass and solvent adopted.

Meanwhile, the optimal mixing ratio between materials according to the present invention varies depending on the solvent and biomass used. According to a preferred embodiment, when the biomass is pulverized paper packaging material and the solvent is water, an appropriate mixing ratio between fried food powder, biomass powder, and solvent is 4:1:6 by weight. In addition, when the biomass is pulverized paper packaging material and the solvent is potassium hydroxide (KOH), the mixing ratio is preferably 4:1:9. This mixing ratio can be considered the most appropriate level in terms of ease of forming 3D structures, homogeneous mixing, ease of operation, and securing the required physical/mechanical performance.

According to another preferred embodiment, when the biomass is coffee waste (coffee grounds) and the solvent is water, the mixing ratio between the fried food waste powder, biomass powder, and solvent is 2:1:4 to 2:2:4 by weight. It is appropriate. The above ratio means that the content of biomass can be flexibly controlled in a specific state of frying waste and solvent at a specific content ratio.

Additionally, when the biomass is coffee grounds and the solvent is potassium hydroxide (KOH), the mixing ratio is preferably 4:2:6 to 4:3:6. The meaning of the ratio is as described above, and this mixing ratio can be considered the most appropriate level in terms of ease of forming a three-dimensional structure, homogeneous mixing, ease of operation, and securing the required physical/mechanical performance.

According to another preferred embodiment, when the biomass is pulverized rice straw and the solvent is water, the appropriate mixing ratio between fried food waste powder, biomass powder, and solvent is 7:1:10 or 6:1:4 by weight. do.

Additionally, when the biomass is pulverized rice straw and the solvent is potassium hydroxide (KOH), the mixing ratio is preferably 10:1:15 to 10:2:15. The above ratio means that the content of biomass can be flexibly controlled in a specific state of frying waste and solvent at a specific content ratio. This mixing ratio can be considered the most appropriate level in terms of ease of forming 3D structures, homogeneous mixing, ease of operation, and securing the required physical/mechanical performance.

According to another preferred embodiment, the present invention provides a method for manufacturing a packaging composition that can be molded into a three-dimensional structure, comprising the steps of preparing fried food powder; and preparing a mixing material by mixing the fried food waste powder with biomass and a solvent; The frying cake provides a method of manufacturing an eco-friendly packaging composition, characterized in that residual oil is removed from frying scraps (crumbs), which are by-products of fried food cooking. Of course, the specific examples of fried food, biomass, and solvent mentioned above can be equally applied to the manufacturing method.

Mixed materials mixed in an appropriate ratio can be manufactured into packaging materials or cushioning materials with a certain three-dimensional structure through a molding process, and are preferably subjected to a heat treatment process.

Hereinafter, the present invention will be described in more detail using examples and comparative examples. However, the following examples and comparative examples are for illustrative purposes only, and the scope of the present invention is not limited thereto.

Manufacturing Example (Example 1)

Fried food is obtained by pressing the collected fried scraps (crumbs) to remove the remaining oil content. It is pulverized with a grinder and manufactured into powder form.

Prepare the pulverized (waste) paper box and mix it with the prepared fried food powder and water. Fried food waste powder, cardboard box powder, and water were mixed at a weight ratio of 4:1:6. The mixed ingredients were kneaded using a kneader, and through this, a mixture with clay-like physical properties was manufactured.

The mixture obtained through the above process was molded into the desired shape or placed in a mold and heat treated in a 160 degree oven for 10 hours. The three-dimensional structure created through the above-described process is shown in Figure 2, and it can be used as a packaging material or cushioning material, replacing existing plastic or Styrofoam products.

Manufacturing Example (Example 2)

Fried food is obtained by pressing the collected fried scraps (crumbs) to remove the remaining oil content. It is pulverized with a grinder and manufactured into powder form.

Prepare the pulverized (waste) paper box and mix it with the prepared fried food powder and potassium hydroxide (KOH) solution. Fried food waste powder, ground paper box, and potassium hydroxide solution were mixed at a weight ratio of 4:1:9. The mixed ingredients were kneaded using a kneader, and through this, a mixture with clay-like physical properties was manufactured.

The mixture obtained through the above process was molded into the desired shape or placed in a mold and heat treated in a 160 degree oven for 10 hours.

Manufacturing Example (Example 3)

Fried food is obtained by pressing the collected fried scraps (crumbs) to remove the remaining oil content. It is pulverized with a grinder and manufactured into powder form.

Prepare coffee waste (coffee grounds) and mix it with the prepared fried food waste powder and water. Fried food waste powder, coffee waste, and water were mixed as separate samples at a weight ratio of 2:1:4 and 2:2:4 (Figure 5, which shows the results of a compressive strength test to be described later, shows a sample prepared at the former weight ratio. The sample is marked as "Coffee Ground 50", and the sample prepared at the latter weight ratio is marked as "Coffee Ground 100"). The mixed ingredients were kneaded using a kneader, and through this, a mixture with clay-like physical properties was manufactured.

The mixture obtained through the above process was molded into the desired shape or placed in a mold and heat treated in a 160 degree oven for 10 hours.

Manufacturing Example (Example 4)

Fried food is obtained by pressing the collected fried scraps (crumbs) to remove the remaining oil content. It is pulverized with a grinder and manufactured into powder form.

Prepare coffee waste (coffee grounds) and mix it with the prepared fried food waste powder and potassium hydroxide (KOH) solution. Fried food waste powder, coffee waste, and potassium hydroxide solution were mixed as separate samples at a weight ratio of 4:2:6 and 4:3:6 (Figure 6, which shows the results of a compressive strength test to be described later, shows the former weight ratio. The prepared sample is indicated as “Coffee Leak 100”, and the sample prepared at the latter weight ratio is indicated as “Coffee Leak 150”). The mixed ingredients were kneaded using a kneader, and through this, a mixture with clay-like physical properties was manufactured.

The mixture obtained through the above process was molded into the desired shape or placed in a mold and heat treated in a 160 degree oven for 10 hours.

Manufacturing Example (Example 5)

Fried food is obtained by pressing the collected fried scraps (crumbs) to remove the remaining oil content. It is pulverized with a grinder and manufactured into powder form.

Prepare ground rice straw and mix it with the prepared fried food powder and water. Fried food waste powder, ground rice straw, and water were mixed as separate samples at weight ratios of 7:1:10 and 6:1:4 (Figure 7, which shows the results of a compressive strength test to be described later, shows samples prepared at the former weight ratio. The sample prepared at the latter weight ratio is indicated as “Pulverized Rice Straw 30”, and the sample prepared at the latter weight ratio is indicated as “Pulverized Rice Straw 50”). The mixed ingredients were kneaded using a kneader, and through this, a mixture with clay-like physical properties was manufactured.

The mixture obtained through the above process was molded into the desired shape or placed in a mold and heat treated in a 160 degree oven for 10 hours.

Manufacturing Example (Example 6)

Fried food is obtained by pressing the collected fried scraps (crumbs) to remove the remaining oil content. It is pulverized with a grinder and manufactured into powder form.

Rice straw pulverization is prepared and mixed with the prepared fried food powder and potassium hydroxide (KOH) solution. Tempura waste powder, ground rice straw, and potassium hydroxide (KOH) solution were mixed as separate samples at a weight ratio of 10:1:15 and 10:2:15 (Figure 8, which shows the results of a compressive strength test to be described later, shows the electronic The sample prepared at the weight ratio of is indicated as "Rice Straw Powder 20", and the sample prepared at the latter weight ratio is indicated as "Rice Straw Powder 40"). The mixed ingredients were kneaded using a kneader, and through this, a mixture with clay-like physical properties was manufactured.

The mixture obtained through the above process was molded into the desired shape or placed in a mold and heat treated in a 160 degree oven for 10 hours.

Test example (compressive strength measurement)

As shown in FIG. 3, the mixture prepared in Examples 1 to 6 was repeatedly filled into a silicone mold having a predetermined shape. Afterwards, heat treatment was performed in an oven at 160 degrees for 10 hours to manufacture an eco-friendly packaging structure.

The compressive strength of the eco-friendly packaging materials (structures) manufactured according to Examples 1 to 6 was tested. The compressive strength of each sample was measured using QM100SE, a universal material testing machine from Qmersys. The compressive strength test was measured according to KS F 2206 [Wood Compression Test Method] and was repeated three times.

As shown in Figures 4 to 8, the structure according to Example 1 (fried food waste + waste paper + water) has a compressive strength of 2,591 kPa, and the structure according to Example 2 (fried food waste + waste paper + KOH) has a compressive strength of 2,120 kPa. The compressive strength of kPa was 2,076 kPa for the structure according to Example 3 (fried food waste + coffee waste + water), and 1,395 kPa for the structure according to Example 4 (fried food waste + coffee waste + KOH). The compressive strength of the structure according to Example 5 (fried food waste + ground rice straw + water) was at the level of 2,768 kPa, and the structure according to Example 6 (fried food waste + ground rice straw + KOH) was at the level of 2,625 kPa. Compressive strength was confirmed.

Although different results were obtained depending on the mixing ratio and type of biomass/solvent, they all showed sufficient physical properties to be used as packaging materials or cushioning materials, confirming the possibility of using the eco-friendly packaging material according to the present invention.

Although embodiments of the present invention have been described above with reference to the attached drawings, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. You will be able to understand it. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

Claims (19)

In a packaging composition that can be molded into a three-dimensional structure,
The composition includes fried food waste powder, biomass powder, and a solvent,
The fried food is derived from fried scraps, which are a by-product of fried food, and is characterized by improving the mechanical properties of the molded packaging material by enabling a cross-linking reaction with biomass,
An eco-friendly packaging composition, characterized in that the content of the fried food waste powder is 2 to 10 times the weight of the biomass powder. According to paragraph 1,
An eco-friendly packaging composition, characterized in that the frying cake is obtained by removing residual oil from the frying scrap. According to paragraph 1,
An eco-friendly packaging composition, characterized in that the biomass is one or a mixture of two or more of ground paper, coffee grounds (coffee grounds), and ground rice straw. According to paragraph 1,
An eco-friendly packaging composition, wherein the solvent is water or a basic solution. According to paragraph 1,
An eco-friendly packaging composition, characterized in that the mixing ratio between the sum of the fried food waste powder and the biomass powder and the solvent is 1:1 to 1:2 on a weight basis. According to paragraph 1,
The solvent is water and the biomass powder is pulverized paper-based packaging material,
An eco-friendly packaging composition, characterized in that the mixing ratio of the fried food powder, biomass powder and solvent is 4:1:6 based on weight. According to clause 6,
An eco-friendly packaging composition having a compressive strength of 2,591 kPa. According to paragraph 1,
The solvent is a potassium hydroxide (KOH) solution, and the biomass powder is pulverized paper-based packaging material,
An eco-friendly packaging composition, characterized in that the mixing ratio of the fried food waste powder, biomass powder and solvent is 4:1:9 by weight. According to clause 8,
An eco-friendly packaging composition having a compressive strength of 2,120 kPa. According to paragraph 1,
The solvent is water and the biomass powder is coffee grounds (coffee grounds),
An eco-friendly packaging composition, characterized in that the mixing ratio of the fried food waste powder, biomass powder and solvent is 2:1:4 to 2:2:4 based on weight. According to clause 10,
An eco-friendly packaging composition having a compressive strength of 781 kPa or 1,395 kPa. According to paragraph 1,
The solvent is a potassium hydroxide (KOH) solution and the biomass powder is coffee grounds (coffee grounds),
An eco-friendly packaging composition, characterized in that the mixing ratio of the fried food waste powder, biomass powder and solvent is 4:2:6 to 4:3:6 based on weight. According to clause 12,
An eco-friendly packaging composition having a compressive strength of 1,403 kPa or 2,076 kPa. According to claim 1,
The solvent is water and the biomass powder is pulverized rice straw,
An eco-friendly packaging composition, characterized in that the mixing ratio of the fried food waste powder, biomass powder and solvent is 7:1:10 to 6:1:4 by weight. According to clause 14,
An eco-friendly packaging composition having a compressive strength of 2,280 kPa or 2,768 kPa. According to paragraph 1,
The solvent is a potassium hydroxide (KOH) solution and the biomass powder is pulverized rice straw,
An eco-friendly packaging composition, characterized in that the mixing ratio of the fried food waste powder, biomass powder and solvent is 10:1:15 to 10:2:15 by weight. According to clause 16,
An eco-friendly packaging composition having a compressive strength of 2,054 kPa or 2,625 kPa. In the method of manufacturing a packaging composition that can be molded into a three-dimensional structure,
Preparing fried food powder from which residual oil is removed from fried scraps (crumbs), which are by-products of fried food cooking; and
Including the step of preparing a mixing material by mixing the fried food waste powder, biomass powder, and solvent,
A method for producing an eco-friendly packaging composition, characterized in that the content of the fried food waste powder is 2 to 10 times the weight of the biomass powder. According to clause 18,
A method for producing an eco-friendly packaging composition, further comprising: molding the mixing material and heat treating it.