WO2022269185A1

WO2022269185A1 - Biodegradable item and manufacturing method

Info

Publication number: WO2022269185A1
Application number: PCT/FR2022/051199
Authority: WO
Inventors: Zamir Eldar; Guillaume RIBES
Original assignee: So Ethic
Priority date: 2021-06-22
Filing date: 2022-06-21
Publication date: 2022-12-29
Also published as: FR3124105A1; FR3124105B1

Abstract

The present invention relates to a method for manufacturing a biodegradable item, the method comprising the following steps: a) providing a powder mixture having a particle size of between 2 and 4 mm and a moisture content of between 10% and 25%; b) shaping said mixture by means of a press in order to apply a pressure of between 50 and 90 tonnes to the mixture so as to obtain a shaped mixture, the shaping step b) being carried out at a temperature of between 150 and 180°C; and c) cooking said shaped mixture at a temperature of between 150°C and 250°C in order to form the biodegradable item.

Description

DESCRIPTION

Title of Invention: Biodegradable Article and Manufacturing Process

[1] The present invention relates to a biodegradable article. More particularly, the present invention relates to a process for manufacturing a biodegradable article.

[2] It should be noted that, by biodegradable article, is meant within the meaning of the present invention, any article consisting of biodegradable compounds in the earth's soil.

[3] In the current state of the art, we know in particular biodegradable articles for agricultural use which can be biodegradable during industrial composting processes.

[4] In the current state of the art, biodegradable articles for agricultural use are known which can be biodegradable in the soil, but these articles are too fragile to support a growth stage of the plants in the nursery, the plants being at the inside these biodegradable items. In particular, currently there are no biodegradable articles which are both biodegradable in the soil after planting and which have sufficient resistance to the open air outside the soil while maintaining its biodegradable character. Also, in the current state of the art, biodegradable articles do not guarantee degradation in the soil of the article after planting while having sufficient resistance to the growth time of the plants in the nursery.

[5] The object of the present invention is in particular to overcome all or part of the aforementioned drawbacks. To this end, according to a first aspect, the invention relates to a method for manufacturing a biodegradable article comprising the following steps: a) supplying a mixture of powder having a particle size between 2 and 4 mm and a rate of humidity between 10% and 25%, the powder mixture comprising:

- a ligneous compound at a mass concentration of between 30 and 50% relative to the total weight of the mixture;

- a compound comprising at least 50% by weight of starch, the starch compound having a mass concentration of between 15 and 30% relative to the total weight of the mixture,

- a cellulosic compound at a mass concentration of less than 50% relative to the total weight of the mixture;

- a sugar compound at a mass concentration of less than 10% relative to the total weight of the mixture; b) shaping said mixture using a press to apply pressure between 50 and 90 tons on the mixture to obtain a shaped mixture, step b) of shaping being carried out at a temperature between 150 and 180° C.; c) firing at a temperature between 150°C and 250°C said shaped mixture to form the biodegradable article.

[6] According to this object, the manufacturing process makes it possible to obtain a biodegradable article which has both sufficient resistance before being in contact with the ground while maintaining its biodegradable character, and resistance during growth time of the plants in the nursery while guaranteeing degradation in the soil of the biodegradable article after planting.

[7] It should be noted that the press can be associated with a mold whose shape is adaptable to the biodegradable article that one wishes to produce so as, for example, to obtain a pot in which it is possible to integrate plants.

[8] In addition, the temperature of step b) shaping using a press is controlled.

[9] Stage c) of cooking makes it possible to evaporate the water, to activate the Maillard reaction, a reaction which is observed at cooking temperatures between 80°C and 150°C between the ligneous, starch and cellulosic compounds with the sugar compound, and therefore to complete each of the chemical reactions which take place within this composition to obtain a biodegradable article sufficiently resistant to external aggressions to resist during the growth time of the plants in nursery while guaranteeing degradation in the soil of the article after planting.

[10] It should be noted that the cooking temperature of step c) between 150°C and 250°C is a setpoint temperature, that is to say that it is representative of the temperature of the cooking tool and not the article at heart.

[11] Preferably, the powder mixture may further comprise a hardener. For example, the hardener may be present in the composition at a mass concentration of less than 2% relative to the total weight of the mixture. The use of the hardener makes it possible to accelerate the Maillard reaction and therefore to improve the efficiency of the manufacturing process of the biodegradable article by making it more resistant to external aggressions. For example, this hardener can be a phosphoric acid or a derivative of phosphoric acid.

[12] In a particular embodiment, it is advantageous to promote, in a circular economy concept, the recycling of the ligneous compound. Therefore, in this embodiment, the woody component is selected from wood by-product, compost screenings, sawdust. Within the meaning of the present invention, by screening refusal of the compost, is meant the coarse fraction of the compost having a cut-off mesh between 8 and 30 mm (preferably approximately equal to 10 mm) using a grid for separation. For example, as by-products of wood, one can have wood chips, or crushed chips.

[13] In a particular embodiment, it is advantageous to have a powder mixture that is uniform. Therefore, in this embodiment, the starch compound is in the form of a flour, preferably in powder form. For example, the flour can be corn flour, rice flour, or even wheat flour, which is the flour with a greater concentration of starch compared to the other two mentioned above.

[14] In a particular embodiment, it is advantageous to promote, in a circular economy concept, the recycling of the cellulosic compound. Therefore, in this embodiment, the cellulosic compound is a compost.

[15] In a particular embodiment, the cellulosic compound is at a mass concentration of between 10% and 40% relative to the total weight of the mixture. Such a concentration makes it possible to ensure the good behavior of the biodegradable article, that is to say its non-degradation in the open air, while providing the nutrients necessary for the growth of the plants included inside this biodegradable item. If the cellulosic compound is present in the powder mix at a mass concentration greater than 40% based on the total weight of the mix, then the biodegradable item will have difficulty breaking down in the soil. On the other hand, if the cellulosic compound is present in the powder mixture at a mass concentration of less than 10% relative to the total weight of the mixture, then the biodegradable article will not have sufficient resistance in the open air.

[16] Preferably, the sweet compound is chosen from molasses, a co-product of the sugar industry, a C5 sugar.

[17] Preferably, the temperature of stage c) of cooking is between 200°C and 250°C so as to further guarantee the behavior of the biodegradable article, behavior generated by the Maillard reaction.

[18] Preferably, the duration of step c) of cooking is between 15 and 45 minutes so as to further guarantee the behavior of the biodegradable article.

[19] Preferably, the method further comprises a step d) of coating the biodegradable article with a biodegradable water repellent composition to obtain a biodegradable article coated with a coating. This coating makes it possible in particular to better control the resistance of the article manufactured by the invention. It further improves the behavior of the biodegradable article during the growth time of the plants in the nursery while guaranteeing degradation in the soil after planting. The water-repellent nature of this coating allows water to slide over the coated biodegradable article during periods of watering, thus allowing a significant improvement in the behavior of the biodegradable article.

[20] It should be noted that step d) of coating can be carried out using any deposition process known to those skilled in the art and can comprise one or more layers deposited on top of each other.

[21] Preferably, the biodegradable water repellent composition comprises starch. The starch here allows the water vapor to diffuse into the biodegradable article but does not allow water to penetrate in liquid form. Thus, the starch makes it possible to guarantee the biodegradability of the article in the soil by the degradation of this coating by the microorganisms of the soil.

[22] Preferably, the biodegradable water repellent composition comprises polybutyrate (PBAT) starch. With such a composition, the coated biodegradable article may show no signs of degradation for about four months (which corresponds to the development time of a plant), then, after being introduced into the soil, may show degradation in the soil after 5 to 8 weeks.

[23] Furthermore, the greater the thickness of the coating, i.e. the more layers the coating comprises, the longer the duration of the resistance of the above-ground biodegradable article.

[24] The invention will be better understood on reading the following description, given solely by way of example.

EXAMPLES

Products

- non-resinous wood shavings with a particle size of less than 40 mm;

- flour: wheat flour not intended for human consumption, type T55;

- compost: mature compost of green waste;

- beet sugar derivative: beet molasses with a moisture content lower than

15%;

- hardener based on phosphoric acid: hardener HM 1448 marketed, for example, by the companies Brenntag® or Univar®;

- PBAT starch biodegradable in the soil and supplied by the company Novamont®.

Testing Example 1: Manufacture of a biodegradable article according to a first embodiment according to the invention

The biodegradable article according to this first example is prepared in the form of a mixture of powder of composition A1. Composition A1 makes it possible to manufacture the biodegradable article according to this first example.

The operating process is as follows:

Preparation of the powder mixture of composition A1

1/ Initially, optionally, a compost drying step is carried out at a temperature greater than or equal to 80°C for about 6 hours under vacuum. Thus, it is possible to obtain a compost having a moisture content approximately equal to 21%, preferably 15%.

21 Next, in a step a), a mixture of powder of composition A1 is provided, having a humidity level of between 10% and 25% and a particle size of between 2 and 4 mm. Composition A1 is as follows for a mixture of 1420 g:

- 600 g of wood chips as ligneous compound, which here corresponds to a mass concentration approximately equal to 42.3% relative to the total weight of composition A1,

- 360 g of wheat flour not intended for human consumption (for example a wheat flour whose consumption date has expired so as to preferably use a flour to be recycled) as a starch compound, which here corresponds to a mass concentration approximately equal to 25.4% relative to the total weight of composition A1,

- 360 g of compost as cellulosic compound, which here corresponds to a mass concentration approximately equal to 25.4% relative to the total weight of composition A1, and

- 100 g of a beet sugar derivative as sugar compound, which corresponds to a mass concentration approximately equal to 7% relative to the total weight of composition A1. It should be noted that each of the compounds mentioned above is, preferably and before producing this mixture, stored in a thermally regulated chamber at a temperature between 10° C. and 30° C., preferably at a temperature approximately equal to 20°C.

3/ In a subsequent step b), approximately 110 g of composition A1 are injected into a press to apply a pressure of between 50 and 90 tons so as to shape the mixture. It should be noted that this shaping is carried out at a temperature approximately equal to 170°C. 4/ Then, in a following step c), the shaped mixture is introduced into a cooking tool having a setpoint temperature approximately equal to 200°C. Once the shaped mixture reaches a core temperature approximately equal to 150° C., that is to say after approximately 30 minutes, the shaped mixture is extracted. By proceeding in this way, the obtaining of a shaped mixture which is sufficiently resistant to water and to external attack is guaranteed.

The biodegradable article is thus obtained.

TESTS

When observing the biodegradable article with the naked eye, before it was coated, no surface cracks were noticed.

Also, after immersion of the biodegradable article in water for about 24 hours, it is intact, no superficial cracks or particular coloring of the biodegradable article is remarkable.

As the plant grows in the nursery, this biodegradable item lasts for two weeks.

Example 2: Manufacture of a biodegradable article according to a second embodiment according to the invention

The biodegradable article according to this second example is prepared in the form of a mixture of powder of composition A2. Composition A2 makes it possible to manufacture the biodegradable article according to this second example.

The operating process is as follows:

Preparation of the powder mixture of composition A2:

21 Next, in a step a), a mixture of powder of composition A2 is provided, having a humidity level of between 10% and 25% and a particle size of between 2 and 4 mm. Composition A2 is as follows for a mixture of 1426 g:

- 600 g of wood chips as ligneous compound, which here corresponds to a mass concentration approximately equal to 42.1% relative to the total weight of composition A2, - 360 g of wheat flour not intended for human consumption composed of starch, which here corresponds to a mass concentration approximately equal to 25.2% relative to the total weight of composition A2,

- 360 g of compost as cellulosic compound, which here corresponds to a mass concentration approximately equal to 25.2% relative to the total weight of composition A2,

- 100 g of a beet sugar derivative as sugar compound, which corresponds to a mass concentration approximately equal to 7% relative to the total weight of composition A2, and

- 6 g of the hardener based on phosphoric acid, which here corresponds to a mass concentration approximately equal to 0.4% relative to the total weight of composition A2.

It should be noted that each of the compounds mentioned above is, as in the first example, preferably and before producing this mixture, stored in a thermally regulated chamber at a temperature between 10° C. and 30° C., preferably at a temperature of approximately 20°C.

3/ In a subsequent step b), approximately 110 g of composition A2 are injected into a press to apply a pressure of between 50 and 90 tons so as to shape the mixture. It should be noted that this shaping is carried out at a temperature approximately equal to 170°C.

4/ Then, in a following step c), the shaped mixture is introduced into a cooking tool having a setpoint temperature approximately equal to 200°C. Once the shaped mixture reaches a core temperature of around 150°C, i.e. after about 30 minutes, the shaped mixture is extracted. By proceeding in this way, it is guaranteed to obtain a shaped mixture that is sufficiently resistant to water and external aggressions.

TESTS

In this second example, the fact of using a mixture of powder comprising a hardener makes it possible to accelerate the Maillard reaction to further guarantee good hold. of the biodegradable article and therefore makes it possible to improve the efficiency of the manufacturing process and the resistance of the product of the biodegradable article.

During the growth of the plant in the nursery, this article resists for four weeks.

Example 3: Manufacture of a biodegradable article according to a third embodiment according to the invention

The biodegradable article according to this third example is prepared in the form of a mixture of powder of composition A3 and is coated with a coating prepared in the form of a biodegradable water-repellent solution B1.

Composition A3 makes it possible to manufacture the biodegradable article according to this third example.

Solution B1 allows, for its part, both the holding of the biodegradable article before its contact with the ground or water while further maintaining its biodegradable character over time, and therefore makes it possible to provide a biodegradable article which resists better, using the coating, the growth time of the plants in the nursery while guaranteeing degradation in the soil of the biodegradable article after planting.

The operating process is as follows:

Preparation of the powder mixture of composition A3:

21 Next, in a step a), a mixture of powder of composition A3 is provided, therefore having a humidity level of between 10% and 25% and a particle size of between 2 and 4 mm. Composition A3 is for 1426 g of preparation:

- 600 g of wood chips as ligneous compound, which here corresponds to a mass concentration approximately equal to 42.1% relative to the total weight of composition A3,

- 360 g of wheat flour not intended for human consumption as a starch compound, which here corresponds to a mass concentration approximately equal to 25.2% relative to the total weight of composition A3,

- 360 g of compost as cellulosic compound, which here corresponds to a mass concentration approximately equal to 25.2% relative to the total weight of composition A3, - 100 g of a beet sugar derivative as sugar compound, which corresponds to a mass concentration approximately equal to 7% relative to the total weight of composition A3, and

- 6 g of hardener based on phosphoric acid, which here corresponds to a mass concentration approximately equal to 0.4% relative to the total weight of composition A3.

It should be noted that each of the compounds mentioned above is, as in the first example in particular, preferably and before production of this mixture, stored in a thermally regulated chamber at a temperature between 10° C. and 30° C., of preferably at a temperature approximately equal to 20°C.

3/ In a subsequent step b), approximately 110 g of composition A3 are injected into a press to apply a pressure of between 50 and 90 tons so as to shape the mixture. It should be noted that this shaping is carried out at a temperature approximately equal to 170°C.

4/ Then, in a following step c), the shaped mixture is introduced into a cooking tool having a setpoint temperature approximately equal to 200°C. Once the shaped mixture reaches a temperature of around 150° C., that is to say after about 30 minutes, the shaped mixture is extracted. By proceeding in this way, it is guaranteed to obtain a shaped mixture that is sufficiently resistant to water and external aggressions.

The biodegradable article is thus obtained.

Preparation of the biodegradable water-repellent solution B1:

Preparation of a biodegradable water-repellent solution B1 of PBAT Starch which has a viscosity approximately equal to 130 cp. Such a viscosity facilitates its application by dipping.

Application of a coating based on solution B1 on the biodegradable article resulting from the mixture of powder of composition A3:

4/ Thus, in a step d) subsequent to step c) indicated above, a step of coating with solution B1 of the biodegradable article obtained in step c) is implemented to obtain a biodegradable article coated with a coating. Solution B1 is a biodegradable water-repellent solution and its application makes it possible in particular to obtain a biodegradable article that is more resistant to external aggressions.

To do this, the solution B1 is applied to the biodegradable article, for example by soaking. It is possible, for example, to carry out a first soaking followed by drying for approximately 7 hours in a room heated to a temperature approximately equal to 50°C. This first soaking is itself followed by a second soaking under the same conditions as those mentioned above to apply two layers of coating and thus guarantee the installation of a more resistant and robust coating. The coated biodegradable article is thus obtained.

TESTS

When observing the biodegradable article with the naked eye, before it was coated with B1, no surface cracks were noticed. So we could use it as it is. However, to have an article with better resistance to aging and to external attacks, it is preferable to coat it.

Thus, after immersing the coated biodegradable article in water for about 24 hours, it is intact, the coating is not discolored and does not show any surface cracks either.

During the growth of the plant in the nursery, this article resists for four months. Table 1 below summarizes the implementation and the results of the various examples indicated above.

[Table 1]

Claims

1. Process for manufacturing a biodegradable article comprising the following steps: a) supplying a mixture of powder having a particle size between 2 and 4 mm and a humidity level between 10% and 25%, the mixture of powder comprising:

- a sugar compound at a mass concentration of less than 10% relative to the total weight of the mixture; b) shaping of said mixture by means of a press to apply a pressure of between 50 and 90 tons on the mixture to obtain a shaped mixture, step b) of shaping being carried out at a temperature of between 150 and 180°C; c) firing at a temperature between 150°C and 250°C said shaped mixture to form the biodegradable article.

2. Manufacturing process according to claim 1, wherein the powder mixture further comprises a hardener.

3. Manufacturing process according to one of claims 1 or 2, according to which the ligneous compound is chosen from a wood by-product, a residue from compost screening, sawdust.

4. Manufacturing process according to one of claims 1 to 3, wherein the starch compound is in the form of a flour.

5. Manufacturing process according to one of claims 1 to 4, according to which the cellulosic compound is a compost.

6. Manufacturing process according to one of claims 1 to 5, wherein the cellulosic compound is at a mass concentration of between 10% and 40% relative to the total weight of the mixture.

7. Manufacturing process according to one of claims 1 to 6, according to which the sugar compound is chosen from molasses, a co-product of the sugar industry, a C5 sugar.

8. Manufacturing process according to one of claims 1 to 7, according to which the temperature of step c) of cooking is between 200°C and 250°C.

9. Manufacturing process according to one of claims 1 to 8, according to which the duration of step c) of cooking is between 15 and 45 minutes.

10. Manufacturing process according to one of claims 1 to 9, further comprising a step d) of coating the biodegradable article with a biodegradable water-repellent composition to obtain a biodegradable article coated with a coating.

11. Manufacturing process according to claim 10, according to which the biodegradable water-repellent composition comprises starch.

12. Manufacturing process according to one of claims 10 or 11, according to which the biodegradable water-repellent composition comprises polybutyrate (PBAT) starch.