FR3138332A1 - Material recycled from waste of plant origin, its preparation process and its applications - Google Patents

Abstract

Recycled material of waste of plant origin, its preparation process and its applications The present invention makes public a recycled material of waste of plant origin, its preparation process and its applications, and falls within the technical field of recycling of waste of plant origin. plant origin. Its recycling process includes the following steps: after being crushed, the waste of plant origin is mixed with water and a detoxifier to form a mixture, the recycled material is obtained after resting for 3 to 7 days . Said detoxifier comprises one or more ammonium salts or ammonia waters, the ratio of the dry weight of said waste of plant origin and the effective mass of the detoxifier is 100: (0.5~2), the effective mass of the detoxifier comprises the mass of solute in the mass of ammonium salt and ammonia water.

Description

Recycled material from waste of plant origin, its preparation process and its applications

The present invention relates to a recycled material of waste of plant origin, its preparation method and its applications, and relates to the technical field of recycling of waste of plant origin.

State of the art

Plant waste refers to the main ingredient in waste from plant stubble, such as crop stalks, forestry waste and mushroom residue. Every year, China produces hundreds of millions of tonnes of plant-based waste, much of it piled up on the ground, causing environmental pollution and wasting resources.

The main components of plant waste are cellulose, hemicellulose and lignin, at the same time they include mineral elements, and potentially constitute a raw material for horticulture substrate. However, when untreated plant waste is used as substrate raw material, the presence of plant toxicity has serious plant growth inhibitory effects. Plant toxicity refers to the toxic effects on plant growth, this nuisance is perhaps caused by multiple compounds, including metals in microquantities, fertilizers, salinity, plant toxins or allelochemicals. The common process currently used to alleviate plant toxicity is to carry out aerobic or anaerobic fermentation, in order to achieve total decomposition, so that plant toxicants are degraded, allowing them to be used as substrate or fertilizer for crops. . However microbial fermentation requires a relatively long time to decompose plant waste, it generally takes 30 to 60 days of stacking fermentation to effectively remove plant toxicity from plant waste, the treatment cycle is long, and yields are low.

Content of the invention

The aim of the present invention is to overcome the shortcomings of prior techniques, and to provide a recycled material of waste of plant origin, its preparation process and its applications whose treatment yields are high, the treatment time shortened and the reduced costs.

The aim of the present invention is achieved thanks to the following technical plan: the process for preparing recycled material from waste of plant origin comprises the following steps:

after being crushed, the waste of plant origin is mixed with water and a detoxifier to form a mixture, the recycled material is obtained after resting. Said detoxifier comprises one or more ammonium salts or ammonia waters, the ratio of the dry weight of said waste of plant origin and the effective mass of the detoxifier is 100: (0.5~2), the effective mass of the detoxifier comprises the mass of solute in the mass of ammonium salt and ammonia water.

Advantageously, the mixture is left to rest for 3 to 7 days.

Advantageously, said ammonium salt is one or more elements among ammonium carbonate, ammonium hydrogen sulfate, ammonium sulfate, ammonium chloride and ammonium nitrate.

Advantageously, the mass ratio of the dry weight of the waste of plant origin in said mixture and the mass of the water is 1: (2~4).

Advantageously, said detoxifier further comprises low acidity calcium salts, said low acidity calcium salts comprise one or more elements from calcium carbonate, calcium citrate, calcium fumarate and calcium alginate.

Advantageously, the mass ratio of the ammonium salt and the calcium salt at low acidity is (1~3): 1.

Advantageously, said detoxifier further comprises humic acid.

Advantageously, the mass ratio of the ammonium salt and the humic acid is (1~3): 1.

The second aim of the present invention is to provide a recycled material of plant-based waste obtained using the above-mentioned process.

The third purpose of the present invention is to provide an application of recycled material according to the above-mentioned recycled material of plant waste, said recycled material being used as a grain cultivation substrate, as an organic fertilizer, or as a substrate preparation raw material. or organic fertilizer.

The beneficial effects of the present invention are:

when left to rest after mixing the waste of plant origin already crushed with the detoxifier and water, the toxic substances present in the waste of plant origin react with the ammonium salt or ammonia water, so that the toxic substances present in waste of plant origin lose their toxicity, to form a recycled material of waste of plant origin whose plant toxicity is eliminated. The present invention carries out an elimination by targeted reaction of plant toxic substances present in waste of plant origin, the recycled material from which the plant toxicity has been eliminated is obtained without having to go through the slow elimination by conventional indistinct biodegradation, the process recycling is simple and high yield, it considerably increases the processing yields of waste of plant origin, reduces the cycle and duration of recycling treatment, and is of significant scope in promoting the recycling of waste of plant origin. plant origin.

Embodiments

A clear and complete description of the technical plan of the present invention combined with the embodiments of the present invention is given below, of course the described embodiments constitute only a part of the embodiments, and not their entirety. On the condition of not providing creative work, those skilled in the art can, based on the embodiments of the present invention, obtain other embodiments, without departing from the scope of the present invention.

The present invention provides a process for preparing recycled material from waste of plant origin comprising the following steps:

after being crushed, the waste of plant origin is mixed with water and a detoxifier to form a mixture, a recycled material whose toxicity is eliminated is obtained after resting. The grinding of the waste of plant origin in question may be a direct grinding of the wet material or a grinding of the waste once dried, provided that a crushed substrate of the waste of plant origin is obtained.

During mixing, the ratio of the dry weight of said waste of plant origin and the effective mass of the detoxifier is 100: (0.5~2), the effective mass of the detoxifier includes the mass of solute in the mass of salt ammonium and ammonia water. During the detoxification treatment of dried plant waste, the plant waste and detoxifier are taken directly according to their mass ratio; during the detoxification treatment of the wet material of waste of plant origin, the dry weight is converted according to the moisture content of the waste of plant origin, and then the detoxifier is taken proportionally.

A resting time of 3 to 7 days allows good detoxification effects to be obtained; too long or too short a resting time directly affects the plant detoxification effects of the recycled material. The detoxifier of the present invention comprises one or more ammonium salts or ammonia waters, wherein the ammonium salt is one or more of ammonium carbonate, ammonium hydrogen sulfate, ammonium sulfate, ammonium, ammonium chloride and ammonium nitrate.

In the detoxification treatment, the mass ratio of the dry weight of the plant waste of said mixture and the mass of the water is 1: (2~4), the ratio of the plant waste and the quantity of total water in the mixture is restricted, i.e. undried wet material of plant waste is used, the water contained in the plant waste is added by conversion to the mass of water according to its water content; when ammonia water is used as a detoxifier, the water contained in the ammonia water is added by conversion to the mass of water depending on the mass and concentration of the ammonia water, the quantities of water added are reduced accordingly to the conversion results.

In order to improve the detoxification effects, the detoxifier further comprises low acidity calcium salts, the low acidity calcium salts in question comprise one or more of calcium carbonate, calcium citrate, calcium fumarate and calcium alginate. In the detoxifier, the mass ratio of ammonium salt and low acidity calcium salt is (1~3): 1, the composition of two kinds of components can improve the effects of eliminating plant toxicity . At the same time, the detoxifier additionally includes humic acid, the use of a composition of humic acid and low acidity calcium salt, ammonium salt or ammonia water improves its influence as a material recycling culture on the seed germination index by stimulating it, in the detoxifier, the mass ratio of ammonium salt or ammonia water with humic acid is (1~3): 1.

The second aim of the present invention to provide a recycled material of plant waste is achieved using the above-mentioned method. The third aim of the present invention is to provide applications for the aforementioned recycled material of plant waste, said recycled material can be used as a cereal growing substrate, as an organic fertilizer, or as a raw material for preparing a substrate or organic fertilizer, that is to say that the recycled material of waste of plant origin obtained using the aforementioned preparation process can constitute a cereal growing substrate or an organic fertilizer, it is also possible, from this recycled material, adding micro quantities of growing media material composed of inorganic substrates such as fertilizers, pesticides, water retention agents, shale soil or perlite.

The waste of plant origin used in the embodiments of the present invention is green waste from urban streets, it is dried, crushed and passed through a 0.2 cm sieve in order to make it an experimental material.

Embodiment 1

The present embodiment provides a method for preparing recycled material from plant waste: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100 , and placed to rest for 5 days at room temperature.

Embodiment 2

The main difference between the present embodiment and embodiment 1 is: ammonium hydrogen sulfate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100 , and placed to rest for 5 days at room temperature.

Embodiment 3

The main difference between the present embodiment and embodiment 1 is: ammonium sulfate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100, and placed left to rest for 5 days at room temperature.

Embodiment 4

The main difference between the present embodiment and embodiment 1 is: ammonia water at 1% concentration, water and the experimental material are mixed homogeneously at a mass ratio of 100:100 : 100, and placed to rest for 5 days at room temperature.

Embodiment 5

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 0.5:200:100, and placed to rest for 5 days at room temperature.

Embodiment 6

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1.5:200:100, and placed to rest for 5 days at room temperature.

Embodiment 7

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, ammonium hydrogen sulfate, water and the experimental material are mixed homogeneously according to a mass ratio of 0.5: 0.5: 200: 100, and placed to rest for 5 days at room temperature.

Embodiment 8

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:300:100, and placed left to rest for 5 days at room temperature.

Embodiment 9

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:400:100, and placed left to rest for 5 days at room temperature.

Embodiment 10

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100, and placed left to rest for 3 days at room temperature.

Embodiment 11

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100, and placed left to rest for 7 days at room temperature.

Embodiment 12

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, calcium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:0 .5:200:100, and placed to rest for 5 days at room temperature.

Embodiment 13

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, calcium carbonate, calcium citrate, water and the experimental material are mixed homogeneously at a ratio of mass of 1:1:200:100, and placed to rest for 5 days at room temperature.

Embodiment 14

The main difference between the present embodiment and embodiment 1 is: ammonium carbonate, calcium carbonate, humic acid, water and the experimental material are mixed homogeneously at a ratio of mass of 1: 0.5: 0.5: 200: 100, and placed to rest for 5 days at room temperature.

Comparative example 1

Experimental material that has not undergone any treatment as a recycled material control.

Comparative example 2

Water and the experimental material are mixed homogeneously at a mass ratio of 2:1, and allowed to stand at room temperature for 5 days.

Comparative example 3

Calcium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 0.5:200:100, and allowed to stand at room temperature for 5 days.

Comparative Example 4

Sodium hydroxide, water and the experimental material are mixed homogeneously at a mass ratio of 0.5:200:100, and allowed to stand at room temperature for 5 days.

Comparative Example 5

Humic acid, water and the experimental material are mixed homogeneously at a mass ratio of 0.5:200:100, and placed to rest at room temperature for 5 days.

Comparative Example 6

Ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:100:100, and allowed to stand at room temperature for 5 days.

Comparative Example 7

Ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100, and placed to rest at room temperature for 1 day.

Comparative Example 8

Ammonium carbonate, water and the experimental material are mixed homogeneously at a mass ratio of 1:200:100, and allowed to stand at room temperature for 9 days.

Comparative Example 9

0.01, 0.1, 1.0 and 10 mg/ml of ammonium carbonate solution are respectively used in seed germination tests, to measure the germination index of seeds.

Comparative Example 10

0.01, 0.1, 1.0 and 10 mg/ml of calcium carbonate solution are respectively used in seed germination tests, to measure the germination index of seeds.

Comparative Example 11

0.01, 0.1, 1.0 and 10 mg/ml of humic acid solution are respectively used in seed germination tests, to measure the germination index of seeds.

Assessment of plant toxicity

The seed germination index is used to evaluate the plant toxicity of the recycled material; the higher the germination index, the lower the plant toxicity of the material. Concrete method: the recycled materials prepared in Embodiments 1 to 14 and Comparative Examples 1 to 8 are mixed with water homogeneously in a mass ratio of 1:10, stirred and extracted for 30 minutes, centrifuged for 10 minutes, the supernatant liquid is used for the analysis of the germination index of the seeds (for the seed germination test refer to industrial standard applications, 10 cabbage seeds of approximately identical sizes are placed in a petri dish filter, the supernatant layers prepared according to the aforementioned methods are taken, and a culture for 72 hours at room temperature and protected from light is carried out, a caliper is used to measure the germination lengths. the purified water is produced, for blank test). Statistics and calculations of the germination indices of the experimental materials of each embodiment and comparative example = germination length of the material/germination length of the seeds in purified water x 100%. The test results are shown in Table 1.

Results of seed germination index tests of each embodiment and comparative example

Embodiment No. Seed germination index Embodiment No. Seed germination index Embodiment 1 90.2% Comparative Example 4 2.3% Embodiment 2 84.6% Comparative Example 5 4.7% Embodiment 3 86.8% Comparative Example 6 35.1% Embodiment 4 89.4% Comparative Example 7 8.9% Embodiment 5 75.4% Comparative Example 8 9.4% Embodiment 6 85.3% Comparative Example 9 (0.01 mg/ml) 96.8% Embodiment 7 84.3% Comparative Example 9 (0.1 mg/ml) 92.1% Embodiment 8 91.3% Comparative Example 9 (1 mg/ml) 1% Embodiment 9 90.8% Comparative Example 9 (10 mg/ml) 0% Embodiment 10 92.5% Comparative Example 10 (0.01 mg/ml) 99.4% Embodiment 11 86.9% Comparative Example 10 (0.1 mg/ml) 100.5% Embodiment 12 93.5% Comparative Example 10 (1 mg/ml) 99.7% Embodiment 13 92.7% Comparative Example 10 (10 mg/ml) 97.8% Embodiment 14 96.1% Comparative Example 11 (0.01 mg/ml) 81.5% Comparative example 1 5.6% Comparative Example 11 (0.1 mg/ml) 77.9% Comparative example 2 7.2% Comparative Example 11 (1 mg/ml) 75.2% Comparative example 3 6.5% Comparative Example 11 (10 mg/ml) 55.1%

Table 1 indicates that after treatment of waste of plant origin by the preparation process of the present invention, it is enough to reduce to 3 to 7 days to very significantly increase the germination index of the seeds of the material, this which means that the plant toxic substances have been removed obviously, the seed germination index of the recycled material obtained by the method of the present invention is basically more than 80%, which fully meets the requirements of ordinary crops. By comparison, the seed germination index of untreated plant waste is 5.6%, which is largely insufficient to meet the requirements for a substrate or organic fertilizer, while in other methods of realization, the simple use of water, calcium carbonate, sodium hydroxide or humic acid in the corresponding treatment of waste of plant origin gives little obvious treatment effects, and does not allow elimination toxic plant substances present in waste of plant origin. At the same time, changing the mass ratio or treatment time of the mixture of detoxifier, water and plant waste directly affects the treatment effects of plant waste, so that the removal effects of the substances plant toxins from waste of plant origin drop very significantly. Furthermore, comparative examples 9 to 11 indicate that the components of various detoxifiers used in the present invention have no stimulating or inciting effect on the germination of seeds; on the contrary, under certain concentrations, they have a clear inhibitory effect on the germination of seeds. germination of seeds, we can see that after treatment of waste of plant origin with the detoxifier of the present invention, the germination index of the seeds of the recycled material does not result from an influence of the detoxifier itself on germination of seeds, but of the elimination of plant toxic substances from waste of plant origin.

The use by the present invention of ammonium salt or ammonia water as a detoxifier in the detoxification treatment of waste of plant origin makes it possible to eliminate plant toxic substances in a simple manner and with high yields. Compared with previous techniques for removing plant toxic substances related to stacking decomposition fermentation, the technical plan of the present invention does not require microbial fermentation, biodegradation, and therefore does not exhibit growth characteristics. effects determined by microbial added value based on the increase in duration, the complete treatment cycle is reduced from 30~60 days of degradation cycle to 3~7 days, it is safe and high yield, its application is simple and practical, it makes it possible to considerably reduce the costs of recycling treatment of waste of plant origin, as well as to carry out at reduced costs the transformation of the very vast resources of waste of plant origin into substrate material, material or raw material of organic fertilizer, with a significant scope in solving the problem of environmental pollution of waste of plant origin.

The above constitutes only preferred embodiments of the present invention, it should be noted that the present invention is not limited to the forms disclosed in the present text, it should not be considered that other embodiments are excluded, it can be applied to other combinations, modifications and environments, and can, without departing from the scope of the present invention, be modified via the aforementioned teachings or knowledge or art of the field.

Claims (9)

Process for preparing recycled material from waste of plant origin, characterized in that: it comprises the following steps:
after being crushed, the waste of plant origin is mixed with water and a detoxifier to form a mixture, the recycled material is obtained after resting; said detoxifier comprises one or more ammonium salts or ammonia waters, the ratio of the dry weight of said waste of plant origin and the effective mass of the detoxifier is 100: 0.5-2, the effective mass of the detoxifier includes the mass of solute in the mass of ammonium salt and ammonia water. Process for preparing recycled material from waste of plant origin according to claim 1, characterized in that: the mixture is left to rest for 3 to 7 days. Process for preparing recycled material from waste of plant origin according to claim 1, characterized in that: said ammonium salt is one or more elements among ammonium carbonate, ammonium hydrogen sulfate, sulfate ammonium, ammonium chloride and ammonium nitrate. Process for preparing recycled material from waste of plant origin according to claim 1, characterized in that: the mass ratio of the dry weight of the waste of plant origin of said mixture and the mass of the water is 1: 2- 4. Process for preparing recycled material from plant waste according to claim 1, characterized in that: said detoxifier further comprises low acidity calcium salts, said low acidity calcium salts comprising one or more of carbonate calcium, calcium citrate, calcium fumarate and calcium alginate. Process for preparing recycled material from waste of plant origin according to claim 5, characterized in that: the mass ratio of ammonium salt and low acidity calcium salt is 1-3: 1. Process for preparing recycled material from waste of plant origin according to claim 1, characterized in that: said detoxifier further comprises humic acid. Process for preparing recycled material from waste of plant origin according to claim 7, characterized in that: the mass ratio of ammonium salt and humic acid is 1-3: 1. Use of the recycled material obtained by the process according to one of claims 1 to 8, as a cereal growing substrate, as an organic fertilizer, or as a raw material for preparing a substrate or organic fertilizer.