METHOD FOR OBTAINING A GROWTH MEDIUM FOR GROWING PLANTS, THE GROWTH METHOD AND THE INTERMEDIATE MIXTURE OF THE HOMOGENEOUS MATERIAL AND INCERATION ASH FOR INPLEMENTING THE METHOD FOR OBTAINING THE MEDIUM

Abstract

Method for obtaining a growth medium for growing plants comprising taking organic waste suitable to the plants to be grown, mixing it to obtain a homogeneous material and reducing its microbial activity, incinerating organic waste suitable to the plants to be grown to obtain ash, a source of minerals suitable for the cultivation of said plants, and incubating the homogeneous material with the ash to restart the microbial activity, initiating the mineralization of the material, and obtaining a ready-to-use growth medium.

Claims

1. Method for obtaining a growth medium for growing plants characterized in that one takes organic waste of plants selected as a function of their content in minerals in order to be adapted to the plants to be grown; it is mixed to obtain a homogeneous material and to reduce its microbial activity; the organic waste suitable to the plants to be grown is incinerated to obtain ash, a source of minerals adapted to the cultivation of said plants and said homogeneous material is incubated with said ash to restart said microbial activity, to initiate the mineralization of said material, and to obtain a ready-to-use growth medium.

2. Method according to claim 1, wherein the mixed waste and the incinerated waste are different.

3. Method of claim 2, wherein the incinerated waste contains animal waste.

4. Method according to claim 1, wherein said material is incubated with symbiotic microorganisms of the plants to be grown.

5. Method according to claim 1, wherein the organic waste is mixed to obtain pellets.

6. Method according to claim 1, wherein the mixing energy is produced by incineration.

7. Intermediate mixture for the implementation of the method of claim 1, of a homogeneous material with reduced microbial activity obtained by mixing organic waste of plants selected as a function of their content in minerals in order to be suitable to the plants to be grown and ash from the incineration of organic waste suitable to said plants.

8. Mixture according to claim 7, wherein the mixed waste and the incinerated waste are different.

9. Mixture according to claim 8, wherein the incinerated waste contains animal waste.

10. Mixture according to claim 7, wherein said material is incubated with symbiotic microorganisms of the plants to be grown.

11. Mixture according to claim 7, wherein the organic waste is in the form of pellets or in bulk in a sealed package.

12. Method for growing plants on a growth medium characterized in that: one takes the mixture of claim 7, the material of the mixture is incubated to restart the microbial activity, to initiate the mineralization of said material, and to obtain a ready-to-use growth medium and the plants to be grown are planted in said material.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0034] Organic wastes 7 and 10 are recovered and then sorted into classes according to the abundance in minerals (weight of the mineral with respect to the dry weight of the organic waste). For example, waste that is rich in iron, but has an intermediate content of potassium, phosphorus and nitrogen, or waste rich in phosphorus, but having an intermediate content of potassium, iron and nitrogen, will represent two distinct classes. The person skilled in the art knows well the mineral content of various organic compounds from plants or animals and is therefore able to select and assemble them into classes according to the requirements of the plants to be grown. Here, the organic waste 7 is sorted into a class 8, relatively rich in potassium, including tomatoes, zucchini and peppers. Other classes may be obtained from legumes (rich in nitrogen), cabbage (rich in iron), or waste from green areas (less rich in minerals) and mixtures thereof.

[0035] The organic wastes 7 and 10, and the sorted classes 8 and 11 may be either identical, depending on whether the waste is intended for incineration in a furnace 2 or mixed in a mixing unit (mixer) 6, or different. Here, the waste from tomatoes, zucchini and peppers to be incinerated is enriched with fish bones and bone marrow. Thus, these two classes 8 and 11 partially overlap.

[0036] It is therefore again provided that these wastes are different, the waste 10, intended for mixing, being exclusively from plants, whereas the waste 7, intended for incineration, or at least those of certain classes 8 which are derived therefrom, contain animal waste, richer in phosphorus.

[0037] The waste classes 8 intended for incineration are distributed here in the various compartments 3 of the furnace 2 to produce various classes of ash; here a class 9 is illustrated, for example, one resulting from waste from tomatoes, zucchini, peppers, fish bones and other bones. It should be noted that the furnace could comprise only one compartment, for the incineration of one class at a time.

[0038] A burner 1 initiates the combustion and the heat generated by the incineration of the waste is used here to (i) cause a moderate heating 4 of the mixer 6, which allows the waste to be partially dehydrated during mixing and (ii) to control the drive 5 of the mixing member 13 of the mixer 6. To this end, a turbine 14 and a motor 15 are mounted between the furnace 2 and the mixer 6, mounted here on the shaft 16 of the mixing member 13, here a screw.

[0039] A waste class 11 intended for mixing is mixed so as to reduce the activity of the microorganisms. Here, pellets 12 are obtained. This simplifies the logistics, allows a better control of the residual water content, and hence an effective reduction of microorganism activity. The products coming from the mixer 6 may be prepared in other forms, such as granules or an amorphous powder, provided that the activity of the microorganisms is reduced therein.

[0040] This may be achieved through proper packaging, for example, impervious to water to prevent rehydration or atmospheric gases and enclosing an inert atmosphere, to inhibit the metabolism of these microorganisms.

[0041] When the growth medium is to be used, the pellets 12 are incubated, here in the presence of water and a class of ash 9 from incineration. The activity of the microorganisms that were present resumes. The microorganisms multiply and initiate the mineralization of the pellets 12. It is also possible to add exogenous microorganisms to those present in the mixed material, for example microorganisms which will have a positive effect on the plant growth, such as microorganisms establishing symbiosis in the roots of the plant.

[0042] The growth medium of the present application may be defined as an organic material which has been mixed and which has a porosity suitable for the development of the roots of the plants to be grown. This growth medium must be incubated in order to restart the activity of the microorganisms present, here also with water, ashes resulting from incineration and exogenous microorganisms.

[0043] As for the adaptation of organic waste to the plants to be grown, reference is made to organic waste sorted according to the nutritional requirements of the plants to be grown; it is possible that one type of waste, taken in isolation, is not suitable to the plants' growth, but a mixture of waste containing this unsuitable waste is well suited. Thus, the product obtained during mixing will have a mineral content which will be determined according to the normal needs of the plants to be grown, depending on the variety to be grown, while the incineration ash will have a mineral content that may vary to some extent, for example to meet the increased needs of plants during critical phases of their development, such as germination or fruiting. Part of the organic waste may be of the same species as that of the plants to be grown.

[0044] Even if the ashes suitable for the plants' growth may, to a certain extent, compensate for a mineral content of the product obtained during mixing which is slightly insufficient, the applicant has noticed that a culture on a medium lacking in minerals was poorly compensated by the addition of ash, while the total omission of ash for the benefit of a culture on a finely selected growth medium resulted in a sharp loss of productivity of the culture. Thus, according to the present invention, both the product resulting from mixing and the ash must be suitable for the plants' growth.

[0045] Mixing results in a product with reduced microbial activity that is homogeneous, i.e. to say that different biological wastes can no longer be identified or isolated at the end of the mixing step.

[0046] The reduced microbial activity is that of a composition wherein either the capacity of the microorganisms to multiply, or their capacity to break down biomolecules, or their ability to release mineral elements from the mixed material, is reduced. For the activity to be reduced, at least one of the above three parameters must be reduced by at least 50%, preferably at least 75%, and even at least 90%.

[0047] The reduction of microbial activity provides a liquid, loaded with mineral salts and water, which may be used later to rebalance the nutrient requirements of the plants according to the stage of their growth and the activity of microorganisms.

[0048] The microbial activity is first reduced because of the mixing step, then restarted, which means that the microbial activity present in the material that is mixed and then incubated is greater than that present in the organic material after only the mixing step. Thus, the incubated material will advantageously have at least 75%, preferably at least 80%, or even at least 90% of the initial microbial activity, this parameter being preferably obtained without the addition of exogenous microorganisms.