FR2874022A1 - COMPOSITION FOR FIXING PULVERULENT AND / OR GRANULAR PARTICLES - Google Patents

Abstract

The invention relates to a composition intended for fixing powdery and / or granular particles belonging in particular to sloping embankments, cliffs, scree, mine heaps, piles of sand or sheaths, tracks or roads. according to the invention is characterized in that it contains at least one biopolymer of plant, animal and / or microbial origin, chosen for its binding properties or for its sticky properties and in that it is sprayed so as to fix said particles over a thickness of said mass determined as a function of the nature thereof.

Description

COMPOSITION FOR FIXING PARTICLES

PULVERULENTES ETIOU GRANULES

DESCRIPTION

  FIELD OF THE INVENTION The invention relates to a composition intended for fixing pulverulent and / or granular particles belonging in particular to steep slopes, cliffs, scree, mine heaps, sand or seed heaps, tracks or roads.

BACKGROUND TECHNOLOGY

  The known compositions using biopolymers mixed with water are intended to stick seeds in the context of sodding. The seeds are premixed with said compositions and then sprayed on the surfaces to be sodded.

  The qualitative and quantitative compositions and the aims pursued are different from those which are concerned with the fixing of the particles constituting specific masses in order to protect them, for example against the wind.

  Known compositions using synthetic polymers blended with solvents are intended to protect soils or surfaces in the context of erosion control.

Claims (1)

The qualitative and quantitative compositions and the aims pursued are also different from those which are concerned with the fixing of the particles constituting specific masses in order to protect them, for example against the wind. SUMMARY OF THE INVENTION The object of the invention is to provide a composition of the kind in question designed to implement an unprecedented and effective solution capable of solving the problem of fixing particles that can be blown away by the wind. Its formulation comprising at least one polymer of natural origin, makes it a product particularly respectful of the environment and human health. These substances act, when they are mixed, in synergy and make it possible to obtain a fixer with a very high covering, sticky and binder power which can be used in the treatment of various substrates. This process significantly reduces the emission as well as the dispersion of the dust. The reaction with the substrate is mechanical, so there is no denaturation of the treated products. The composition in question also makes it possible to combat erosion by fixing soil and sediments. In addition, it is easy to implement and economical. Dust emissions of various origins, but especially those resulting from certain industrial activities such as the mining and quarrying sector, open-air storage sites or natural sites such as coastal dunes have led to the development of a treatment of these nuisances. Indeed, these phenomena of dusting generate concerns such as the protection of staff and surrounding populations, respect for the environment but they also have consequences for certain economic activities (tourism in particular). On the other hand, in the mining sector for example, stocks of powdered ores can be reduced by the effect of the wind, which carries away many particles. This represents a significant economic impact and it therefore appears necessary to protect these stocks. Ecotoxicity criteria have been defined so that the use of this preparation does not pose any danger to the environment. The composition according to the invention is essentially characterized in that it contains at least one biopolymer of plant, animal and / or microbial origin, chosen for its binder properties or for its sticky properties and in that it is sprayed in such a way that fixing said particles to a thickness of said mass determined according to the nature thereof. It is characterized more particularly in that: the basic biopolymer used is an alginate belonging to the family of polymerized natural carbohydrates or a starch belonging to the family of modified starches; it is mixed with a solvent chosen in particular from water, glycols or glycerols; it can be mixed with oils of vegetable, animal or mineral origin and more particularly drying oils such as linseed oil; it may be mixed with surfactants of the emulsifying types chosen especially from mono, di or tri-glycerides and their derivatives or from voltage reducers; - It is mixed with additives of the preservative types, including food, or natural dye. The features and advantages of the invention will appear more clearly on reading the following detailed description of at least one preferred embodiment thereof given by way of non-limiting example. DETAILED DESCRIPTION OF THE INVENTION The composition according to the invention is a liquid formulation with a viscous appearance. Its development consisted initially of a very selective choice of the raw materials used in its formulation, on the one hand to obtain an optimal efficiency while providing an economic solution of treatment, on the other hand according to the safety of entrants to the environment and users. The solvent used may be of various origin or be a mixture of solvents. Preferably, water will be used which has the advantage of dissolving the polymers used and its safety, but solvents such as for example glycols and glycerols may also be used. They have the ability to adjust the hardness of the films formed by the composition when the product dries. The solute consists of one or more biopolymers of various kinds: vegetable: extracts of algae (alginates, carrageenans, agars, ulvans); flours and seed extracts (galactomannans, carob, guar, native and modified starches); tuber extracts (native and modified starches, konjac); fruit extracts (pectins); exudates from plants: gums (tragacanth, arabic, etc.); cellulosic fibers and cellulose derivatives; concentrates and protein isolates; - animal: gelatin, caseinates, whey protein, egg proteins; - microbial: xanthan gum, gellan gum. The nature of natural polymers consists of a chain of carbohydrate or protein units. These chains may or may not be branched and they may also carry groups of different natures which will influence their binding capacities. These are water-soluble macromolecules capable of binding a significant amount of water. The amount of water fixed varies according to the length of the molecules but also their rigidity and their possibilities of association. Preferably, extracts of algae are incorporated: alginates (brown algae), carrageenans and agar (red algae), ulvans (green algae). More particularly, alginate is used. As constitutive mucilage polysaccharides of brown algae walls, alginates are extracted mainly from laminar algae first of all in the form of alginic acid which is then transformed into alginates of different forms (sodium, calcium, ammonium, potassium). Specifically, it is a series of units of mannuronic acid and guluronic acid. These are texturizing agents (thickeners or gelling agents according to the forms) used in various fields (food, cosmetics, pharmaceutical, technical, etc.). The desired functions are solubility in water and the binding effect. Other biopolymers may be associated depending on the characteristics (tacky and / or binder or even covering) and the end use sought. Their choice may be focused on their possible synergistic effect. Indeed, when certain polymers are combined, they exhibit a synergistic effect which results in particular in a strengthening of the colloidal strength and a reduction of syneresis phenomena (example: carrageenans / locust bean gum, xanthan gum / locust bean gum). The binding power of the composition with its substrate can be adjusted according to the degree of polymerization of the biopolymers used and the groups carried by the side chains. It is possible to control the polymerization of this product by enzymatic, thermal or ionizing treatments (electrical or radioactive source). When these polymers are subjected to the treatments mentioned above, their chains are partly broken. This results in a structure modification with shorter chains and thus a less polymerized product that can make more connections with its substrate. The second type of component that can be incorporated are the oils, and this in particular to improve the film forming capabilities of the final product. The oils are divided into three distinct categories according to their origin: vegetable, animal and mineral oils. Preferably, vegetable oils, and especially those having film-forming properties, that is to say drying oils such as linseed oil, will be used. The vegetable oils consist of tertiary glycerol esters resulting from the combination of glycerin (trihydric alcohol) with three molecules of a straight-chain monoacid having a chain of 14 to 20 carbon atoms. They result from the development by metabolism of certain so-called oleaginous plants, of reserve fats that accumulate in the seeds from which they are extracted. The natural film-forming power characteristic of drying oils is of chemical origin. This property belongs to triglycerides containing unsaturated fatty acids and especially polyethylenic (that is to say several times unsaturated), which spontaneously oxidize in the air. This autoxidation leads to unstable peroxidized compounds which combine two by two. A three-dimensional macromolecular network is formed. Thus, in the open air, a drop of drying oil gradually gains in viscosity then passes to the state of colloidal gel, which gradually becomes solid and hard: it is the film of oil. The incorporation of surfactants may make it possible to improve the characteristics of the product (spreading, retention, control of the viscosity, etc.), and in particular in cases where oils are incorporated (emulsion, stabilization). These additives may be for example surfactants such as emulsifiers (especially mono, di or triglycerides and their derivatives having good ecotoxicological characteristics) or voltage reducers. In addition to their water / oil phase stabilization function, emulsifiers have other functionalities such as complex formation with starch and proteins, coating and viscosity control. Moreover, this preparation has an organic nature. It is therefore necessary to protect it from attack by bacteria and mold by the incorporation of a preservative. Preferably, a food preservative will be selected. It is also possible to color it and one will prefer to use a natural dye. Since the composition is intended in particular to be spread in the environment, it was essential to carry out toxicity tests. In addition, in certain markets, the use of stabilizing or anti-dust additive products has been subject to certain obligations and guarantees. These include the quality of the products used. The products used should therefore be non-toxic, non-polluting, biodegradable and natural. The composition is used by simple dilution with water. The dilution is to be performed according to the desired final efficiency. The solution of the composition is then sprayed or misted on the substrate to be treated according to the technology used and this generally at a dose of 5 liters / m 2. It uses a long range spray gun (vertical projection up to 40m and horizontal projection up to 80m). placed on the tray of a 4x4 vehicle. This gun is remotely controlled from a driving position of the carrier vehicle. It is completed by a rear irrigation ramp for the treatment of roads, roads, etc. During its spraying on the substrate, the composition coats the particles and then binds and glues them one by one. On drying, the product forms a solid, breathable film that shrinks around these particles and holds them in place. According to quantitative characteristics of the composition according to the invention: the biopolymers are mixed with the solvent in proportions of less than 10% of the total weight of the composition; the vegetable oils are mixed with the biopolymers and the solvent in proportions of less than 10% of the total weight of the composition; the surfactants are mixed with the biopolymers, the solvent and the vegetable oils in proportions of less than 10% of the total weight of the composition; the additives are mixed with the biopolymers, the solvent, the vegetable oils and the surfactants in proportions of less than 2% of the total weight of the composition; the composition obtained is used diluted in water in proportions of between 10 and 30% for the composition and 90 to 70% for water. Of course, the invention is not limited to the embodiments described and shown for which other variants may be provided, in particular in the choice and relative proportions of biopolymers, solvents, oils, surfactants and additives used in the composition and extend to other applications, without departing from the scope of the invention. 7 CLAIMS   1- Composition intended to fix powdery and / or granular particles belonging in particular to steep slopes, cliffs, scree, mine heaps, piles of sand or ducts, tracks or roads; characterized in that it contains at least one biopolymer of vegetable, animal and / or microbial origin, chosen for its binding properties or for its tacky properties and in that it is sprayed so as to fix said particles to a thickness of said mass determined according to the nature of these.   2- Composition according to claim 1, characterized in that the base biopolymer used is an alginate belonging to the family of polymerized natural carbohydrates or a starch belonging to the family of modified starches.   3. Composition according to claim 1 or 2, characterized in that it is mixed with a solvent selected from water, glycols or glycerols.   4- Composition, according to claim 1 2 or 3, characterized in that it is mixed with oils of vegetable, animal or mineral origins and more particularly drying oils such as linseed oil.   5. Composition according to claim 4, characterized in that it is mixed with surfactants of emulsifying types chosen especially from mono, di or tri-glycerides and their derivatives or voltage reducers.   6. Composition according to any one of claims 1 to 5, characterized in that it is mixed with additives of preservative types, including food, or natural dye.   7- composition according to claims 1, 2 and 3, characterized in that the biopolymers are mixed with the solvent in proportions less than 10% of the total weight of the composition.   8- Composition according to claims 1, 2, 3 and 4, characterized in that the vegetable oils are mixed with the biopolymer or the solvent in proportions less than 10% of the total weight of the composition.   9- composition according to claims 1, 2, 3, 4 and 5, characterized in that the surfactants are mixed with biopolymers, solvent and vegetable oils in proportions less than 10% of the total weight of the composition.   10- composition according to claims 1, 2, 3, 4, 5 and 6, characterized in that the additives are mixed with biopolymers, solvent, vegetable oils and surfactants in proportions of less than 2% of the overall weight of the composition.   11- Composition according to any one of the preceding claims, characterized in that it is used diluted in water in proportions of between 10 and 30% for the composition and 90 to 70% for water.