SU581887A3 - Method of storing liquid product - Google Patents

Description

The invention relates to a low-temperature technique and concerns a method for storing food products used in industry in a gaseous form. There is a known method of storing a liquid product for subsequent supply in a gaseous internal gas into the medium whose pressure is less than the storage pressure. A disadvantage of the known method of storing a liquid product is that when the storage chamber is filled with a porous material, the useful volume of the storage chamber for the liquid with an open cellular structure is sharply reduced. There are also known methods for 51 storing a liquid product in an environment of a foam polymer with an open cellular structure, for example, polyurethane foam (polyurethane foam). When a liquefied product is introduced under pressure, this foam material is impregnated with a liquid like a sponge, compressed and thus has a mechanical effect, due to elasticity, at the time of the distributed product. At the same time, the amount of stored product is close to the amount of the same product, which would be stored in the same tank without using foam material with an open cellular structure. However, such a storage method does not eliminate the auxiliary pressure reduction systems, as a result of which it can never be successfully used in practice, for example, for feeding gas lighters from a gas cylinder with a combustible liquefied gas. The purpose of the invention is to increase the useful volume and stability of the liquid, eliminating auxiliary devices for reducing the pressure of gases. For this, the liquid product is stored in the reservoir in the presence of. solid polymer, with respect to which it is a filling solvent. The polymer can be used foam with a closed cellular structure. Some liquid products behave with respect to some polymers as filling solvents, i.e., as solvents causing the elastomer to be filled with an effect on intermolecular bonds (or "bridges) between the chains without causing complete dissolution of the polymer that the effects of the above-mentioned filling solvent become gel-like, but restore all their initial properties after the removal of the above-mentioned liquid product.

Polymers having this property have been extensively described, for example, cross-linked polymers, which, without these cross-links, would dissolve in the solvent in question, but be filled with these bonds, forming a gelatinous product until Osmotic forces balance the elastic stresses of the system. Bridges between the chains of polymers can be made using covalent bonds, coordination ionic bonds, or hydrogen strains.

The polymers used should have a solubility that is maximally ± 2.0, and most preferably ± 0.5 times the same parameter of the stored product being considered. At the same time, the transition temperature to the glassy state of these polymers should be no higher than 50 ° C.

Thus, for example, organosilicon compounds (polyorganosiloxanes) having a solubility parameter of 7.3 can be used when storing liquefied butane, the solubility parameter of which is 6.75.

Placing in the storage tank together with a liquefied product a solid polymer, in relation to which this product behaves as a filling solvent, we obtain a gelatinous substance, which has the important property of releasing the stored product only in gaseous form at the moment of its transfer to a medium with a lower pressure, than in a storage tank. The presence of a gelatinous substance makes it possible to use the reservoir in the form of both mobile and stationary.

By selecting the stored liquid in gaseous form, it is not possible to use devices designed to transfer the liquid to the gaseous state.

Studies to determine the amount of liquid that can be stored in a tank without any additions or in a tank containing porous material, or in a tank containing solid polymer, have shown that the proposed method allows storing the largest quantities of liquefied products, all other things being equal.

The proposed storage method has a very wide application, for example, in such devices using stored gas as fuel, such as lighters, gas light lamps or gas heating devices that use liquefied hydrocarbons as fuel, namely, paraffin hydrocarbons: butane, propane, pentane or similar, in pure form or mixed.

The method is also applied in devices for transportation over long distances.

liquefied hydrocarbons, the value of which is increasingly increasing, by means of vehicles equipped with tanks, or vessels such as tankers for transporting liquefied methane. In addition, a method of storing liquefied hydrocarbons on vehicles with internal combustion engines is used to provide them with power. Substitutable hydrocarbons can be used instead of liquid hydrocarbons, whose combustion generates a much larger amount of harmful substances (products of incomplete combustion, carbon monoxide, etc.), so as not to pollute the atmosphere.

In addition, liquefiable hydrocarbons can be used for distribution in gaseous form in the surrounding atmosphere, for example, in deodorants or insect control products.

For storage of liquefiable hydrocarbons, stored in a liquid state and intended for distribution in a gaseous form, polymers are used that are selected from seven large groups: organosilicon compounds — polyorganosiloxanes (called silicones); natural (latex) or synthetic polyisoprenes; cross-linked polyolefins obtained by radiation or peroxides; cross-linked polyalkylstyrenes; block polymers, at least one of the components of which has a maximum mutual solubility with a solvent; polymetnes; butyl rubbers with weak transverse bonds between the chains.

The polymer used may be introduced in solid form into a storage tank. It is obvious that the polymer can be polymerized "in place in the storage tank, pre-filled with the stored product in a liquid state, intended for distribution in a gaseous form.

Claims (2)

1. A method of storing a liquid product in a tank for subsequent supply in a gaseous form to a medium whose pressure is below the storage pressure, characterized in that, in order to increase the useful volume and stability of the liquid, the liquid product is stored in the tank in the presence of solid polymer to which it is a filling solvent. 2. A method according to claim 1, characterized in that the polymer used is a foam with a closed cellular structure.