IT202300004890A1 - "TANK GROUP FOR STORAGE OF LIQUIDS" - Google Patents

Description

Description of the application for a patent for an industrial invention entitled: ?Tank group for the storage of liquids?

TECHNICAL FIELD

The invention relates to the technical field relating to the preservation of liquids, in particular food liquids.

Specifically, the invention concerns a tank group for the storage of liquids, in particular food liquids. The use of the tank group of the invention is particularly suitable for those food liquids in which an unsuitable storage would affect the high quality of the product, such as for example in the case of oil or wine.

The following description refers to this field of application for the sake of simplicity.

The tank group which is the subject of the present invention also represents an advantageous and simplified inerting system compared to currently known techniques which are essentially based on the inert gas nitrogen.

Furthermore, the tank group of the invention allows to effectively prevent the risk of fires, for example in the case where the liquid is flammable. Therefore, the use of the tank group of the invention is also suitable for flammable liquids, for example, olive oil, mineral oils, synthetic oils, fuels in general.

PREVIOUS TECHNIQUE

In general, food liquids, as well as non-food liquids (such as petroleum), are generally stored in tanks.

The preservation of liquid food products, such as oil, wine, is a very complex and expensive operation, which however is necessary to avoid chemical oxidation and deterioration of these products. In fact, these liquid food products, when in contact with air, can undergo alterations that can affect, inter alia, the characteristic organoleptic properties. An example of critical activities that expose these liquid food products to air are decanting operations.

To avoid these problems, it is well known that storage techniques are used in which oxygen and atmospheric air are replaced with inert gas, thus essentially implementing conservation in a controlled or modified atmosphere.

A known inertization method consists in introducing inert nitrogen gas into containers of food liquids in order to occupy the air space contained between the upper surface of the food product and the airtight lid to prevent oxidation of the product. The injection of nitrogen generally occurs through an orifice, while the evacuation of the atmosphere present generally occurs through a vent hole, usually located in the upper part of the system. For this purpose, the tanks are equipped with a valve for the introduction of nitrogen and an overpressure valve, the absence of which would result in the dispersion of nitrogen into the atmosphere. However, with particular reference to the overpressure valve, it is a very expensive element and requires great care when handling, as well as constant maintenance.

Tanks that use nitrogen to prevent the oxidation of the liquid, provide that for each discharge of the liquid, a nitrogen injection is made until the tank is saturated, otherwise in the case of filling the tank there is a dispersion of nitrogen into the atmosphere, equal to the volume of the liquid introduced.

In fact, for tanks that require continuous loading/unloading of the liquid, to save costs some manufacturers avoid the introduction of nitrogen. These systems are often used for the inertization of storage tanks outside, in an environment subject to the elements.

Therefore, there is a need for a solution that can overcome the above-mentioned technical problems and related disadvantages.

SUMMARY OF THE INVENTION

The requirement is met by a tank assembly in accordance with claim 1.

In fact, the Applicant has found a tank group that allows for the correct conservation of liquids, particularly foodstuffs, preferably oil and wine, thanks to a simplified system that allows for safe and more economical management of the conservation, and related loading and unloading operations, of the liquid of interest.

In particular, an aspect of the invention is a tank group for liquid storage, characterised in that it comprises:

- an argon supply container in fluid connection with an argon inert gas decompression unit through a first conduit;

- a tank, in fluid connection with said control unit, said tank comprising a lower part with an inlet hole for an inlet of said decompressed argon inert gas and an upper part comprising a free passage vent valve for an outlet of said decompressed argon inert gas; said tank being in fluid connection with said control unit through a second conduit, the second conduit comprising an automatic argon inert gas regulation valve; at least one porous candle arranged internally to said lower part and suitable for:

receive said decompressed inert argon gas through said first conduit;

introduce said decompressed argon inert gas into said lower part through said inlet hole.

Advantageously, the tank group of the invention allows for optimal preservation of liquids, especially food, preferably oil and wine, thus maintaining the high quality and characteristic organoleptic properties typical of the preserved product. In fact, the inertization achieved through the tank group according to the invention allows for the avoidance of chemical oxidation phenomena and deterioration of the liquid of interest.

Another advantage of the tank group according to the invention lies in the fact that, since it is a technical solution that operates at atmospheric pressure, the use of expensive overpressure valves at the head of the tank is not necessary.

Through the tank group of the invention it is possible to obtain conservation and integrity of the processing plants themselves, as well as their correct functioning, with respect to those phenomena linked to the presence of oxygen which, as is known, affect their integrity and functionality.

Furthermore, the inert gas argon is arranged in such a way as to prevent combustion in the case in which the liquid, whether food or non-food, is flammable. Therefore, in the case in which the liquid is flammable, such as in the case of olive oil, mineral oils, synthetic oils, fuels in general, the invention advantageously represents a valid solution also from the point of view of safety.

Further aspects, embodiments, characteristics and advantages will result from the embodiments reported in the following description, also in the form of examples.

Furthermore, the invention is also described in the claims whose definitions form an integral part of this description.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a schematic view of the tank assembly according to the present invention.

Fig. 2 is a schematic view of the tank assembly according to the present invention showing the inert gas argon ?cushion? that is formed and is interposed between the intra-tank atmosphere (in particular, ambient air at atmospheric pressure) and the liquid.

DETAILED DESCRIPTION

A liquid storage tank assembly (100) according to the present invention, shown in full in Figures 1 and 2, comprises, inter alia, an argon inert gas supply container (101), a control unit (102) and a tank (104).

The invention refers in particular to a tank group (100) for liquid storage characterised by the fact that it comprises:

- a container (101) for supplying inert argon gas in fluid connection with a control unit (102) for decompression of inert argon gas through a first duct (103);

- a tank (104), in fluid connection with said control unit (102), said tank comprising

a lower part (104a) of an inlet hole (105) for an inlet of said decompressed argon inert gas and an upper part (104b) comprising a free-flow vent valve (106) for an outlet of said decompressed argon inert gas; said tank (104) being in fluid connection with said control unit (102) through a second conduit (107), the second conduit (107) comprising an automatic valve (108) for regulating the argon inert gas; at least one porous candle (109) arranged internally to said lower part (104a) and suitable for:

receiving said decompressed argon inert gas through said first conduit (103); introducing said decompressed argon inert gas into said lower part (104a) through said inlet hole (105).

According to a preferred aspect, as regards the stored liquid, it can be a food liquid or a non-food liquid. Preferably, said liquid is a flammable liquid. Preferably, the food liquid is chosen from oil or wine. Preferably, the non-food liquid is chosen from mineral oils, synthetic oils or combustible oils in general.

According to a favorite aspect,

- the food liquid? chosen between oil or wine;

- the non-food liquid is chosen between mineral oils, synthetic oils or fuel oils in general.

In this text, especially in the summary and detailed description, the term inert gas argon may alternatively be referred to simply as inert gas or argon.

The inertization obtained through the tank group (100) according to the invention is based on the use of the inert gas argon. This inert gas is supplied to the tank (100) thanks to the use of the argon supply container (101) which guarantees the availability and supply of inert gas. The container (101) can be a gas cylinder, preferably a pressurized gas cylinder.

According to a preferred embodiment, the argon supply container (101) is in fluid connection with the argon inert gas decompression unit (102) through the first conduit (103), wherein the first conduit (103) is flexible.

According to another preferred embodiment, the tank (104) is in fluid connection with the argon inert gas decompression unit (102) through the second conduit (103), wherein the second conduit (103) is flexible or rigid.

Preferably, the control unit (102) is proximal to said argon supply container (101).

According to a preferred embodiment, the first conduit (103) and the second conduit (107) used in the tank assembly according to the invention are selected from a pipe, a sleeve or a combination thereof.

According to another preferred feature, the automatic argon inert gas regulation valve (108) is proximal to the tank (100).

As regards the introduction of inert argon gas into the tank (104), this operation takes place through the use of a porous spark plug (109) arranged internally in the lower part (104a) of the tank (104) and which allows the introduction of decompressed inert argon gas.

Preferably, the reservoir (104) contains a plurality of porous valves.

According to an alternative embodiment of the present invention, the tank (104) does not comprise the at least one porous candle (109). Preferably, the tank (104) is devoid of the at least one porous candle (109). According to a preferred aspect, as an alternative to the at least one porous candle (109), the admission of inert argon gas through the inlet hole (105) occurs through a free passage connection. According to another preferred aspect, as an alternative to the at least one porous candle (109), the admission of inert argon gas through the inlet hole (105) occurs with free passage.

According to a preferred embodiment, the tank 104 comprises at least one porous candle (109) and at least one free passage connection.

Advantageously, the use of one or more porous candles allows the introduction of inert argon gas, minimizing the formation of bubbles within the liquid contained in the tank. The argon is then introduced into the tank (104) by means of the microporous candle in a gentle manner through microbubbles. This allows the formation of an argon cushion between the atmospheric air and the food liquid stored in the tank (104).

According to another preferred embodiment, the tank assembly comprises a pressure transducer (111). Preferably, the tank (104) comprises a pressure transducer (111).

According to a preferred embodiment, the tank assembly comprises an electrical management panel (110). Preferably, the pressure transducer (111) is connected to the electrical management panel (110). Preferably, the automatic argon inert gas regulation valve (108) is connected to the electrical management panel (110). According to a further preferred embodiment, the automatic argon inert gas regulation valve (108) and the pressure transducer (111) are connected to the electrical management panel (110).

As previously reported, the inert gas used in the tank assembly according to the invention is argon, which has a higher specific weight than air. Advantageously, this allows the formation of an inert gas ?cushion?, which is placed between the intra-tank atmosphere (in particular, ambient air at atmospheric pressure) and the liquid. Unlike nitrogen-based inertization, it is therefore not necessary to introduce inert gas into the tank until the latter is saturated. Similarly, and again unlike nitrogen-based inertization, the inert gas cushion formed by argon does not require the introduction of inert gas into the tank or its dispersion into the atmosphere equal to the volume of liquid food introduced or discharged. In this way, the quantity of inert gas used and necessary to maintain an optimal degree of inertization is reduced compared to the quantity used in nitrogen-based inertization systems. For this reason, according to an advantage of the invention, the tank group (100), in particular the tank (104), does not include an overpressure valve, with significant advantages from an economic point of view. Therefore, according to a preferred aspect, the tank group (100), in particular the tank (104), does not include overpressure valves. For this reason, the constant maintenance that a overpressure valve generally requires is advantageously avoided, as well as particular attention by the operator who handles it.

A tank group has been described which allows the inertization necessary for optimal conservation of a liquid, preferably food liquid, more preferably oil and wine, to be achieved and which at the same time satisfies all the conditions for effective fire prevention.

The information provided in this text is intended for illustrative purposes only and is not limiting; therefore, the person skilled in the art will be able to understand that modifications can be made without departing from the scope of the present invention.

Claims (11)

1. Tank group (100) for liquid storage characterised in that it comprises: - a container (101) for supplying inert argon gas in fluid connection with a control unit (102) for decompression of inert argon gas through a first duct (103); - a tank (104), in fluid connection with said control unit (102), said tank comprising a lower part (104a) of an inlet hole (105) for an inlet of said decompressed argon inert gas and an upper part (104b) comprising a free-flow vent valve (106) for an outlet of said decompressed argon inert gas; said tank (104) being in fluid connection with said control unit (102) through a second conduit (107), the second conduit (107) comprising an automatic valve (108) for regulating the argon inert gas; at least one porous candle (109) arranged internally to said lower part (104a) and suitable for: receive said decompressed inert argon gas via said first conduit (103); introduce said decompressed argon inert gas into said lower part (104a) through said inlet hole (105). 2. Tank assembly (100) according to claim 1, wherein the liquid is a food liquid or a non-food liquid. 3. Tank assembly (100) according to claim 1 or 2, wherein the liquid is a flammable liquid. 4. Tank assembly (100) according to claim 2, wherein: - the food liquid? chosen between oil or wine; - the non-food liquid is chosen between mineral oils, synthetic oils or fuel oils in general. 5. Tank assembly (100) according to any of the preceding claims, wherein as an alternative to the at least one porous spark plug (109), the admission of inert argon gas through the inlet hole (105) occurs through a free passage connection. 6. Tank assembly (100) according to any of the preceding claims, wherein the first conduit (103) and the second conduit (107) are selected from piping, sleeve or a combination thereof. 7. Tank assembly (100) according to any of the preceding claims, wherein the automatic argon inert gas regulation valve (108) is proximal to the tank (100). 8. A tank assembly (100) according to any preceding claim, wherein the control unit (102) is proximal to said argon supply container (101). 9. Tank assembly (100) according to any of the preceding claims, wherein the first conduit (103) is flexible. 10. Tank assembly (100) according to any of the preceding claims, wherein the second conduit (107) is flexible or rigid. 11. A tank assembly (100) according to any of the preceding claims, wherein the tank assembly comprises a pressure transducer (111).