RU2264129C1 - Method for aromatizing of vegetable oil with smoking liquid, oil with smoking aroma and apparatus for effectuating the same - Google Patents

Abstract

FIELD: food-processing industry.

SUBSTANCE: method involves mixing vegetable oil with smoking liquid, followed by separation of resultant emulsion, with smoking liquid having density of 1.002-1.090 g/cm³ being used in the process, and with smoking liquid-vegetable oil ratio making 1:10-10:1; performing separation of emulsion by sequential filtration procedure including extraction of basic amount of aqueous phase, separating it from oil phase, and catching residual amount of finely dispersed aqueous phase from oil. Apparatus has feeding reservoirs containing vegetable oil and smoking liquid, reservoir with mixer for producing of emulsion, heat-exchanger, phase separator, aromatized oil and water collecting reservoirs. Apparatus is further furnished with filters, one of said filters being disposed between heat-exchanger and phase separator and other filter being arranged between phase separator and oil collector. Emulsion reservoir and phase separator are arranged at different levels in vertical plane.

EFFECT: improved organoleptical properties and increased sanitary-and-hygienic qualities of vegetable oil aromatized with smoking liquid, and reduced expenses for manufacture of apparatus.

6 cl, 1 dwg, 5 ex

Description

The invention relates to the production of smoked flavor food products and can be used in the fish and meat industries, as well as in the manufacture of food at home.

Since ancient times, smoking has been a common method of preparing meat and fish products. Initially, smoking of food products was carried out by treating them with smoke obtained from incomplete burning of wood, which is very inefficient due to the impossibility of stably obtaining a large amount of equally flavored products. The disadvantages inherent in traditional smoking can be avoided by using smoking preparations, in particular smoking fluids of a certain composition and not containing chemicals harmful to humans, such as polycyclic aromatic hydrocarbons, in particular benzapyrene, which is a carcinogen. Smoke liquids can be obtained by various methods described in the technical literature, for example [1] and patents, in particular, saturation of water with hardwood pyrolysis products to the required density [2]. In the manufacture of products, in particular fish products, such as "Smoked fish in oil", "Sprats in oil", it was found that most smoke preparations do not dissolve in vegetable oil - preserves, which led to the use of oil exposed to contact with the solution of the smoke preparation for example, by stirring, followed by settling, and resulting in a smoke-flavored oil. Moreover, the quality of the finished product depends on the composition of the used smoking product [1].

Known technical solutions in which methods of aromatizing oil with smoke liquid are presented.

Thus, there is a known method of producing smoke-flavored vegetable oil in order to obtain seasoning for food products to give them a smoked flavor, in which flavored oil is obtained by introducing atomized edible oil into the smoke circulation zone, followed by its condensation. Direct contact of smoke with oil allows you to quickly create a high concentration of aromatic components in the oil [3].

A significant disadvantage of this method is that aromatic, polycyclic hydrocarbons with general and carcinogenic toxicity pass into the oil.

In a method for producing a flavoring mixture for food, it is proposed to extract aromatic components into oil in the presence of fat mono- and diglycerides to increase the degree of extraction of the components [4].

However, improving emulsification leads to difficulties in clarifying the emulsion.

There is also known a method for producing a transparent flavored oil, in which a smoke preparation is preliminarily obtained in the form of a CO ₂ extract of pyrolysis wood, in which the presence of water is excluded and which is then added to the oil in a predetermined amount [5]. However, this process is technologically complex and requires special equipment for the extraction of oil with liquid CO ₂ under pressure, as well as equipment for the regeneration of CO ₂ . In addition, liquid CO ₂ is a solvent for polycyclic hydrocarbons, an excessive amount of which is unacceptable in food products.

Known for the closest achievable result is a method of aromatizing vegetable oil with smoke liquid, in which it is proposed to carry out the extraction of smoke aromatic substances by mixing the oil with an aqueous smoke solution, first mechanically, and then using ultrasonic vibrations, followed by separation of the emulsion [6].

The disadvantages are the complexity of the equipment used (ultrasonic generator, centrifuge), the long time required to separate the emulsion due to the difficulty of separating finely dispersed drops of water, the presence of which in the oil changes its color, which means it does not have the proper presentation and is mainly used for making canned fish and preserves.

In a known installation for aromatizing vegetable oil, aromatization is carried out by contacting the oil with the entire amount of smoke components dissolved in liquid carbon dioxide, which results in an oil that is not purified from harmful impurities.

So, the installation for aromatization of oil contains connected in a closed loop pyrolysis chamber, an evaporator and a condenser, sources of supply of vegetable oil and liquid carbon dioxide, while aromatization occurs in the evaporator, which is made in the form of a drum mounted in a partitioned housing, on the inner surface of the drum serves vegetable oil, and on the outside - CO ₂ micelle of pyrolysis wood [7].

The disadvantage is that liquid CO ₂ is a solvent for polycyclic hydrocarbons that are absolutely undesirable in production, as well as the complexity of the equipment, due to the need to work under high overpressure, requiring increased safety measures during its operation.

Closest to the proposed one is a device for carrying out a method of aromatizing vegetable oil with smoke liquid [6], in which the emulsion is mixed and heated in a tank using special mixers or ultrasonic generators, and the emulsion is separated into aqueous and fat phases in a centrifuge.

The disadvantage is the use of sophisticated expensive equipment and, in addition, does not provide a transparent oil phase.

The proposed inventions solve the problem of obtaining vegetable oil aromatized with smoke liquid with high organoleptic and sanitary-hygienic indicators, as well as reducing the cost of creating an installation for producing oil by eliminating expensive equipment.

To obtain such a result in the proposed method of aromatization of vegetable oil with smoke liquid by mixing them, followed by separation of the emulsion obtained into oil and water phases according to the invention, the oil is saturated with aromatic substances to the required organoleptic characteristics using smoke liquid of different densities and changing the volume ratio of smoke liquid and oil, and the emulsion is separated by sequential filtration, the bulk of the aqueous phase is recovered, lyayut it from the oil phase, followed by capture of a residual amount of oil finely dispersed aqueous phase.

The use of an aqueous solution preliminarily saturated with smoke components allows to get rid of the main amount of polycyclic hydrocarbons at the stage of smoke production and thereby prevent their entry into the oil in an unacceptable amount.

At the same time, oil smoke with a density of 1.002 ÷ 1.090 g / cm ^{3 is} used to flavor the oil.

Moreover, the ratio of components (smoking liquid: oil) is selected at a rate of 1: 10 ÷ 10: 1.

By changing the density of the smoke liquid and the ratio of the components (smoke liquid: oil), it is possible to obtain oil with the aroma of smoke in a wide range, as well as various colors and tastes.

The process of mixing oil with smoke liquid is carried out at a speed of 45 ÷ 90 rpm for 1 ÷ 60 minutes at an ambient temperature of 15 ÷ 50 ° C.

Changing the mixing speed does not significantly affect the stability of the emulsion, but heating it above 50 ° C reduces its stability and the content of volatile smoke components in the oil.

The temperature of the oil sent to the second stage of filtration is maintained within 15 ÷ 50 ° C

An oil temperature of less than 15 ° C increases its viscosity and reduces the productivity of the process, and at temperatures above 50 ° C the solubility of water in oil increases, which can be released from the oil upon cooling and impair its organoleptic properties.

Moreover, after the first stage of filtration, oil is obtained, which still contains fine particles of water, which give it a certain turbidity, and is suitable for use only as preserves, although it meets hygienic requirements for the quality and safety of food raw materials. The second stage of purification allows you to get a transparent, smoke-flavored oil of the highest quality.

The problem is also solved by the fact that in the device for aromatization of vegetable oil containing containers with the original oil and smoking liquid, a container with a stirrer to obtain an emulsion, a heat exchanger, a phase splitter, aromatic oil and water collections, according to the invention, filters are installed, one of which is installed between a heat exchanger and a phase splitter, and a second fine filter is installed between the phase splitter and the oil collector, while the container with the emulsion and the phase splitter are spaced apart in height.

The filters are made in the form of chambers filled with any porous material, such as sand, sawdust, fabric materials.

The drawing shows a block diagram of a device for producing flavored smoke liquid oil.

The proposed method is carried out in the following sequence.

At the first stage, the smoke liquid obtained by saturating the water with hardwood pyrolysis products is mixed with vegetable oil (sunflower, corn, mustard, etc.) at a speed of 45 ÷ 90 rpm, while heating the emulsion to 30 ÷ 50 ° C, and direct her to filter. In the second stage, the separation of the aqueous and oil phases is carried out.

In this case, the aqueous phase is discharged periodically or continuously, the oil phase is diverted to fine filtration in order to trap the residual amount of dispersed water, and then the oil enters the receiving tank, and the emulsion, water, oil come by gravity.

The invention is illustrated by examples of its specific performance.

EXAMPLE 1

One volume part of the smoke liquid obtained by saturating water with hardwood pyrolysis products to a density of 1.09 g / cm ³ , in accordance with the patent [2], is mixed with ten parts of vegetable oil (sunflower, corn, mustard, etc.) for 10 ÷ 60 minutes in the mixer with a stirrer speed of 45 ÷ 90 rpm The resulting emulsion is heated to 30 ÷ 50 ° C and sent to a coarse filter, and then divided into aqueous and oil phases in a phase splitter, while the oil fraction is taken to a second filter and then to the collector. The temperature of the oil sent to the second filter is maintained within 15 ÷ 30 ° C.

The resulting oil has the following indicators:

Acid number, mg KOH mg / g 1.7 Mass fraction of phenolic substances (in terms of guaiacol),% <0.1 Mass fraction of carbonyl compounds (in terms of furfural),% <0.1 The content of benzapyrene, mg / kg <0.001

The oil has a delicate aroma of smoke, a pleasant taste, the color differs little from the original.

EXAMPLE 2

One part of smoke liquid with a density of 1.084 g / cm ^{3 is} mixed with one part of deodorized vegetable oil. The emulsion is separated as described in example 1.

The resulting oil with the aroma of smoking has the following indicators:

Acid number, mg KOH / g 4,5 Mass fraction of phenolic substances (in terms of guaiacol),% 0.5 Mass fraction of carbonyl compounds (in terms of furfural),% 0.4 The content of benzapyrene, mg / kg <0.001

The resulting oil has a sharp aroma of smoking, has a bitter aftertaste.

EXAMPLE 3

Ten volume parts of smoke liquid with a density of 1.084 g / cm ^{3 are} mixed with one part of deodorized vegetable oil. After separation of the emulsion receive oil with the following indicators:

Acid number, mgKOH / g 7.5 Mass fraction of phenolic substances (in terms of guaiacol),% 0.8 Mass fraction of carbonyl compounds (in terms of furfural),% 0.6 The content of benzapyrene, mg / kg <0.0012

The oil has an overly pungent smell of smoking, a clearly bitter taste. The color is amber.

Blending with the original oil normalizes all organoleptic characteristics.

EXAMPLE 4

One volume part of the smoke liquid, saturated to a density of 1.040 g / cm ^{3 is} mixed with three parts of deodorized vegetable oil and after separation of the emulsion, as described in example 1, an oil with the following characteristics is obtained:

Acid number, mg KOH mg / g 3.2 Mass fraction of phenolic substances (in terms of guaiacol),% 0.3 Mass fraction of carbonyl compounds (in terms of furfural),% 0.25 The content of benzapyrene, mg / kg <0.001

The resulting oil has a pronounced aroma of smoking, transparent and has an amber color.

EXAMPLE 5

Ten volume parts of smoking liquid with a density of 1.002 g / cm ^{3 are} mixed with one part of deodorized vegetable oil. After separation of the emulsion (example 1) receive oil with the following indicators:

Acid number, mg KOH mg / g 0.3 Mass fraction of phenolic substances (in terms of guaiacol),% <0.1 Mass fraction of carbonyl compounds (in terms of furfural),% <0.1 The content of benzapyrene, mg / kg not determined

The oil has a very mild smoke aroma. The color of the oil is practically no different from the original.

The use of smoke liquid oil as a flavoring agent, in particular obtained according to the patent given in Examples 1-5, makes it possible to obtain oil with improved sanitary and hygienic characteristics.

The proposed device for producing flavored smoke liquid oil contains (see drawing) a container 1 with vegetable oil, a container 2 filled with smoke liquid, a supply tank 3 with an emulsion, a heat exchanger (heater) 4, a coarse filter 5 with filler 6, phase separator 7, fine filter 8 with filler 6, a clarified oil collection 9, a valve 10, an aqueous phase collection 11. In this case, filters 5 and 8 can be made in the form of chambers filled with any porous material, such as sand, sawdust, and fabric materials.

The device operates as follows.

Vegetable oil and smoking liquid from tanks 1 and 2 are supplied to the supply tank 3 in a predetermined ratio, which are mixed with a mixer at a speed of 45 ÷ 90 rpm for 10 ÷ 60 minutes, then the resulting emulsion is heated to 30 ÷ 50 ° C in a heat exchanger 4 and is sent to the coarse filter 5, and then enters the phase splitter 7, where it is divided into water and oil phases. The oil separated in the phase separator 7, containing 0.3 ÷ 0.1% water, enters the second filter 8. Then the clarified oil is discharged into the container 9. The separated water is discharged periodically or continuously through the lower valve 10 into the collector 11.

An additional advantage of the proposed technical solution is that the whole process of obtaining flavored oil is by gravity, which is ensured by the separation of the tank 3 with the emulsion and the phase separator 7 to a height h.

Thus, the proposed method and device allows to obtain at a minimal cost flavored smoke liquid vegetable oil with high organoleptic, sanitary and hygienic indicators, improved consumer properties and a long shelf life.

Sources of information

1. Kurko V.I. Smokeless smoking basics. - M., "Light and food industry." - 1984. - 228s.

2. RF patent No. 2077209, cl. A 23 B 4/044, 1997

3. US Patent No. 3152914, cl. 99-140, 1964

4. US patent No. 4118519, CL 426/533, 1978

5. RF patent No.2001575, cl. A 23 B 4/044, 1993

6. RF patent No. 2130725, cl. A 23 B 4/044, 1999

7. RF patent No. 2090071, cl. A 23 B 4/048, 1997

Claims (6)

1. The method of aromatization of vegetable oil with smoke liquid by mixing them and subsequent separation of the emulsion obtained, characterized in that the oil is saturated with aromatic substances using smoke liquid with a density of 1.002-1.090 g / cm ³ and with a ratio of smoke liquid: vegetable oil - 1:10 -10: 1, and the emulsion is separated by sequential filtration, the main amount of the aqueous phase is extracted, it is separated from the oil phase, and then the residual amount of the finely dispersed aqueous fa is captured from the oil s. 2. The method according to claim 1, characterized in that the process of mixing the oil with smoke liquid is carried out at a speed of 45-90 rpm for 1-60 minutes at an ambient temperature of 15-50 ° C. 3. The method according to claim 1, characterized in that the temperature of the oil sent to the second stage of filtration is kept within 15-50 ° C. 4. Vegetable oil with the aroma of smoking, characterized in that it is obtained by the method according to claims 1 to 3. 5. Installation for aromatization of vegetable oil with smoke liquid, containing feed containers with vegetable oil and smoke liquid, a container with a mixer for receiving emulsion, a heat exchanger, phase separator, aromatic oil and water collections, characterized in that filters are installed in it, one of which is located between the heat exchanger and the phase splitter, and the other is installed between the phase splitter and the oil collector, while the container with the emulsion and the phase splitter are spaced apart in height. 6. Installation according to claim 5, characterized in that the filters are made in the form of chambers filled with any porous material, such as sand, sawdust, fabric materials.