JP3072383B2 - How to recover flavor components of coffee - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method for recovering coffee flavor components.

[Conventional technology]

Usually, coffee liquid is produced by roasting and grinding green coffee beans and then extracting the coffee beans with hot water in an extraction tank. After this, the concentrated coffee liquid concentrates the coffee liquid,
Further, powdered coffee is produced by drying a concentrated coffee liquid.

However, it is inevitable that the flavor components of coffee are lost in each step of manufacturing various coffee products such as coffee liquid and coffee powder. Some methods have been proposed in which flavor components are collected in each of the steps described above, and the collected flavor components are added to the coffee liquor at a later stage of production to impart aroma to the coffee liquor.

As a method of recovering the flavor component, a method of extracting ground coffee beans by contacting with supercritical carbon dioxide gas, a method of extracting with a solvent, a method of steam distillation, and the like have been devised. In addition, a method has been devised in which flavor components generated during grinding are condensed and recovered by a low-temperature trap (heat exchanger) using a Freon refrigerator or liquid nitrogen.

[Problems to be solved by the invention]

However, in the above method of extracting flavor components from ground coffee beans with supercritical carbon dioxide gas,
The extracted flavor has problems such as strong burnt odor and charcoal odor, and high running cost. The method of extracting by solvent or steam distillation has problems in flavor quality, solvent removal, and the like. In the method of condensing and recovering with a low-temperature trap, high-quality flavor components can be recovered, but there is a problem that the absolute amount of flavor components that can be recovered is small.

Therefore, an object of the present invention is to provide a method capable of efficiently recovering a flavor component of coffee by a simple method.

[Means for solving the problem]

In order to achieve the above-described object, the method for recovering a flavor component of coffee of the present invention comprises the step of producing a flavor component generated in a step of producing a coffee liquid or coffee powder,
A filter in which the low-temperature liquefied gas is brought into direct contact and condensed or coagulated to be recovered in the low-temperature liquefied gas, and the flavor component not collected by the low-temperature liquefied gas is cooled by the cold air of the low-temperature liquefied gas. And then collecting in the low-temperature liquefied gas.

That is, the present invention collects flavor components generated in processes such as grinding, extraction, concentration, and drying in the manufacturing process of various coffee products shown in FIG. 2 and directly contacts a low-temperature liquefied gas such as liquid nitrogen. To condense or solidify the flavor component by the cold of the low-temperature liquefied gas,
It is collected and collected in the low-temperature liquefied gas.

In the present invention, the steps of grinding, extraction, concentration, drying and the like can be performed in substantially the same manner as in the prior art, and the flavor component can be recovered in any of these steps. The concentration step includes a concentration method such as heat concentration, membrane concentration, and freeze concentration, and the drying step includes a drying method such as hot air drying, freeze drying, and vacuum drying. In the case of membrane concentration, freeze concentration, and freeze-drying in which components are less dissipated, even if the present invention is applied, the effect is small.

For example, FIG. 1 shows an embodiment in which the present invention is applied to a step of extracting coffee liquid from ground coffee beans.

This coffee extraction device 1 includes a coffee extraction tank 2,
A low-temperature liquefied gas container 3 for collecting flavor components. A jacket 21 for circulating steam for heating the extraction tank 2 is provided on the outer periphery of the extraction tank 2, and a valve is provided on the upper part. A gas inlet pipe 22 having 22a,
A flavor component outlet pipe 23 having a valve 23a is provided, and an extract outlet 24 having a valve 24a and an extract cake outlet 2 having a valve 25a are provided below the extraction tank 2.
5 is provided.

The low-temperature liquefied gas container 3 is formed of an insulated container having an opening 31 at an upper portion, and a filter 32 made of cloth or the like is provided at a lower portion of the opening 31. One end of the flavor component outlet pipe 23 is open. As the low-temperature liquefied gas filled in the low-temperature liquefied gas container 3, various low-temperature liquefied gases such as liquid nitrogen, liquid air, and liquid argon can be used. However, considering the safety and cost, liquid nitrogen is used. Is optimal. Further, by using liquid nitrogen, it is possible to prevent the collected flavor component from being oxidized by contact with the enzyme and being deteriorated.

The above-mentioned flavor component extraction pipe 23 is connected to the gas in the head space S of the extraction tank 2 (the head space gas is extracted from the extraction tank 2).
And introduced into the low-temperature liquefied gas container 3. The tip of the flavor component extraction tube 23 is provided with a large number of small-diameter jet holes or a fine mesh-like shape in order to efficiently contact the flavor component in the headspace gas derived from the extraction tank 2 with the low-temperature liquefied gas. It is preferable to form it.

Next, a procedure for extracting coffee using the coffee extracting apparatus 1 and collecting flavor components generated at this time will be described. First, a predetermined amount of roasted and ground coffee beans and hot water are filled in the extraction tank 2 and hermetically closed, steam is fed into a jacket 21 to heat the extraction tank 2 and extract coffee, and gas is introduced. The valve 22a of the pipe 22 and the valve 23a of the flavor component outlet pipe 23 are opened, and an appropriate gas, for example, nitrogen gas, is introduced from the gas outlet pipe 22 into the head space S of the extraction tank 2 and rises into the head space S. The resulting flavor component and water vapor are introduced into the low temperature liquefied gas container 3 from the flavor component outlet pipe 23 together with the gas introduced from the gas inlet pipe 22.
The flavor component and water vapor are passed through the flavor component outlet pipe 23.
Is released into the low-temperature liquefied gas, for example, liquid nitrogen at -196 ° C, and is directly contacted with the low-temperature liquefied gas by bubbling, instantaneously condensed or solidified, and recovered in the low-temperature liquefied gas . At this time, flavor components not collected in the low-temperature liquefied gas can be collected by the filter 32 whose temperature is low due to the cool air of the low-temperature liquefied gas, and the flavor component collected by the filter 32 is By appropriately vibrating the filter 32, the filter 32 can be shaken down into the low-temperature liquefied gas and collected in the low-temperature liquefied gas.

After performing the extraction step for a predetermined time, the valves 22a, 23
a, and separately store the low-temperature liquefied gas containing the flavor component, and the valve 24a of the extract outlet 24.
Is opened to take out the coffee liquid, and the valve 25a is opened to take out the extracted cake from the extracted cake outlet 25.

Thereafter, the flavor component collected by condensing and coagulating in the low-temperature liquefied gas is added to the coffee liquid which has been subjected to a concentration operation as required. When adding the flavor component, the flavor component may be collected in the low-temperature liquefied gas in the previous step, but the coffee liquid may be frozen when a large amount of the low-temperature liquefied gas is mixed. It is preferable that excess low-temperature liquefied gas be removed by evaporation, and the low-temperature liquefied gas suspended in a state in which the collected flavor component freezes with water is gradually poured. Further, it is preferable that the coffee liquid after the extraction or concentration is sufficiently cooled prior to the addition of the flavor component, for example, at about 0 ° C. at which the coffee liquid does not freeze. By sufficiently cooling the coffee liquid in this way, the added flavor component can be prevented from dissipating again. Even when the low-temperature liquefied gas is separated by evaporation, it can be performed at an extremely low temperature, so that the collected flavor components hardly dissipate.

As described above, the flavor component separated from the extract in the coffee extraction process is brought into direct contact with the low-temperature liquefied gas, and is condensed or coagulated at an extremely low temperature to collect, thereby recovering almost all of the generated flavor component. Can be. Therefore, by adding the flavor component to the extracted coffee liquid or concentrated coffee liquid, it is possible to obtain a coffee liquid or a concentrated coffee liquid having more excellent aroma than before.

The coffee liquor and the concentrated coffee liquor thus obtained are filled and packaged in an airtight container in the same manner as before, and are refrigerated, frozen and stored for distribution, or after sterilization at high temperature, aseptic filling and packaging, and at room temperature. Can be distributed at Further, the obtained concentrated coffee liquid may be subjected to a drying treatment to obtain powdered coffee.

In addition, in the coffee extraction device 1, the gas is introduced from the gas introduction pipe 22 so as to forcibly extract the flavor component together with the water vapor. It can also be brought into contact with a liquefied gas.

When the flavor components are collected during the grind step, the concentration step, and the drying step, these steps are performed in a closed space, and nitrogen gas or the like is blown into the container in the same manner as in the coffee extraction device 1 described above, or a vacuum is applied. A gas containing a flavor component may be sucked by a pump or the like and introduced into the low-temperature liquefied gas. Thereby, the flavor component generated in these steps can also be recovered.

〔Example〕

 Next, examples and comparative examples of the present invention will be described.

Example 1 and Comparative Example 1 After roasting and grinding 6 kg of green coffee beans, 60 kg of hot water was put into the extraction tank 2 of the coffee extraction device 1. Next, while heating steam is passed through the jacket 21 to heat the inside of the extraction tank 2, the valves 22 a and 23 a are opened to introduce nitrogen gas into the head space S from the gas introduction pipe 22, Was introduced into the low-temperature liquefied gas container 3 into liquid nitrogen at -196 ° C through the flavor component outlet pipe 23 together with water vapor. The flavor component adhered to the filter 32 was shaken into liquid nitrogen by appropriately vibrating the filter 32.

When the temperature in the extraction tank 2 reached 85 ° C., the valves 22a and 23a were closed, and the flavor component was collected and the suspended liquid nitrogen was stored separately. On the other hand, the inside of the pouring tank 2 is heated up to 100 ° C.
Coffee liquid 55 was obtained.

This operation was repeated three times, and the obtained coffee liquid 165 was concentrated to 20 by a reverse osmosis concentrator. Then, the nitrogen in the liquid nitrogen in which the flavor components were suspended was separated as much as possible and then mixed with the concentrated coffee liquid 20.

11 ml of this concentrated coffee liquid was diluted to 130 ml with hot water, and as a comparison, a concentrated coffee 20 was produced in the same manner as described above by a normal coffee production method, and this was similarly diluted and subjected to a quality comparison test by a sensory test. Carried out.

As a result, the one to which the flavor component collected with liquid nitrogen was added had a stronger sweet aroma peculiar to roasted coffee beans and was superior in quality. In addition, in gas analysis by gas chromatograph, those with added flavor components showed acetaldehyde, procionaldehyde,
There were many flavor components such as dimethyl sulfide, 2-methylfuran, and methanol.

Example 2 100 g of ground coffee beans and hot water 1.1 at 60 ° C.
Was placed in a container 51 placed in a water bath 50 and heated for 10 minutes as shown in FIG. At that time, the gas in the head space S of the container 51 was blown into the liquid nitrogen at -196 ° C. in the liquid nitrogen container 53 via the pipe 52 and bubbled to condense and solidify the flavor components. The recovered amount of the condensed and coagulated products was 12.0 g.

Comparative Example 2 In Example 2, as shown in FIG. 4, the portion for recovering the flavor component was immersed in a stainless steel container 54 in a liquid nitrogen container 53, and a stainless steel container 54 was further placed in the container 54. The same operation as in Example 2 was performed, except that the heat exchanger 56 provided with the wire mesh 55 was used.

Incidentally, the inner surface area of the container 54 is about 391cm ^2, the surface area of the wire mesh 55 to about 404cm ^2, a total of about 795 cm ^2. In addition, container 54 and wire mesh
55 was operated after being sufficiently cooled by liquid nitrogen.

As a result, the amount of the flavor component collected in the heat exchanger 56 was 3.6 g. Could only be recovered. That is, the amount of the remaining adhesion in the heat exchanger 56 is 1.8 g, and the amount of the remaining adhesion per unit surface area of the heat exchanger 56 is 22.6 g / m ² .

Further, the flavor components obtained in Example 2 and Comparative Example 2 were each added to the coffee liquor obtained by the above operation, and a quality comparison test was performed by a sensory test. As a result, Example 2
Had a strong sweet scent peculiar to coffee and was excellent in quality.

〔The invention's effect〕

As described above, the method for recovering the flavor component of coffee according to the present invention is characterized in that the flavor component generated in each step of producing a coffee product is brought into direct contact with the low-temperature liquefied gas, rapidly cooled, and condensed or coagulated to condense or coagulate the low-temperature liquefied gas. While collecting in the low-temperature liquefied gas, the flavor components not collected by the low-temperature liquefied gas are collected in the low-temperature liquefied gas after being collected by the low-temperature filter, so that more flavor components are collected compared to the conventional method. Can be.

Therefore, by adding this flavor component to the coffee liquid, it is possible to obtain coffee having more excellent aroma than before. In addition, good flavor with a lot of sweet aroma unique to coffee can be collected, and almost all of the low-temperature liquefied gas evaporates at the stage of mixing with the coffee liquid, so that unnecessary substances are not mixed into the coffee liquid,
It is possible to manufacture a coffee liquid product that is closer to the original coffee aroma.

Further, the method of the present invention can be carried out simply by providing a heat insulating container for accommodating a low-temperature liquefied gas and providing simple piping, so that the method is easy to carry out.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a coffee extracting device suitable for carrying out the present invention, FIG. 2 is a diagram showing a process for producing a coffee product, FIG. 3 is a configuration diagram of the device used in Example 2, FIG. FIG. 4 is a configuration diagram of an apparatus used in Comparative Example 2. DESCRIPTION OF SYMBOLS 1 ... Coffee extraction device, 2 ... Extraction tank, 3 ... Low temperature liquefied gas container, 23 ... Flavor component outlet pipe, S ... Headspace

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-61-254145 (JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) A23F 5/00

Claims (1)

(57) [Claims] 1. A flavor component generated in a step of producing coffee liquid or coffee powder is brought into direct contact with a low-temperature liquefied gas to condense or coagulate and is recovered in the low-temperature liquefied gas, and captured by the low-temperature liquefied gas. A method for collecting flavor components of coffee, wherein the uncollected flavor components are collected by a filter whose temperature is lowered by the cool air of the low-temperature liquefied gas, and then collected in the low-temperature liquefied gas.