CN217265619U - A segmentation distillation plant for white spirit - Google Patents

Abstract

The utility model provides a segmentation distillation plant for white spirit, including solid-state distillation plant, main condenser, inferior condenser and the storage wine part that sets gradually. The wine inlet end of the main condenser is connected with the top end of the solid-state distillation device, the wine outlet end of the main condenser is provided with a separation chamber, and the top of the separation chamber is provided with a ventilation port respectively connected with the pump component and the air regulating valve. The main condenser and the secondary condenser are both provided with cooling water flow regulating valves. The secondary condenser is arranged at the downstream of the liquid outlet direction of the main condenser, a liquid inlet of the secondary condenser is connected with the wine outlet end of the main condenser, and distillate of the main condenser is conveyed to the secondary condenser through the liquid conveying component. The wine storage component is connected with a liquid outlet of the secondary condenser. By dynamic condensation under varying pressure conditions in the vessel, the low boiling point material is distilled off and removed as much as possible, and the high boiling point material which is difficult to separate is also distilled off as much as possible.

Description

A segmentation distillation plant for white spirit

Technical Field

The utility model relates to a white spirit makes the field, specifically is a segmentation distillation plant for white spirit.

Background

The brewing process of the white spirit is very complicated, a lot of microorganisms are generated, and very rich flavor substances, such as main flavor substances of alcohols, acids, esters, aldehydes, other types and the like, are generated, and the components comprise low-boiling-point substances and high-boiling-point substances, and have harmful components and beneficial components.

The existing retort distillation process is characterized in that as shown in figure 1, a device used for retort distillation comprises a retort barrel 1, a condenser 2 and a liquor receiving barrel 3, the retort distillation can be regarded as a special packed tower, solid fermented grains containing water, alcohol and a large amount of trace aroma components gradually form a packing layer in the retort by filling the retort, the temperature of the fermented grains in the retort is continuously raised under the condition of continuous heating of steam, the concentration of volatile components of the fermented grains at the lower layer is continuously reduced layer by layer, the concentration of the volatile components of the fermented grains at the upper layer is gradually increased layer by layer, the alcohol and the aroma components in the fermented grains are vaporized, condensed and vaporized to achieve the purposes of multi-component concentration and extraction, finally, the vaporized substances are sent to the condenser through a communicating pipe above the retort barrel, condensed to liquid through cooling water, and then are picked into different liquor receiving barrels according to different grades.

The conventional flow is as follows: feeding fermented grains into a steamer, opening steam, laying a first layer of grains at the bottom of the steamer, detecting steam or feeding steam into the steamer until the steamer is full, closing a cover of the steamer, distilling, condensing and discharging wine, and ending distilling or (starting to steam grains, condensing and discharging the gas of the steamed grains) and ending distilling or (starting to steam grains, directly discharging the gas of the steamed grains) opening the cover of the steamer, and discharging the fermented grains out of the steamer.

Wherein, regarding the boiling points and the interest conditions of different flavor substances:

methanol: methanol has a large toxic effect on human bodies and is a harmful component, the boiling point of methanol is about 65 ℃ under normal pressure and is lower than that of ethanol (the boiling point of ethanol is 78 ℃), the methanol belongs to a low-boiling-point substance, the methanol is evaporated along with the initial distillation of the ethanol and is contained in the ethanol steam, if the content of the methanol in the white spirit is reduced, the characteristic that the methanol is easy to separate when the concentration of the ethanol is high can be utilized, the temperature for receiving the white spirit (namely the final condensation temperature of the white spirit) is increased as far as possible, or the methanol can be removed to the maximum, the temperature for receiving the white spirit is normally 20-30 ℃, for example, the temperature is increased to 35 ℃, so that some methanol cannot be condensed to the final white spirit and is emitted to the atmosphere.

2. Fusel oil: fusel oil is one of the aromatic components of wine, but the content is too high, which has toxic action to people. The main components of fusel oil are n-propanol, isoamyl alcohol, amyl alcohol, isobutyl alcohol, phenethyl alcohol and the like, wherein the toxicity of isobutyl alcohol and isoamyl alcohol is high.

The fusel oil has a boiling point generally higher than that of ethanol (the boiling point of ethanol is 78 ℃, the boiling point of n-propanol is 97.1 ℃, the boiling point of isoamyl alcohol is 13l ℃, the boiling point of amyl alcohol is 137.5 ℃, the boiling point of isobutyl alcohol is 108 ℃ and the boiling point of phenethyl alcohol is 219.5 ℃), belongs to a high-boiling-point substance, and more fusel oil can be evaporated from the tail of the white spirit along with the continuous increase of the temperature in the distillation process, so that more fusel oil can be contained in the tail of the white spirit. And as the fusel oil is soluble in high-concentration alcohol but insoluble in water, the fusel oil is generally oily in low-concentration alcohol or water solution, and part of the fusel oil is attached to a condensation pipeline at the end of distillation and flows out along with the head of the next retort distillation, so that the fusel oil content in the head section of the wine is higher. Therefore, the wine containing much fusel oil is usually removed by pinching the head and the tail, so that the fusel oil content of the finished wine is reduced.

3. Aldehydes

The aldehydes in the wine are the oxides of alcohol with corresponding molecular size and are also generated in the fermentation process of the white spirit. The low-boiling aldehydes include formaldehyde (boiling point-19.5 deg.C), acetaldehyde (boiling point 20.8 deg.C), etc., and the high-boiling aldehydes include furfural (boiling point 161.8 deg.C), butyraldehyde, valeraldehyde, caproaldehyde, etc. The toxicity of aldehydes is higher than that of alcohols, wherein the higher toxicity is formaldehyde, and the toxicity is about 30 times higher than that of methanol.

The aldehydes in the white spirit mainly come from rice chaff, the rice chaff and the rice husk are used less, the use amount of auxiliary materials is reduced as much as possible in the production process, and high-quality rice chaff without mildew and with less impurities is selected. Before use, the auxiliary materials must be thoroughly steamed to remove impurities, the steaming time is more than 30min, pentosan and pectin in the auxiliary materials are reduced to the maximum extent, and simultaneously, the bitter taste in the auxiliary materials can be removed. During wine steaming, the temperature of the wine is strictly controlled, and the head and the tail are removed to reduce the content of total aldehyde in the wine.

4. Esters (useful substances)

The main four major ester substances in the white spirit, ethyl acetate and ethyl lactate are the main fragrance characteristic components of the fragrant white spirit; ethyl caproate is a main characteristic component of the strong aromatic white spirit; the ethyl butyrate is the main characteristic component of the drug-flavor liquor. Namely the proportion of the four esters in a specific flavor, the quality grade of the flavor liquor can be directly influenced by the content of the four esters. The boiling point of ethyl acetate is 77.1 deg.C, the boiling point of ethyl lactate is 154 deg.C, the boiling point of ethyl hexanoate is 167 deg.C, and the boiling point of ethyl butyrate is 121.3 deg.C

5. Acids (useful substances)

The main four main acid substances in the white spirit are acetic acid, lactic acid, caproic acid and butyric acid, and a proper amount of acid can increase the mellow feeling of the white spirit, but the white spirit with excessive acid is rough, and the acid and the ester in the white spirit have a certain coordinated proportion. Acetic acid boiling point 118.1 deg.C, lactic acid boiling point 122 deg.C, caproic acid boiling point 205 deg.C, butyric acid boiling point 163.5 deg.C

As can be seen from the above description, some materials having boiling points close to or limited to those of the prior art result in low distillation efficiency of the low boiling point harmful material and ineffective distillation of the high boiling point beneficial material.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a segmentation distillation plant for white spirit, dynamic condensation through changing pressure conditions in the container, can make the low boiling point material distill as far as possible and get rid of under the negative pressure condition, the boiling point of high boiling point material also can reduce under the negative pressure condition simultaneously, also distill easily relatively, can also make some other high boiling point materials that can't distill at normal atmospheric temperature also distill as far as possible of being favorable to the flavor under the malleation condition, can also only condense useful flavor material through segmentation condensation mode, and just do not condense to arrange or distinguish the condensation to harmful material.

The utility model provides a segmentation distillation plant for white spirit, including solid-state distillation plant, main condenser, inferior condenser and the storage wine part that sets gradually. Wherein, the wine inlet end of the main condenser is connected and communicated with the top end of the solid distillation device, and the wine outlet end of the main condenser is provided with a gas regulating mechanism; the air adjusting mechanism comprises a separation chamber, a pump component and an air adjusting valve, the separation chamber is arranged at the wine outlet end of the main condenser and communicated with the wine outlet end, and the top of the separation chamber is provided with a ventilation port which is respectively connected with the pump component and the air adjusting valve. The primary condenser and the secondary condenser each have a cooling water flow regulating valve to regulate cooling water flow into the respective condenser, and the cooling water flow regulating valve of the primary condenser, the pump member and the air regulating valve cooperate to regulate head pressure within the solid state distillation apparatus. The secondary condenser is arranged at the downstream of the liquid outlet direction of the main condenser, a liquid inlet of the secondary condenser is connected with the wine outlet end of the main condenser, and distillate of the main condenser is conveyed to the secondary condenser through the liquid conveying component. The liquor storage component is connected with the liquor outlet of the secondary condenser, and the distillate in the secondary condenser can automatically flow to the liquor storage component.

By adopting the scheme, the boiling point and condensation point differences of different pressures and different temperatures between the alcohol and the water can be utilized, and further the distillation state can be controlled. Particularly, the low boiling point substance can be distilled off as much as possible under the condition of negative pressure; under the condition of positive pressure, other high boiling point substances which are beneficial to flavor and cannot be distilled at normal temperature are distilled as far as possible, including complex trace high boiling point substances which are difficult to extract when the normal pressure distillation is difficult and improve the grade and the taste of the white spirit. That is, by adopting a dynamic condensation mode in the whole process flow, the distillation under negative pressure can be carried out, so that the low boiling point substance can be distilled off as much as possible, and the distillation under pressure can be carried out, so that the high boiling point substance can be distilled off as much as possible. And harmful high boiling point substances can be evaporated in advance during grain steaming, and relatively little substances are evaporated during wine distilling. In addition, the sectional condensation can be realized, namely, an intermediate temperature of low boiling point and alcohol is found in the main condenser, the temperature can condense the alcohol, but low boiling point substances cannot be condensed, the low boiling point substances are separated from the separation chamber, and effective substances enter the secondary condenser. Thereby condensing the desired useful flavor materials in the secondary condenser without condensing off or differentiating the condensation of harmful materials, such as low boiling materials (e.g., methanol, formaldehyde, hexanal) in the wine liquor, maximizing the condensation of the wine.

According to the utility model discloses a another embodiment, the utility model discloses a sectional distillation device for white spirit that embodiment discloses, the condensation temperature setting value of main condenser is less than the boiling point of the high thing of boiling of drinks, is greater than the boiling point of the low thing of boiling of drinks to the condensation temperature setting value of inferior condenser is less than the boiling point of the low thing of boiling of drinks.

By adopting the scheme, the main condenser is condensed to a certain temperature, the alcohol can be condensed but the low-boiling-point substances cannot be condensed, so that the wine is condensed to the final required wine receiving temperature by the secondary condenser, and the low-boiling-point substances are not discharged into the wine but are pumped out from the air exchange port along with the intermittent opening of the pump part or are discharged to the outside or a trench after being mixed with cooling water.

According to another specific embodiment of the present invention, the sub-condenser comprises at least one sub-condenser connected in series along the liquid conveying direction, and the liquid inlet of the sub-condenser is the upstream inlet of the at least one sub-condenser, and the liquid outlet of the sub-condenser is the upstream inlet of the at least one sub-condenser; and the set value of the condensation temperature of the main condenser is 50-80 ℃ and the set value of the condensation temperature of each secondary condenser in the at least one secondary condenser is 10-40 ℃.

By adopting the scheme, different temperatures can be set for each section according to requirements so as to separate different liquids by distillation.

According to the utility model discloses a further embodiment, the utility model discloses a sectional distillation device for white spirit, air conditioning mechanism still includes waste material processing part and sealed water route, and pump part respectively with waste material processing part and sealed water path connection.

By adopting the scheme, the low-boiling-point substances are not discharged into the wine, but are pumped to be mixed with the liquid in the sealed waterway along with the intermittent opening of the vacuum pump and discharged to the waste treatment part, thereby playing the role of protecting the environment.

According to another embodiment of the present invention, the liquid conveying component comprises a conveying pipeline and an infusion pump arranged on the conveying pipeline, and the wine outlet end of the main condenser is provided with a liquid level switch; when the liquid level switch detects distillate, the infusion pump is started, and when the liquid level switch does not detect the distillate, the infusion pump is stopped.

By adopting the scheme, when the liquid level switch detects that liquid formed by condensation is arranged at the bottom of the main condenser, the infusion pump is started to pump the condensate out to the secondary condenser until the condensate is completely collected, and during the process, if the liquid level switch detects that the liquid level switch is empty, the infusion pump is closed. Thereby playing the effect of automatic transport condensate, using the infusion pump to carry liquid simultaneously can avoid main condenser and inferior condenser intercommunication to lead to the pressure to reveal.

According to the utility model discloses a another embodiment, the utility model discloses a sectional distillation device for white spirit, store up the wine part including plucking the wine ware in grades and plucking the cask that every liquid outlet of wine ware corresponds in grades. The solid-state distillation device is a retort barrel part, and the top end and the bottom end in the retort barrel part are respectively provided with a pressure sensor.

By adopting the scheme, the pressure values of the top pressure and the bottom pressure in the solid-state distillation device can be monitored during operation, and the pressure values are obtained in a test as reference.

The utility model has the advantages that:

by providing a sectional distillation device for white spirit, the distillation state can be controlled by utilizing the difference of the boiling point and the condensation point of different pressures and different temperatures between alcohol and water. Particularly, the low boiling point substance can be distilled off as much as possible under the condition of negative pressure; under the condition of positive pressure, other high boiling point substances which are beneficial to flavor and cannot be distilled at normal temperature are distilled as far as possible, including complex trace high boiling point substances which are difficult to extract when the normal pressure distillation is difficult and improve the grade and the taste of the white spirit. That is, by adopting a dynamic condensation mode in the whole process flow, the distillation under negative pressure can be carried out, so that the low boiling point substance can be distilled off as much as possible, and the distillation under pressure can be carried out, so that the high boiling point substance can be distilled off as much as possible. And harmful high boiling point substances can be evaporated in advance during grain steaming, and relatively less substances are evaporated during wine distilling. In addition, it can also realize the sectional condensation, that is, finding a middle temperature of low boiling point and alcohol in the main condenser, which can condense alcohol but not condense low boiling point material, separating low boiling point material from the separating chamber, and making effective material enter the secondary condenser. Thereby condensing the desired useful flavor materials in the secondary condenser without condensing off or differentiating condensation for harmful materials, such as low boiling materials in the wine, maximizing the condensation of the wine.

Drawings

FIG. 1 is a schematic structural diagram of a liquor distillation apparatus in the prior art;

fig. 2 is a schematic structural diagram of a sectional distillation device for white spirit provided in an embodiment of the present invention.

Description of reference numerals:

1: a retort barrel; 2: a condenser; 3: a wine barrel is connected;

10: a solid state distillation unit; 11: a pressure sensor;

20: a main condenser;

21: a gas regulating mechanism;

211: a separation chamber;

2111: a ventilation port;

212: a pump component; 213: an air regulating valve;

214: a waste disposal component;

215: sealing the waterway;

30: a secondary condenser;

31: a liquid delivery member;

311: a delivery conduit; 312: an infusion pump; 313: a liquid level switch;

32: cooling water flow regulating valve

40: a wine storage part;

41: a wine extractor is picked in a grading way; 42: a wine barrel.

Detailed Description

The following description is provided for illustrative embodiments of the present invention, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. While the invention will be described in conjunction with the preferred embodiments, it is not intended to limit the features of the invention to that embodiment. On the contrary, the intention of implementing the novel features described in connection with the embodiments is to cover other alternatives or modifications which may be extended based on the claims of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be practiced without these particulars. Furthermore, some of the specific details are omitted from the description so as not to obscure or obscure the present invention. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that in this specification, like reference numerals and letters refer to like items in the following drawings, and thus, once an item is defined in one drawing, it need not be further defined and explained in subsequent drawings.

In the description of the present embodiment, it should be noted that the terms "upper", "lower", "inner", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are usually placed in when used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or the element to which the present invention is directed must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present embodiment, it should be further noted that, unless explicitly stated or limited otherwise, the terms "disposed," "connected," and "connected" are to be interpreted broadly, e.g., as a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present embodiment can be understood in specific cases by those of ordinary skill in the art.

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Example 1

A sectional distillation device for white spirit is provided, as shown in figure 2, and comprises a solid distillation device 10, a main condenser 20, a secondary condenser 30 and a spirit storage part 40 which are arranged in sequence.

Wherein, the wine inlet end of the main condenser 20 is connected and communicated with the top end of the solid state distillation device 10, the wine outlet end of the main condenser 20 is provided with an air regulating mechanism 21, the air regulating mechanism 21 comprises a separation chamber 211, a pump component 212 and an air regulating valve 213, the separation chamber 211 is arranged at the wine outlet end of the main condenser 20 and is communicated with the wine outlet end, the top of the separation chamber 211 is provided with a ventilation port 2111, and the ventilation port 2111 is respectively connected with the pump component 212 and the air regulating valve 213.

The main condenser 20 and the sub-condenser 30 each have a cooling water flow rate regulating valve 32 to regulate the flow rate of cooling water flowing into the respective condenser, and the cooling water flow rate regulating valve 32, the pump member 212, and the air regulating valve 213 of the main condenser 20 cooperate to regulate the head pressure within the solid state distillation apparatus 10.

The secondary condenser 30 is arranged at the downstream of the liquid outlet direction of the main condenser 20, the liquid inlet of the secondary condenser 30 is connected with the wine outlet end of the main condenser 20, and the distillate of the main condenser 20 is conveyed to the secondary condenser 30 through the liquid conveying component 31. The wine storage part 40 is connected with the liquid outlet of the secondary condenser 30, and the distillate in the secondary condenser 30 can automatically flow to the wine storage part 40.

Specifically, the solid-state distillation apparatus 10 may be a retort or a device for distilling and removing impurities during the brewing process of white spirit. In this embodiment, a retort is used.

The top of main condenser 20 is in direct communication with the top of solid state distillation apparatus 10, and the top pressure within solid state distillation apparatus 10 can be adjusted by controlling the internal pressure of main condenser 20. For the pressure regulation, the cooling water flow rate regulation valve 32, the air regulation valve 213, and the pump member 212 are combined to regulate the head pressure in the distillation apparatus.

In the condenser, the condensing efficiency of the condenser itself affects the pressure in the container, and when the flow rate of the cooling liquid is large, the condensing efficiency in the condenser is high, and at the moment, negative pressure is easily formed. At the same time, the amount of cooling water in the regulating valve 32 is reduced so that the condensed vapor is reduced and the top pressure of the solid state distillation apparatus 10 naturally rises. The pump part 212 of the air adjustment mechanism 21 can be used to pump air to create a negative pressure in the main condenser 20, while the air adjustment valve 213 can vent air to the outside for pressure relief when the main condenser 20 is at a high pressure and suck air back to pressure when the main condenser 20 is at a negative pressure. This allows the pressure in the vessel to be adjusted using the change in the coolant flow rate of the condenser itself in conjunction with the gas adjustment mechanism 21.

It should be noted that the pump unit 212 is primarily operated to draw negative pressure, which is intermittently applied to remove undesirable materials that do not condense. The air adjusting valve 213 is not operated at a positive pressure, but is opened to suck a little air to maintain a set pressure mainly at a negative pressure if the top pressure in the solid distillation apparatus 10 reaches an ultra-low pressure to fear a safety accident. That is, when the pressure is adjusted, the flow rate of the cooling water is first reduced by adjusting the cooling water flow rate adjustment valve 32 to reduce the condensation, and the pressure naturally rises, and if the flow rate falls below the set warning set lower limit, the air adjustment valve 213 of the gas adjustment mechanism 21 is opened to replenish the appropriate amount of air until the pressure rises to the set value. So that the pressure inside the condenser can be slowly adjusted to prevent the pressure shock from generating adverse effects.

It should be understood that the gas regulating mechanism 21 can regulate the pressure and also control the frequency and time of the pressure change. The pump component 212 may be a pump which is commonly used, such as a vertical multistage centrifugal pump, a horizontal multistage centrifugal pump, a vertical single-stage centrifugal pump, and the like, and which can not only pressurize but also form a vacuum negative pressure. And on the premise of pressure regulation, sealing treatment is carried out on each interface of the equipment to keep the equipment in sealing property and the container can resist pressure. The effect of reduced pressure distillation can be achieved by adjusting the pump part 212 during the distillation process. In addition, as for the condenser itself, the condensing efficiency of the condenser itself also affects the pressure in the container, and when the flow rate of the cooling liquid is large, the condensing efficiency in the condenser is high, and at this time, a negative pressure is easily formed, that is, the condenser itself can be used to adjust the pressure in the container in cooperation with the gas adjusting mechanism 21.

Regarding the specific process parameters, those skilled in the art can select different types of white spirit, such as based on the flavor type (strong flavor type, faint flavor type, phoenix flavor type, etc.) of white spirit, and further, for white spirit with the same flavor type, the process parameters can be selected experimentally on the basis of the device. Taking reduced pressure distillation as an example, parameters required by the reduced pressure distillation process of the solid white spirit by adopting the device comprise a pressure value and distillation time. The technicians in the field use the pressure values of the bottom and the top in the solid distillation device 10 during the conventional distillation operation as reference, and use the operation time periods of the completion of the retort filling, the connection of the head of the wine, the connection of the base wine and the connection of the tail of the wine as nodes, the technicians in the field can realize the continuous decompression and the intermittent decompression of the distillation process by controlling the opening/closing size and the frequency of the gas regulating mechanism 21 on the basis of using the device, and optimize the specific parameters of the process by comparing the wine distillation time, the connection amount of the head of the wine, the base wine and the tail of the wine, the physical and chemical indexes and sensory indexes of different operation processes so as to obtain the optimized result. The difference between the continuous pressure reduction and the intermittent pressure reduction is that the continuous pressure reduction is always maintained at a certain negative pressure, and the intermittent pressure reduction is that the negative pressure is in an interval range.

In this embodiment, a process scheme is illustrated, and as shown in fig. 2, the operation process includes:

and (4) steamer filling: the retort filling is carried out in a conventional manner using a solid state distillation apparatus 10, and the gasification is completed in this step;

receiving wine heads: after the retort filling is finished, sealing is carried out, the pump component 212 is opened, the pump component 212 is adjusted to enable the top of the solid-state distillation device 10 to be in a negative pressure state (set value), and when the head of the distilled spirit reaches the bottom of the main condenser 20, the liquid conveying component 31 is opened to draw out the head of the distilled spirit to the secondary condenser 30 and then the head of the distilled spirit automatically flows to the spirit storage component 40. Wherein the temperature of the top of the main condenser is 100 ℃, the graduation of the bottom is 70 ℃, the temperature of the liquid inlet of the secondary condenser is 70 ℃, and the temperature of the liquid outlet is 25 ℃. The parameters of the pump unit 212 are adjusted to reduce the top pressure in the solid distillation unit 10 by a certain ratio compared with the pressure in the existing distillation head, and the pressure is maintained until the distillation head is completely taken out, and the liquid conveying unit 31 is closed. If the top pressure in the solid-state distillation apparatus 10 becomes lower than the set value during the depressurization, the flow rate of the cooling water in the gas adjusting mechanism 21 or the main condenser 20 can be adjusted.

Base liquor inoculation: the operation is the same as above, except that the process parameters are different, and the set values can be set differently or the same.

And (3) connecting wine tails: the operation is the same as above, except that the process parameters are different, and the set values can be set differently or the same.

The main condenser 20 and the sub-condenser 30 realize the staged condensation, and the main condenser 20 condenses to a temperature, for example, 70 degrees, which can condense alcohol, but cannot condense low boiling point substances (such as methanol, formaldehyde, and hexanal), so that the wine is condensed by the sub-condenser 30 to the final desired wine receiving temperature, and the low boiling point substances are not discharged into the wine but are pumped out from the ventilating port 2111 with the intermittent opening of the pump part 212 or discharged to the outside or to the trench after being mixed with cooling water. If some of the lower boiling point material enters the secondary condenser 30 with the wine, some of the lower boiling point material is not easily condensed at the outlet of the secondary condenser 30 and will be emitted to the atmosphere with the open-mouth wine container. Particularly, in the case of reduced pressure distillation, the liquid surface pressure of the solid distillation apparatus 10 and the main condenser 20 is reduced, and thus vaporization is easier, and the vaporized low boiling point substance is less likely to be condensed into liquid, and further, is pumped into the atmosphere, so that less low boiling point impurities enter the sub-condenser 30.

The separation chamber 211 is provided at the wine outlet end of the main condenser 20, communicating with the wine outlet end, so that when liquid is present at the wine outlet end (lower end in fig. 2) of the main condenser 20, the liquid level of the separation chamber 211 is leveled with the liquid level of the main condenser 20, thereby forming an upper layer gas phase portion and a lower layer liquid phase portion in the vertical direction inside the separation chamber 211. Wherein, the top of the separation chamber 211 is provided with a ventilation port 2111, and the gas phase part enters and exits the gas through the ventilation port 2111, thereby discharging the non-liquefied low boiling point substance. In addition, in the case of operating the apparatus for pressure distillation, pressure distillation may be selected in the latter stage of the process flow, even if harmful high boiling point substances (e.g., fusel oils and higher alcohols such as aldehydes) are distilled in the latter stage. However, the physical characteristics of these high boiling point materials are that they are easily dissolved in high concentration alcohol but not dissolved in water, and the alcohol concentration at the end of distillation is low, so that these high alcohol are not easily dissolved in low concentration alcohol, and part of them will be attached to the condensation pipeline, and flow out with the head of the next retort distillation, and the conventional way of cutting head and tail is adopted, and this part of head containing much fusel oil can be removed, so that the fusel oil content of the intermediate product wine can be reduced.

And when the pressure distillation is carried out, the proper pressure and temperature are selected, and the temperature is between the boiling point of the useful ester acid substances and the harmful high boiling point substances (such as fusel oil-isoamylol, the boiling point of which is 13l ℃, and the boiling point of furfural-the boiling point of which is 161.8 ℃), so that the useful high boiling point flavor substances are selectively distilled out, and the distilled high boiling point flavor substances can be easily condensed in the main condenser 20 or the secondary condenser 30 and enter the white spirit. Therefore, under the condition of positive pressure, other high boiling point substances which are beneficial to flavor and cannot be distilled at normal temperature are distilled as far as possible, and the high boiling point substances which are difficult to extract by distillation under normal pressure comprise complex trace component substances for improving the grade and the mouthfeel of the white spirit.

Meanwhile, although the content of low boiling point substances in the foreshot is reduced compared with the prior art by using the device, the foreshot is still relatively rich in low boiling point substances (such as methanol, formaldehyde and hexanal) which are condensed into the wine together with the wine due to the middle section of the base wine. Therefore, the head and the feints of wine need to be removed by adopting a classical way of pinching the head and the feints during wine picking regardless of reduced pressure or pressurized distillation.

The device adopts different distillation strategies according to different distillation stages (connecting the wine head, connecting the base wine and connecting the wine tail) of the distillate, can carry out negative pressure distillation according to different distillation fractions, ensures that the low boiling point substances are distilled as much as possible, can carry out pressurized distillation, ensures that the high boiling point substances are distilled as much as possible, and further realizes dynamic distillation. However, whether the distillation is the pressure-increasing distillation or the pressure-reducing distillation, the dynamic distillation needs to be held by the principle that the pressure is slowly increased and slowly decreased, and the pressure change must be slow in the dynamic distillation process, otherwise the dynamic balance of the solid, liquid and vapor tri-state substances in the solid-state distillation device 10 is easily broken instantaneously, and the distillation efficiency is influenced.

It is understood that the first run-off of wine is called "head" and is very high at 70-80 degrees, but these wines are very hot and very rich in body-damaging aldehydes which are generally discarded by brewers. The wine flowing out from the middle section is called base wine, the alcohol content is about 50-60 degrees, the alcohol molecules are best fused with water, and harmful substances in the middle section are the lowest and are the highest quality parts in the whole pot of wine. The wine left at the end is called as the feints, the alcohol content is below 40-50 degrees, the taste is very poor, the wine body is turbid, the taste is sour and acerb, and the wine is often poured out as leftovers by wineries. Therefore, when picking wine, people need to 'Qia head and remove tail', namely Qia the wine head and the wine tail, and store the wine head and the wine tail respectively.

The distillation state can be controlled by utilizing the difference of the boiling point and the condensation point of different pressures and different temperatures between the alcohol and the water. Particularly, the low boiling point substance can be distilled off as much as possible under the condition of negative pressure; under the condition of positive pressure, other high boiling point substances which are beneficial to flavor and cannot be distilled at normal temperature are distilled as far as possible, and the other high boiling point substances comprise complex trace component substances (high boiling point substances which are difficult to extract when atmospheric distillation is difficult) for improving the grade and the taste of the white spirit.

By adopting the scheme, the boiling point and condensation point differences of different pressures and different temperatures between the alcohol and the water can be utilized, and further the distillation state can be controlled. Particularly, the low boiling point substance can be distilled off as much as possible under the condition of negative pressure; under the condition of positive pressure, other high boiling point substances which are beneficial to flavor and cannot be distilled at normal temperature are distilled as far as possible, and the other high boiling point substances comprise complex trace component substances (high boiling point substances which are difficult to extract when atmospheric distillation is difficult) for improving the grade and the taste of the white spirit. That is, by adopting a dynamic condensation mode in the whole process flow, the distillation under negative pressure can be carried out, so that the low boiling point substance can be distilled off as much as possible, and the distillation under pressure can be carried out, so that the high boiling point substance can be distilled off as much as possible. And harmful high boiling point substances can be evaporated in advance during grain steaming, and relatively less substances are evaporated during wine distilling. In addition, it is possible to achieve staged condensation, i.e. finding an intermediate temperature between low boiling point and alcohol in the primary condenser 20, which can condense alcohol but does not condense low boiling point substances, which are separated from the separation chamber 211, and the active substance enters the secondary condenser 30. Thereby condensing the desired useful flavor materials in the secondary condenser 30 without condensing off or differentiating the condensation of harmful materials, such as low boiling materials (e.g., methanol, formaldehyde, hexanal) in the wine liquor, maximizing the condensation of the wine.

According to the utility model discloses a another embodiment, the utility model discloses a sectional distillation device for white spirit that embodiment discloses, main condenser 20's condensing temperature setting value is less than the boiling point of the high thing of boiling of drinks, is greater than the boiling point of the low thing of boiling of drinks to the condensing temperature setting value of inferior condenser 30 is less than the boiling point of the low thing of boiling of drinks.

With the above arrangement, the main condenser 20 condenses alcohol to a temperature at which it can condense but not low boiling point materials, so that the alcohol is condensed by the sub-condenser 30 to the final desired alcohol receiving temperature, and the low boiling point materials are not discharged into the alcohol but are pumped out from the ventilating port 2111 to the outside with the intermittent opening of the pump member 212 or discharged to the outside or to the underground ditch after being mixed with cooling water.

According to another specific embodiment of the present invention, the sub-condenser 30 comprises at least one sub-condenser 30 connected in series along the liquid conveying direction, and the inlet of the sub-condenser 30 is the most upstream inlet of the at least one sub-condenser 30, and the outlet of the sub-condenser 30 is the most upstream inlet of the at least one sub-condenser 30; and the condensing temperature of the main condenser 20 is set to 50-80 c and the condensing temperature of each sub-condenser 30 of the at least one sub-condenser 30 is set to 10-40 c.

Specifically, the secondary condenser 30 may be a plurality of stages, each of which is different in condensing temperature. For example, the first stage secondary condenser 3030-25 ℃, and the set temperature of the 2 nd stage secondary condenser 30 is below 15 ℃.

One skilled in the art can set different temperatures for each stage as desired to separate different liquids by distillation, such as sequentially lowering the temperature settings of the series of secondary condensers 30 to distill higher boiling material upstream and lower boiling material downstream. The specific set temperature and number of secondary condensers 30 can be selected according to the process requirements. Preferably, the main condenser 20 may be set to 60-70 deg.C and the sub-condenser 30 may be set to 15-30 deg.C.

According to another embodiment of the present invention, as shown in fig. 2, the air conditioning mechanism 21 further includes a waste disposal unit 214 and a sealed water path 215, and the pump unit 212 is connected to the waste disposal unit 214 and the sealed water path 215, respectively.

In particular, waste disposal component 214 may be a simple waste tank or a filter tank connected to the atmosphere, or may be a chemical or biological device that may use low boiling point materials, thereby increasing material utilization.

By adopting the scheme, the low-boiling-point substances are not discharged into the wine, but are pumped to be mixed with the liquid in the sealed water path 215 along with the intermittent opening of the vacuum pump and discharged to the waste treatment component 214, thereby playing the role of protecting the environment.

According to another embodiment of the present invention, the embodiment of the present invention discloses a sectional distillation apparatus for white spirit, as shown in fig. 2, the liquid conveying component 31 comprises a conveying pipeline 311 and an infusion pump 312 disposed on the conveying pipeline 311, and the wine outlet end of the main condenser 20 is provided with a liquid level switch 313; when the level switch 313 detects distillate, the infusion pump 312 is turned on, and when the level switch 313 does not detect distillate, the infusion pump 312 is turned off.

Specifically, the liquid level switch 313(LS), also called a level switch, is a switch for controlling the on/off of a line by the liquid level.

In the above example of the process scheme, the pump part 212 is opened during the head receiving period, the pump part 212 is adjusted to make the top pressure in the solid state distillation device 10 in a negative pressure state, when the distilled head is detected by the liquid level switch 313 at the bottom of the main condenser 20, the liquid pump 312 is opened to pump the head to the secondary condenser 30, the top pressure in the solid state distillation device 10 is reduced by a certain proportion compared with the conventional head distillation and is maintained until the head is completely received, and during the period, if the liquid level switch 313 is empty, the liquid pump 312 is closed.

By adopting the scheme, when the liquid level switch 313 detects that liquid formed by condensation is at the bottom of the main condenser 20, the liquid conveying pump 312 is started to pump the condensate to the secondary condenser 30 until the condensate is completely collected, and during the period, if the liquid level switch 313 detects that the liquid is empty, the liquid conveying pump 312 is stopped. Thereby achieving the effect of automatically delivering the condensate, and simultaneously using the infusion pump 312 to deliver the liquid can avoid pressure leakage caused by the communication between the main condenser 20 and the secondary condenser 30.

According to another embodiment of the present invention, the embodiment of the present invention discloses a sectional distillation apparatus for white spirit, as shown in fig. 2, the wine storage part 40 includes a graded wine extractor 41 and a wine barrel 42 corresponding to each liquid outlet of the graded wine extractor 41. The solid-state distillation apparatus 10 is a retort part, and the top end and the bottom end in the retort part are respectively provided with a pressure sensor 11.

In particular, the pressure sensor 11 may be a pressure transducer so that the pressure values of the top and bottom pressures within the solid state distillation apparatus 10 may be monitored during operation and the pressure values obtained during testing may be used as a reference. The graded wine extractor 41 is a wine extracting device commonly used in the prior art, and can be selected by a person skilled in the art according to needs.

A white spirit distillation method using the sectional distillation device for white spirit comprises the following steps:

and a filling step, namely filling the white spirit material into the solid-state distillation device 10 to form mixed steam of water vapor and volatile substances. Specifically, when the steam from the bottom of the phase distillation device 10 passes through the material, the temperature of the material is raised, and volatile substances (such as ethanol, higher alcohols, aldehydes, esters and the like) in the material are taken away, and the volatile substances form mixed steam along with the steam and enter the next step.

And a distillation step, namely acquiring a distillation pressure set value, a distillation time set value and a distillation temperature set value according to the variety of the white spirit and the boiling point of the fraction in the mixed steam in the liquor receiving stage.

The gas regulating mechanism 21 is adjusted to depressurize or pressurize the top pressure within the solid state distillation apparatus 10 according to the distillation pressure set point and distillation time set point selected for the liquor receiving stage.

The main condenser 20 and the secondary condenser 30 are adjusted according to the selection of the corresponding distillation time set point and distillation temperature set point for the liquor receiving stage, and the distillation temperature set point of the secondary condenser 30 is lower than that of the main condenser 20.

If the distillate appears at the wine outlet end of the main condenser 20, the liquid conveying part 31 is started to convey the distillate to the secondary condenser 30, and the distillate in the secondary condenser 30 automatically flows to the wine storage part 40.

The wine receiving stage comprises a wine head receiving stage, a base wine receiving stage and a wine tail receiving stage.

Specifically, the distillation pressure set value, the distillation time set value and the distillation temperature set value can be selected by those skilled in the art according to different types of white spirit, such as white spirit flavor types (strong flavor type, faint flavor type, phoenix flavor type, etc.). Furthermore, for the white spirit with the same flavor, the technological parameters can be tested and selected.

By adopting the scheme, the distillation pressure set value, the distillation time set value and the distillation temperature set value are obtained according to the varieties of the white spirits and the boiling points of the fractions in the mixed steam in the liquor receiving stage, so that dynamic condensation is realized in the whole process flow, namely, the low boiling point substances are distilled out as much as possible by negative pressure distillation aiming at the low boiling point substances, and the high boiling point substances are distilled out as much as possible by pressurizing distillation aiming at the high boiling point substances. In addition, it is possible to achieve staged condensation, i.e. finding an intermediate temperature between low boiling point and alcohol in the primary condenser 20, which can condense alcohol but does not condense low boiling point substances, which are separated from the separation chamber 211, and the active substance enters the secondary condenser 30. Thereby condensing the desired useful flavor materials in the secondary condenser 30 without condensing off or differentiating the condensation of harmful materials, such as low boiling materials (e.g., methanol, formaldehyde, hexanal) in the wine liquor, maximizing the condensation of the wine.

Further, the head pressure in the solid state distillation apparatus 10 is depressurized or pressurized at a preset slow rate of change

Specifically, the preset slow change rate can be selected according to actual equipment and a specific process environment, and the pressure is required to change slowly, so that sudden rising and falling are avoided. The specific value of the pressure change is not particularly limited in this embodiment, and the change rate of the pressure change is slow enough not to cause the instant break of the dynamic equilibrium of the solid, liquid and vapor tri-state substances in the solid-state distillation apparatus 10, and the influence thereof on the distillation efficiency.

By adopting the scheme, the dynamic balance of solid, liquid and vapor tri-state substances in the solid-state distillation device 10 can be prevented from being broken instantaneously, and the distillation efficiency is influenced.

Further, in the distillation step, the head pressure is raised or lowered by controlling the flow rate of the cooling liquid of the main condenser 20; if the top pressure in the solid-state distillation device 10 is lower than the preset low limit value in the decompression process, reducing the heat exchange flow of the main condenser 20 to raise the top pressure; if the head pressure is less than the preset warning value, the gas regulating mechanism 21 is controlled to raise the head pressure to the head pressure set value.

Specifically, as for the condenser itself, the condensing efficiency of itself also affects the pressure in the container, and when the flow rate of the cooling liquid is large, the condensing efficiency inside the condenser is high, and at this time, a negative pressure is easily formed, that is, the condenser itself can be used to adjust the pressure in the container in cooperation with the gas adjusting mechanism 21. The pressure jump can be prevented by changing the pressure inside the main condenser 20 more gently and more slowly in this way. The predetermined low limit and warning value can be determined experimentally, and the specific values can be selected by those skilled in the art according to the specific process environment, so as not to mix unnecessary high boiling point materials (such as fusel oil and higher alcohols such as aldehyde) into the wine.

For example, the set value is-0.4 bar, the set low limit value is-0.5 bar (also the alarm value), if the pressure varies between-0.4 and-0.5, it is normal, and if the pressure is less than-0.5 bar, for example, -0.52bar, it is too low, exceeding the alarm line. At this time, the air adjustment valve 213 of the air adjustment mechanism 21 is opened, and the outside air enters the solid state distillation apparatus 10 due to the negative pressure inside the solid state distillation apparatus 10, so that the pressure is increased back to-0.4 to-0.5.

With the above arrangement, when the head pressure in the solid state distillation apparatus 10 is too low, the boiling point of the liquid in the environment becomes too low, so that some of the unnecessary high boiling components are gasified and mixed into the wine. Therefore, by setting the lower limit value, it is possible to avoid such a situation, and the main condenser 20 can return the pressure gently by the heat exchange flow rate to avoid a sudden pressure change, but the change is slow, and at this time, if the value is smaller than the preset warning value, the gas adjustment mechanism 21 is controlled to return the pressure quickly.

Further, in the distillation step, the adjustment process of the distillation temperature set value is as follows:

distilling at normal pressure for 1-5 min; reducing the pressure to-0.2-0.8 bar, and distilling for 10-20 minutes; increasing the pressure to normal pressure and distilling for 15-25 minutes; pressurizing to 0.8-1.2bar, and distilling for 5-15 min; distilling under reduced pressure to normal pressure for 1-8 min.

Adopt above-mentioned scheme, different boiling point material is distillated off to different pressure that distill the wine stage adoption different pressure, the evaporation of the low boiling point material of the negative pressure acceleration part that begins, but not the condensation, the evaporation of the high boiling point material of negative pressure acceleration part simultaneously, nevertheless the wine liquid is gone into in the cooling, the malleation of rear end is in order to evaporate and condense the high boiling point material of rear end, in a word high boiling point material volatilizees and is favorable to richening the wine body after the condensation, promote the taste of producing wine, reduce the water flavor of producing wine.

Further, in the head-receiving stage, the head pressure setting is adjusted to a negative pressure by the pump member 212 and the negative pressure is maintained until the head receiving in the head-receiving stage is completed, and the distillation temperature setting of the main condenser 20 is higher than the boiling point of the low boiling substance.

Specifically, low boiling substances such as methanol, formaldehyde, hexanal and the like.

With the above arrangement, when the set value of the top pressure is adjusted to a negative pressure by the pump member 212, the pump member 212 also functions to suck out the low boiling point substance gas from the separation chamber 211. That is, in the case of the reduced pressure distillation, the liquid surface pressure is reduced and is more easily vaporized, and the vaporized low boiling point substance is less easily condensed into a liquid, and is further pumped to the atmosphere by the pump member 212, so that less low boiling point impurities enter the sub-condenser 30.

Further, before the tailing stage, the pressure at the top end in the solid distillation device 10 is controlled to be increased, and the distillation temperature is adjusted to be between the boiling point of the useful substances and the harmful high boiling point substances.

Specifically, pressure distillation is selected in the latter stage of the process flow, so that even harmful high-boiling substances (e.g., fusel oils and higher alcohols such as aldehydes) are distilled in the latter stage. However, the physical characteristics of these high boiling point materials are that they are easily dissolved in high concentration alcohol but not dissolved in water, and the alcohol concentration at the end of distillation is low, so that these high alcohol are not easily dissolved in low concentration alcohol, and part of them will be attached to the condensation pipeline, and flow out with the head of the next retort distillation, and the conventional way of cutting head and tail is adopted, and this part of head containing much fusel oil can be removed, so that the fusel oil content of the intermediate product wine can be reduced.

By adopting the scheme, during pressure distillation, proper pressure and temperature are selected, and the temperature is between the boiling point of a useful ester acid substance and a harmful high boiling point substance (such as fusel oil-isoamylol, the boiling point of which is 13l ℃, and the boiling point of furfural is 161.8 ℃), so that a useful high boiling point flavor substance is selectively distilled, and the useful high boiling point flavor substance can be easily condensed in the main condenser 20 or the secondary condenser 30 and enters the white spirit as long as the useful high boiling point flavor substance is distilled out.

Further, the distillation step is followed by a finished wine obtaining step and a grain pressure steaming step. Wherein the finished wine obtaining step obtains the finished wine by retaining the base wine and removing the foreshot and the feints. The step of pressure steaming steams grain and adjusts the gas adjusting mechanism 21 to pressurize the top pressure in the solid state distillation apparatus 10.

By adopting the scheme, in the process of the grain steaming process, the grain steaming is carried out under pressure, the volatilization of high-boiling-point substances is increased, steam generated in grain steaming is condensed and then discharged to a trench, and more high-boiling-point substances are evaporated in the grain steaming process, so that harmful high-boiling-point substances are evaporated and discharged in advance in grain steaming, less high-boiling-point substances are retained in fermented grains in the next round of distillation, and the content of high-boiling-point substances in a final product is reduced. Compared with the base wine in the middle section, the small-boiling-point substances (such as methanol, formaldehyde and hexanal) in the head of the wine are condensed into the wine together with the wine, the taste of the wine tails is poor, the wine body is turbid, the taste is sour and acerb, and the small-boiling-point substances are often poured as leftovers by wineries. Therefore, when the wine is picked, the wine head and the wine tail are removed, and only the base wine is taken, so that the quality of the finished wine can be improved.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that the foregoing is a more detailed description of the invention, and the specific embodiments thereof are not to be considered as limiting. Various changes in form and detail, including simple deductions or substitutions, may be made by those skilled in the art without departing from the spirit and scope of the invention.

Claims (6)

1. A sectional distillation device for white spirit is characterized by comprising a solid distillation device, a main condenser, a secondary condenser and a spirit storage component which are sequentially arranged; wherein

The wine inlet end of the main condenser is connected and communicated with the top end of the solid-state distillation device, the wine outlet end of the main condenser is provided with an air adjusting mechanism, the air adjusting mechanism comprises a separation chamber, a pump component and an air adjusting valve, the separation chamber is arranged at the wine outlet end of the main condenser and is communicated with the wine outlet end, and the top of the separation chamber is provided with air vents which are respectively connected with the pump component and the air adjusting valve;

the primary condenser and the secondary condenser each having a cooling water flow regulating valve to regulate cooling water flow into the respective condenser, and the cooling water flow regulating valve of the primary condenser, the pump member and the air regulating valve cooperate to regulate head pressure within the solid state distillation device;

the secondary condenser is arranged at the downstream of the liquid outlet direction of the main condenser, a liquid inlet of the secondary condenser is connected with the wine outlet end of the main condenser, and distillate of the main condenser is conveyed to the secondary condenser through a liquid conveying component;

the wine storage component is connected with a liquid outlet of the secondary condenser, and distillate in the secondary condenser can automatically flow to the wine storage component.

2. The stepwise distillation apparatus for white spirit according to claim 1, wherein the condensation temperature setting of the primary condenser is lower than a boiling point of a high boiling substance of the alcoholic beverage and higher than a boiling point of a low boiling substance of the alcoholic beverage, and the condensation temperature setting of the secondary condenser is lower than the boiling point of the low boiling substance of the alcoholic beverage.

3. The fractional distillation apparatus for white spirit according to claim 2, wherein the secondary condensers comprise at least one secondary condenser connected in series along the liquid conveying direction, and the liquid inlet of the secondary condenser is the most upstream liquid inlet of the at least one secondary condenser, and the liquid outlet of the secondary condenser is the most upstream liquid inlet of the at least one secondary condenser; and is provided with

The set value of the condensation temperature of the main condenser is 50-80 ℃, and the set value of the condensation temperature of each secondary condenser in the at least one secondary condenser is 10-40 ℃.

4. The staged distillation device for white spirit according to claim 1, wherein the air conditioning mechanism further comprises a waste disposal unit and a sealed water path, and the pump unit is connected to the waste disposal unit and the sealed water path, respectively.

5. The fractional distillation device for white spirit according to claim 1, wherein the liquid conveying component comprises a conveying pipeline and an infusion pump arranged on the conveying pipeline, and a liquor outlet end of the main condenser is provided with a liquid level switch;

when the liquid level switch detects distillate, the infusion pump is started, and when the liquid level switch does not detect the distillate, the infusion pump is stopped.

6. The fractional distillation apparatus for Chinese spirits according to claim 1, wherein said wine storage means comprises a staged wine extractor and a barrel corresponding to each liquid outlet of said staged wine extractor;

the solid distillation device is a retort barrel part, and the top end and the bottom end in the retort barrel part are respectively provided with a pressure sensor.

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