WO2015097652A1 - Plant and process for obtaining clear must from grapes and for vinification - Google Patents

Plant and process for obtaining clear must from grapes and for vinification Download PDF

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Publication number
WO2015097652A1
WO2015097652A1 PCT/IB2014/067236 IB2014067236W WO2015097652A1 WO 2015097652 A1 WO2015097652 A1 WO 2015097652A1 IB 2014067236 W IB2014067236 W IB 2014067236W WO 2015097652 A1 WO2015097652 A1 WO 2015097652A1
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WO
WIPO (PCT)
Prior art keywords
plant
tank
grape berries
centrifugal separator
grape
Prior art date
Application number
PCT/IB2014/067236
Other languages
French (fr)
Inventor
Carole RAPILLY
Marco FRANZOSO
Roberto Ferrarini
Original Assignee
Alfa Laval Corporate Ab
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Alfa Laval Corporate Ab filed Critical Alfa Laval Corporate Ab
Priority to ES14828538.0T priority Critical patent/ES2629756T3/en
Priority to US15/104,860 priority patent/US20170029754A1/en
Priority to EP14828538.0A priority patent/EP3049511B1/en
Priority to NZ720074A priority patent/NZ720074A/en
Priority to AU2014372197A priority patent/AU2014372197B2/en
Publication of WO2015097652A1 publication Critical patent/WO2015097652A1/en
Priority to ZA2016/03345A priority patent/ZA201603345B/en
Priority to US17/112,444 priority patent/US11807839B2/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12GWINE; PREPARATION THEREOF; ALCOHOLIC BEVERAGES; PREPARATION OF ALCOHOLIC BEVERAGES NOT PROVIDED FOR IN SUBCLASSES C12C OR C12H
    • C12G1/00Preparation of wine or sparkling wine
    • C12G1/02Preparation of must from grapes; Must treatment and fermentation
    • C12G1/0203Preparation of must from grapes; Must treatment and fermentation by microbiological or enzymatic treatment
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23NMACHINES OR APPARATUS FOR TREATING HARVESTED FRUIT, VEGETABLES OR FLOWER BULBS IN BULK, NOT OTHERWISE PROVIDED FOR; PEELING VEGETABLES OR FRUIT IN BULK; APPARATUS FOR PREPARING ANIMAL FEEDING- STUFFS
    • A23N1/00Machines or apparatus for extracting juice
    • A23N1/02Machines or apparatus for extracting juice combined with disintegrating or cutting
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12GWINE; PREPARATION THEREOF; ALCOHOLIC BEVERAGES; PREPARATION OF ALCOHOLIC BEVERAGES NOT PROVIDED FOR IN SUBCLASSES C12C OR C12H
    • C12G1/00Preparation of wine or sparkling wine
    • C12G1/005Methods or means to load or unload, to weigh or to sample the vintage; Replenishing; Separation of the liquids from the solids before or after fermentation
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12GWINE; PREPARATION THEREOF; ALCOHOLIC BEVERAGES; PREPARATION OF ALCOHOLIC BEVERAGES NOT PROVIDED FOR IN SUBCLASSES C12C OR C12H
    • C12G1/00Preparation of wine or sparkling wine
    • C12G1/02Preparation of must from grapes; Must treatment and fermentation

Definitions

  • the present invention refers to a plant and to a vinification process or, more precisely, to a plant and to a process for obtaining clear must or wine from grapes .
  • vinification is the biochemical and technological process of transforming grapes into wine and the refining thereof.
  • conventional procedures of processing the grape for obtaining must to be sent to fermentation normally foresee a first destemming and crushing step, which consists of the separation of the grapes from the stem, and a second pressing step, which allows most of the must present in the pulp of the grape berry to come out.
  • draining that consists of extracting the must from the solid parts without applied pressure; it can be static or dynamic, as a function of whether there is or is not movement of the crushed grapes during the operation and, in in this last case, continuous or discontinuous; the must obtained with this operation, with low mechanical impact on the plant matrix, is good quality and is defined "free-run must"; the draining operation can be carried out by specific machines, or also during the first crushing steps, when the extraction of the must continues without applying overpressure;
  • pressing which follows the draining and that consists of extracting must from the solid parts with the limited aid of pressure (maximum 2-3 bars); also in this case the technologies can be continuous or discontinuous; the latter, especially if of the pneumatic type, are more suitable for obtaining high quality must; the first fractions of must obtained at low pressure are still considered “free-run must”, whereas the following fractions, constitute the "press-must", which are generally intended for the production of low/average quality wines;
  • the must thus obtained can undergo a possible step of sediment removal, i.e. the separation of the particulate present in the must, such as to allow a clear must to be obtained with values of turbidity that are indicatively lower than 200-300 NTU ⁇ Nephelometric Turbidity Units), or in any case lower than 1.5% by weight of solids in suspension, considered optimal for the production of good quality white wines.
  • the methods foreseen for removing the sediment are generally sedimentation and flotation, static or dynamic, or less frequently filtration with rotary vacuum filters and centrifugation .
  • the sediment removal operation can be helped with the use of enzymes and/or clarifying substances.
  • the must contained in the sediment is further separated with systems that are suitable for operating with high solid content (press filters, vacuum rotary filters, decanters, etc.) .
  • red wines In the case of the production of red wines it is always foreseen for there to be, after the destemming and the pressing, a maceration step that can be simultaneous to the fermentation (traditional red vinification) , or it can be separated and prior to the alcoholic fermentation (thermovinification, "flash detente” and variants thereof, carbonic maceration or yet more) .
  • the separation of the solid parts can be carried out before the fermentation in the case in which there has been some sort of maceration of the grape, or after alcoholic fermentation (vinification in traditional red) : said separation is obtained with machines and technologies that are the same as those described for separating/extracting the must for the production of white wines.
  • Vinification processes of the known type described above usually require plants in which it is necessary to manage and control numerous machines and technologies that are different from one another.
  • Vinification plants of the known type are disclosed, for example, in documents CH 622 820 A5 and WO 91/05847 Al .
  • the separation/extraction processes of the must (draining and pressing) are complex, costly, require high labour for managing and cleaning and are always characterised by long process time, which clash with the essential criterion for obtaining must that is suitable for producing high quality white wines, that is to say that of a rapid process dictated by kinetics of the enzymatic reactions which are extremely efficient in the pre-fermentation step.
  • the vinification processes of the known type thus have a series of problems and of criticalities of various nature: management of space and logistics, high production costs and high costs for managing the various processes, environmental impact both due to the large amount of water used for washing the tanks and of the production lines, and to the necessity of disposing of the adjuvants used in the filtration and clarification steps.
  • the purpose of the present invention is therefore that of making a vinification plant and a process or more precisely, a plant and a process for obtaining clear must from grapes, that are capable of solving the drawbacks mentioned above of the prior art in an extremely simple, rapid, cost-effective and particularly functional manner.
  • one purpose of the present invention is that of making a plant and a process for obtaining clear must from grapes that are capable of reducing the number of processes and the amount of machinery used to carry out such processes, so that the plant and the production line are more compact and efficient with respect to conventional ones.
  • Another purpose of the present invention is that of making a plant and a process for obtaining clear must from grapes that are capable of reducing the consumption of water and of chemical substances and adjuvants used in the various processing steps, therefore leading to a lower environmental impact.
  • the process for obtaining clear must from grapes proposes to obtain, continuously and in a single fundamental processing step, starting from grape berries that are already destemmed or from bunches of grapes that are obtained through manual or mechanical picking methods, a must having a turbidity that is not greater than 200- 300 NTU ⁇ Nephelometric Turbidity Units), or in any case lower than 1.5% by weight of suspended solids, and a solid pressed part consisting of the skin, seeds, the turbid material separated from the must and the adjuvants used for the process.
  • the plant according to the present invention essentially operates by means of a centrifuge separator with horizontal axis (decanter) , as illustrated for example in the document of the prior art US-A-5656180, but it is integrated with specific equipment for homogenizing and dosing adjuvants, which operate before the centrifuge treatment and that determine in a fundamental manner the performance of such a decanter centrifuge separator and of the step of clarifying through flocculation .
  • clarification is well known and traditional in winemaking processes by using clarifying substances of different nature: animal proteins (for example: gelatine derived from cows or pigs, fish gelatine, casein, egg albumin) and more recently plants, mineral clarifying substances (for example: bentonite, silica sol and silica gel) and others. Their characteristics and their behaviour have been the object of studies in the past. The most recent studies (Ferrarini R. et al .
  • this shows a plant for obtaining clear must from grapes according to the present invention, wholly indicated with reference numeral 10.
  • the plant 10 is essentially made up of at least one centrifugal separator device with horizontal axis or decanter 12 that carries out a first separating operation, through application of a centrifugal force, between the liquid phase or must and the solid phase from the grape berries.
  • the centrifugal separator device 12 can indeed be configured so as to directly receive the grape berries without stems.
  • the plant can be provided, upstream of the centrifugal separator device 12, of a special device 14 for destemming or crushing capable of separating the grapes from the relative stem and possibly press them.
  • the solids extracted from the centrifugal separator device 12 are expelled from the plant 10 and can be treated according to procedures of the known type.
  • the plant 10 also comprises, downstream of the centrifugal separator device 12, at least one tank for stating settling and/or flotation 16 that receives the must from such a centrifugal separator device 12 and in which there is possibly a second separating operation between the liquid part of the must and the respective solid residue or tank bottoms.
  • This second separating operation can be spontaneous, or it can be facilitated by using gas (nitrogen or air) injected and dissolved in line before the tank for settling and/or flotation 16 through suitable systems, one of which is described in greater detail hereafter. In such a way it is simple to easily induce a subsequent separation of the residual solids through flotation and/or partial sedimentation.
  • the must possibly clarified by means of a production step that shall be described in greater detail in the rest of the description, is sent to special fermentation tanks (not shown) , whereas the solid residue or sediment is expelled from the plant 10 so as to possibly undergo known types of treatment.
  • the plant 10 comprises, upstream of the centrifugal separator device 12, at least one tank 18 operatively connected to at least one device 22 for feeding at least partially intact grape berries to said plant 10.
  • Said at least one tank 18 contains additives that are added to the grape berries when such grape berries are still at least partially intact.
  • these additives are made up of adjuvant and/or clarifying substances and possibly also of enzymes.
  • the enzymes pectolytic enzymes
  • the tank 18 comprises a first container 18A containing the enzymes, which is operatively connected to a homogenizer device 20 that is arranged between such a tank 18 and the centrifugal separator device 12. Inside the homogenizer device 20 there is thus an addition operation of such enzymes in the product made up of grape berries that are at least partially "crushed" and of a must liquid fraction. As previously mentioned, the enzymes could also be added to the grape berries before they are introduced inside the homogenizer device 20, as illustrated in the figure .
  • the tank 18 also comprises at least one other container 18B containing the adjuvant and/or clarifying substances, in particular made up of gelatine, proteins or cationic flocculants, which are added to the grape berries after they have come out from the homogenizer device 20 and before they have entered the centrifugal separator device 12.
  • the adjuvant and/or clarifying substances in particular made up of gelatine, proteins or cationic flocculants, which are added to the grape berries after they have come out from the homogenizer device 20 and before they have entered the centrifugal separator device 12.
  • the process for obtaining clear must from grapes according to the present invention is thus carried out according to the following steps. After a preliminary step of feeding the grape berries, which may or may not be destemmed, into the plant 10, there is a step of controlled addition of enzymes, which are dispensed from the first container 18A, to such grape berries while they are still in their solid phase. There is then a further step of controlled addition of adjuvant and/or clarifying substances, which are dispensed from the second container 18B, to the grape berries themselves while they are still at least partially intact .
  • the grape berries now with additives subsequently undergo a step of centrifugation in the centrifugal separator device 12, in such a way as to separate the liquid phase or must from the solid phase and the turbid flocculated substance by means of the specific clarifying substances used. Both the must, and the solids are thus extracted and collected in respective storing recipients.
  • the liquid part of the clarified must is finally sent to the final fermentation step without it being necessary for there to be further processing steps.
  • the must can be further and more easily clarified with other conventional processes (sedimentation, flotation, filtration, centrifugation) .
  • the must may not be intended for fermentation but rather for the production of juices or other non-fermented semi-finished products.
  • the final result of the process according to the present invention indeed consists of a must that is already clarified and of a quality that is at least the same as that of a must which could be obtained with conventional processes.
  • the operations carried out on the crushed grapes (white or rose) in the vinification step promote the oxygenation of the must and can lead to its oxidation.
  • the control of this oxygenation allows oxidative phenomena to be reduced and therefore allows the negative impact on the chemicals of the wine and, consequently, on its aromatic intensity, to be limited, while it ensures an improvement in the stability of the wine itself.
  • the process for obtaining clear must from grapes according to the present invention makes it possible to drastically shorten the times and the number of operations to obtain the desired level of clarification.
  • Such shortness and simplicity of the process offers the possibility of controlling the level of oxygenation as required by using gas (normally nitrogen) in the centrifugal extraction step and in the step immediately after.
  • the plant and the process for obtaining clear must from grapes according to the present invention obtain the purposes that were previously highlighted.
  • the plant and the process according to the present invention can substitute traditional plants provided with press and clarification machinery (filtration, flotation or centrifugation) , eliminating the equipment and the auxiliary steps (storing in the tanks, manipulations and pauses, filtration of the tank bottoms, must cooling, etc.) .
  • press and clarification machinery filtration, flotation or centrifugation

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
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  • Distillation Of Fermentation Liquor, Processing Of Alcohols, Vinegar And Beer (AREA)
  • Preparation Of Fruits And Vegetables (AREA)
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Abstract

A plant (10) is described for obtaining clear must 5 from grapes comprising at least one centrifugal separator device (12) with horizontal axis that is arranged to carry out a first separating operation, through application of a centrifugal force, between the liquid phase or must and the solid phase from the grape 10 berries in solid state, and at least one tank (16) for settling and/or flotation, either spontaneous or possibly promoted through injection of gas, said tank (16) for settling and/or flotation being arranged downstream of the centrifugal separator device (12) 15 with horizontal axis, said tank (16) for settling and/or flotation being configured to receive the must from such a centrifugal separator device (12) with horizontal axis and being configured to carry out a second separating operation between the liquid part of 20 the must and the respective solid residue or tank bottoms. The plant (10) also comprises, upstream of the centrifugal separator device (12) with horizontal axis, at least one tank (18) operatively connected to at least one device (22) for feeding at least partially 25 intact grape berries to the plant (10). The tank (18) is arranged to contain additives, in particular adjuvant and/or clarifying substances, that are added to the grape berries when such grape berries are still at least partially intact. A method for obtaining clear 30 must from grapes using the aforementioned plant (10) is moreover described.

Description

PLANT AND PROCESS FOR OBTAINING CLEAR MUST FROM GRAPES AND FOR VINIFICATION
The present invention refers to a plant and to a vinification process or, more precisely, to a plant and to a process for obtaining clear must or wine from grapes .
As known, vinification is the biochemical and technological process of transforming grapes into wine and the refining thereof. In the case of processing white wine and sometimes rose wine, conventional procedures of processing the grape for obtaining must to be sent to fermentation normally foresee a first destemming and crushing step, which consists of the separation of the grapes from the stem, and a second pressing step, which allows most of the must present in the pulp of the grape berry to come out.
Then there is a separation step of the solids (skin and seeds) and an extraction step of the must left in them. This operation is articulated, according to the conditions (pressure) , into three steps that can be actuated by one or more machines:
1. draining, that consists of extracting the must from the solid parts without applied pressure; it can be static or dynamic, as a function of whether there is or is not movement of the crushed grapes during the operation and, in in this last case, continuous or discontinuous; the must obtained with this operation, with low mechanical impact on the plant matrix, is good quality and is defined "free-run must"; the draining operation can be carried out by specific machines, or also during the first crushing steps, when the extraction of the must continues without applying overpressure;
2. pressing, which follows the draining and that consists of extracting must from the solid parts with the limited aid of pressure (maximum 2-3 bars); also in this case the technologies can be continuous or discontinuous; the latter, especially if of the pneumatic type, are more suitable for obtaining high quality must; the first fractions of must obtained at low pressure are still considered "free-run must", whereas the following fractions, constitute the "press-must", which are generally intended for the production of low/average quality wines;
3. screw-pressing, which follows the pressing and that consists of extracting the residual must that is present in the solid parts with the aid of higher pressure; the musts thus obtained ("last presses") are generally intended for the production of semi¬ finished goods such as "sulfited musts" so as to then be transformed into RCM (acronym of "rectified concentrated must") .
These separation/extraction technologies of the must are also used in processing red wines for separating the must, after hot maceration, and for separating wine, after fermentation carried out in the presence of solid parts (skin and seeds) .
The must thus obtained can undergo a possible step of sediment removal, i.e. the separation of the particulate present in the must, such as to allow a clear must to be obtained with values of turbidity that are indicatively lower than 200-300 NTU {Nephelometric Turbidity Units), or in any case lower than 1.5% by weight of solids in suspension, considered optimal for the production of good quality white wines. The methods foreseen for removing the sediment are generally sedimentation and flotation, static or dynamic, or less frequently filtration with rotary vacuum filters and centrifugation . The sediment removal operation can be helped with the use of enzymes and/or clarifying substances. In the case of sedimentation and of flotation, the must contained in the sediment is further separated with systems that are suitable for operating with high solid content (press filters, vacuum rotary filters, decanters, etc.) .
In some cases, in the production of white and rose wines, such operations are preceded by a maceration step so-called "skin contact" , carried out also at temperatures that are lower than room temperature (cold maceration or cryo-maceration) . The clear must in any case obtained is thus intended for alcoholic fermentation, in general managed at a controlled temperature.
In the case of the production of red wines it is always foreseen for there to be, after the destemming and the pressing, a maceration step that can be simultaneous to the fermentation (traditional red vinification) , or it can be separated and prior to the alcoholic fermentation (thermovinification, "flash detente" and variants thereof, carbonic maceration or yet more) . Then, in the case of the production of red wines, the separation of the solid parts (skin and seeds) can be carried out before the fermentation in the case in which there has been some sort of maceration of the grape, or after alcoholic fermentation (vinification in traditional red) : said separation is obtained with machines and technologies that are the same as those described for separating/extracting the must for the production of white wines.
All wines, white and red, after alcoholic fermentation require one or more settling operations, often operating with settling in tank and possibly with the addition of clarifying substances. The lees (sediment) is further filtered with special filters (plate or vacuum filters), or through disc centrifuges or continuous centrifuges with horizontal axis, called decanters. From this operation a "wine from lees" and semi-solid lees are obtained intended for distillation.
Vinification processes of the known type described above usually require plants in which it is necessary to manage and control numerous machines and technologies that are different from one another. Vinification plants of the known type are disclosed, for example, in documents CH 622 820 A5 and WO 91/05847 Al . Specifically, the separation/extraction processes of the must (draining and pressing) are complex, costly, require high labour for managing and cleaning and are always characterised by long process time, which clash with the essential criterion for obtaining must that is suitable for producing high quality white wines, that is to say that of a rapid process dictated by kinetics of the enzymatic reactions which are extremely efficient in the pre-fermentation step.
Moreover, certain separation steps of the process, like for example filtration, require long time in order to be carried out, the use of specialised labour, the use of tanks and, in the case of filtration (dead-end, flooding), the use of filtration adjuvants (fossil meals and minerals) . All this translates into having substantial management costs, logistic complexity, high water and energy consumption that jeopardise the "sustainability of the wine". Even the methods of separation through sedimentation or flotation are characterised by similar critical factors, i.e. use of tanks and the washing and disinfection thereof, production of solid and liquid waste.
The vinification processes of the known type thus have a series of problems and of criticalities of various nature: management of space and logistics, high production costs and high costs for managing the various processes, environmental impact both due to the large amount of water used for washing the tanks and of the production lines, and to the necessity of disposing of the adjuvants used in the filtration and clarification steps.
In addition, the most recent and increasingly more widespread methods of mechanically picking the grapes, which are rapid and efficient and that make it possible to obtain grape berries that are already without their stems, require vinification plants and processes that are just as rapid and efficient in order for the entire production chain to be correctly balanced, as well as rapidity in the processes dictated by kinetics of the enzymatic reactions that are responsible for the deterioration in terms of quality of the must, especially in the case of processing white wines, the quality of which is strongly conditioned by the pre- fermentation operations. This objective is not always achieved with conventional plants and processes for obtaining must from the grape.
The purpose of the present invention is therefore that of making a vinification plant and a process or more precisely, a plant and a process for obtaining clear must from grapes, that are capable of solving the drawbacks mentioned above of the prior art in an extremely simple, rapid, cost-effective and particularly functional manner.
In detail, one purpose of the present invention is that of making a plant and a process for obtaining clear must from grapes that are capable of reducing the number of processes and the amount of machinery used to carry out such processes, so that the plant and the production line are more compact and efficient with respect to conventional ones.
Another purpose of the present invention is that of making a plant and a process for obtaining clear must from grapes that are capable of reducing the consumption of water and of chemical substances and adjuvants used in the various processing steps, therefore leading to a lower environmental impact.
These purposes according to the present invention are achieved by making a vinification plant and process or, more precisely, a plant for obtaining clear must from grapes as outlined in the independent claims.
Further characteristics of the invention are highlighted by the dependent claims, which are an integrating part of the present description.
In brief, the process for obtaining clear must from grapes according to the present invention proposes to obtain, continuously and in a single fundamental processing step, starting from grape berries that are already destemmed or from bunches of grapes that are obtained through manual or mechanical picking methods, a must having a turbidity that is not greater than 200- 300 NTU {Nephelometric Turbidity Units), or in any case lower than 1.5% by weight of suspended solids, and a solid pressed part consisting of the skin, seeds, the turbid material separated from the must and the adjuvants used for the process. The plant according to the present invention essentially operates by means of a centrifuge separator with horizontal axis (decanter) , as illustrated for example in the document of the prior art US-A-5656180, but it is integrated with specific equipment for homogenizing and dosing adjuvants, which operate before the centrifuge treatment and that determine in a fundamental manner the performance of such a decanter centrifuge separator and of the step of clarifying through flocculation .
In all the pilot experiences it has indeed been demonstrated that the essential factors for obtaining a correct efficiency of the centrifuge process is to supply the centrifuge separator with horizontal axis (decanter) with a homogeneous mass of solids and liquid. It has also been demonstrated that obtaining a must that is separated with a level of limpidity that is lower than 200-300 NTU can be obtained exclusively if the product has undergone pre-emptive enzymatic action and, especially, if suitable doses of clarifying adjuvants are dosed before centrifugation .
Using clarification is well known and traditional in winemaking processes by using clarifying substances of different nature: animal proteins (for example: gelatine derived from cows or pigs, fish gelatine, casein, egg albumin) and more recently plants, mineral clarifying substances (for example: bentonite, silica sol and silica gel) and others. Their characteristics and their behaviour have been the object of studies in the past. The most recent studies (Ferrarini R. et al . , "Importance des charges electriques superficielles des adjuvants osnologiques des particules et des colloldes presents dans les mouts et les vins" , Revue Frangaise d'CEnologie - Cahier Scientifique, 158, 1-10, 1996; Ferrarini R. et al . , "Messa a punto di metodi per la valutazione mediante streaming current detector delle cariche elettriche superficiali delle particelle e dei colloidi di interesse enologico" , 2nd National Congress on Food Chemistry, Giardini Naxos, 24-27 May 1995. Proceedings, 223-230, 1995) have highlighted the importance of their electric charge in the processes of clarification through sedimentation and flotation (Ferrarini R. et al., "Recent advances in the process of flotation applied to the clarification of grape must", Journal Of Wine Research, 6 (1), 19-33, 1995) . However, their use has always been studied and applied exclusively in processes of clarification of musts and wines and has never been the object of study let alone of wine practice in treating directly the whole grape and/or after being pressed, that is to say on a means containing must and the solid parts of the grape (skin and seeds) . This element is innovative and essential for obtaining the purposes of the present invention.
The characteristics and the advantages of a plant and of a process for obtaining clear must from grapes according to the present invention shall become clearer from the following description, given as an example and not for limiting purposes, with reference to the attached schematic drawings in which the single figure is a schematic view of the main components of such a plant .
With reference to the figure, this shows a plant for obtaining clear must from grapes according to the present invention, wholly indicated with reference numeral 10. The plant 10 is essentially made up of at least one centrifugal separator device with horizontal axis or decanter 12 that carries out a first separating operation, through application of a centrifugal force, between the liquid phase or must and the solid phase from the grape berries. The centrifugal separator device 12 can indeed be configured so as to directly receive the grape berries without stems. In case of the processing of grapes picked manually, the plant can be provided, upstream of the centrifugal separator device 12, of a special device 14 for destemming or crushing capable of separating the grapes from the relative stem and possibly press them. The solids extracted from the centrifugal separator device 12 are expelled from the plant 10 and can be treated according to procedures of the known type.
The plant 10 also comprises, downstream of the centrifugal separator device 12, at least one tank for stating settling and/or flotation 16 that receives the must from such a centrifugal separator device 12 and in which there is possibly a second separating operation between the liquid part of the must and the respective solid residue or tank bottoms. This second separating operation can be spontaneous, or it can be facilitated by using gas (nitrogen or air) injected and dissolved in line before the tank for settling and/or flotation 16 through suitable systems, one of which is described in greater detail hereafter. In such a way it is simple to easily induce a subsequent separation of the residual solids through flotation and/or partial sedimentation. The must, possibly clarified by means of a production step that shall be described in greater detail in the rest of the description, is sent to special fermentation tanks (not shown) , whereas the solid residue or sediment is expelled from the plant 10 so as to possibly undergo known types of treatment.
According to the invention, the plant 10 comprises, upstream of the centrifugal separator device 12, at least one tank 18 operatively connected to at least one device 22 for feeding at least partially intact grape berries to said plant 10. Said at least one tank 18 contains additives that are added to the grape berries when such grape berries are still at least partially intact. In particular, these additives are made up of adjuvant and/or clarifying substances and possibly also of enzymes. As an alternative, the enzymes (pectolytic enzymes) can be added also in previous processing steps, like for example during mechanical picking. This intervention is known and is often used in conventional grape processing. On the contrary, in plants and in processes known to this day, the clarifying substances (like for example gelatine, proteins, bentonite, silica gel or silica sol and others) are added only to the liquid phases (must or wine) . In detail, the tank 18 comprises a first container 18A containing the enzymes, which is operatively connected to a homogenizer device 20 that is arranged between such a tank 18 and the centrifugal separator device 12. Inside the homogenizer device 20 there is thus an addition operation of such enzymes in the product made up of grape berries that are at least partially "crushed" and of a must liquid fraction. As previously mentioned, the enzymes could also be added to the grape berries before they are introduced inside the homogenizer device 20, as illustrated in the figure .
The tank 18 also comprises at least one other container 18B containing the adjuvant and/or clarifying substances, in particular made up of gelatine, proteins or cationic flocculants, which are added to the grape berries after they have come out from the homogenizer device 20 and before they have entered the centrifugal separator device 12.
The process for obtaining clear must from grapes according to the present invention is thus carried out according to the following steps. After a preliminary step of feeding the grape berries, which may or may not be destemmed, into the plant 10, there is a step of controlled addition of enzymes, which are dispensed from the first container 18A, to such grape berries while they are still in their solid phase. There is then a further step of controlled addition of adjuvant and/or clarifying substances, which are dispensed from the second container 18B, to the grape berries themselves while they are still at least partially intact . The grape berries now with additives subsequently undergo a step of centrifugation in the centrifugal separator device 12, in such a way as to separate the liquid phase or must from the solid phase and the turbid flocculated substance by means of the specific clarifying substances used. Both the must, and the solids are thus extracted and collected in respective storing recipients.
The liquid part of the clarified must is finally sent to the final fermentation step without it being necessary for there to be further processing steps. As an alternative, the must can be further and more easily clarified with other conventional processes (sedimentation, flotation, filtration, centrifugation) . Again as an alternative, the must may not be intended for fermentation but rather for the production of juices or other non-fermented semi-finished products. The final result of the process according to the present invention indeed consists of a must that is already clarified and of a quality that is at least the same as that of a must which could be obtained with conventional processes. With the process according to the present invention it is moreover possible to drastically reduce the amount of sediment that is separated through sedimentation and/or flotation in the special tank 16 with respect to what occurs in conventional processes, making it possible to even recover the must from such a tank for settling and/or flotation 16 through the centrifugal separator device 12.
Before the final fermentation step the operations carried out on the crushed grapes (white or rose) in the vinification step promote the oxygenation of the must and can lead to its oxidation. The control of this oxygenation allows oxidative phenomena to be reduced and therefore allows the negative impact on the chemicals of the wine and, consequently, on its aromatic intensity, to be limited, while it ensures an improvement in the stability of the wine itself.
The process for obtaining clear must from grapes according to the present invention makes it possible to drastically shorten the times and the number of operations to obtain the desired level of clarification. Such shortness and simplicity of the process offers the possibility of controlling the level of oxygenation as required by using gas (normally nitrogen) in the centrifugal extraction step and in the step immediately after.
The process foresees to inject the inert gas, directly together with the crushed grapes, in inlet to the centrifugal separator device 12, in predetermined points outside of such a centrifugal separator device 12 and close to the outlet point of the clarified must (see figure) . Through this injection of inert gas it is possible to reduce the oxygenation of the must up to over 60%. The remaining oxygen, which may have been transferred to the must in the centrifugal extraction step, is subjected to stripping with the help of a gas mixer 24, arranged between the centrifugal separator device 12 and the tank for settling and/or flotation 16.
It has thus been seen that the plant and the process for obtaining clear must from grapes according to the present invention obtain the purposes that were previously highlighted. Actually, the plant and the process according to the present invention can substitute traditional plants provided with press and clarification machinery (filtration, flotation or centrifugation) , eliminating the equipment and the auxiliary steps (storing in the tanks, manipulations and pauses, filtration of the tank bottoms, must cooling, etc.) . In addition, in the case in which the grape is picked mechanically, even the further destemming/crushing-destemming and homogenisation step can be eliminated.
The advantages of the plant and of the process according to the present invention can thus be summarised as follows: cutting down of the cost, lower environmental impact (high sustainability) , advantages in the production processes of the grape coming from mechanical grape harvest (quick production in a single step, possible elimination of the destemming/crushing- destemming device) , greater yield, lower water consumption and lower use of cooling systems, due to the fact that the process substantially occurs at room temperature and that it is only necessary to cool the already clarified must.
The plant and the process for obtaining clear must from grapes of the present invention thus conceived can in any case undergo numerous modifications and variants, all covered by the same inventive concept; moreover, all the details can be replaced by technically equivalent elements. In practice the materials used, as well as the shapes and sizes, may be any according to the technical requirements.
Finally, such a process with the suitable modifications and variants, but operating conceptually on the same principle, can be applied to separate the solid parts of the grape (skin and seeds) after the oenological processes that foresee a maceration step of the white and red grapes: cold maceration, skin maceration, hot maceration, "flash detente" , carbonic maceration, etc.
The scope of protection of the invention is thus defined in the attached claims.

Claims

1. Plant (10) for obtaining clear must from grapes comprising :
- at least one centrifugal separator device (12) with horizontal axis that is arranged to carry out a first separating operation, through application of a centrifugal force, between the liquid phase or must and the solid phase from the grape berries in solid state; and
- at least one tank (16) for settling and/or flotation, either spontaneous or possibly promoted through injection of gas, said tank (16) for settling and/or flotation being arranged downstream of the centrifugal separator device (12) with horizontal axis, said tank (16) for settling and/or flotation being configured to receive the must from said centrifugal separator device (12) with horizontal axis and being configured to carry out a second separation operation between the liquid part of the must and the respective solid residue or tank bottoms ,
the plant (10) being characterised in that it comprises, upstream of the centrifugal separator device (12) with horizontal axis, at least one tank (18) operatively connected to at least one device (22) for feeding at least partially intact grape berries to said plant (10), said at least one tank (18) being arranged to contain additives that are added to the grape berries when said grape berries are still at least partially intact.
2. Plant (10) according to claim 1, characterised in that said additives comprises adjuvant and/or clarifying substances.
3. Plant (10) according to claim 2, characterised in that said adjuvant and/or clarifying substances are selected from the group consisting of gelatine, proteins and cationic flocculants.
4. Plant (10) according to claim 2 or 3, characterised in that said additives consists of enzymes .
5. Plant (10) according to claim 4, characterised in that said at least one tank (18) arranged to contain additives comprises a first container (18A) containing the enzymes.
6. Plant (10) according to claim 5, characterised in that the first container (18A) is operatively connected to a homogenizer device (20) arranged between said at least one tank (18) arranged to contain additives and the centrifugal separator device (12) with horizontal axis, wherein an addition operation of said enzymes to the grape berries while they are still at least partially intact is carried out inside said homogenizer device (20) .
7. Plant (10) according to claim 5 or 6, characterised in that said at least one tank (18) arranged to contain additives also comprises at least one second container (18B) containing the adjuvant and/or clarifying substances, which are added to the grape berries after they have come out from the homogenizer device (20) and before they have entered into the centrifugal separator device (12) with horizontal axis.
8. Plant (10) according to any one of the claims from 1 to 7, characterised in that it comprises, upstream of the centrifugal separator device (12) with horizontal axis, a destemming or crushing-destemming device (14), capable of separating the grape berries from the relative stem and possibly crushing them.
9. Plant (10) according to any one of the claims from 1 to 8, characterised in that it comprises a gas mixer (24) arranged between the centrifugal separator device (12) and the tank (16) for settling and/or flotation, said gas mixer (24) being configured to carry out the stripping of oxygen from the must.
10. Process for obtaining clear must from grapes in a plant (10) according to any one of the claims from 1 to 9, the process comprising the steps of:
- feeding the grape berries into the plant (10);
- controlled addition of adjuvant and/or clarifying substances to said grape berries while they are still at least partially intact;
- centrifuging said grape berries, in such a way as to separate the liquid phase or must from the solid phase;
- extracting and collecting the solid phase in a respective storage container; and
- settling and/or flotation, either spontaneous or possibly promoted through injection of gas, of the liquid phase or must so that the separation step between the liquid phase of said must and the respective solid residue or tank bottoms takes place.
11. Process according to claim 10, characterised in that said adjuvant and/or clarifying substances are selected from the group consisting of gelatine, proteins and cationic flocculants.
12. Process according to claim 10 or 11, characterised in that it comprises, upstream of the step of controlled addition of adjuvant and/or clarifying substances to the grape berries, a step of controlled addition of enzymes to said grape berries while they are still at least partially intact.
13. Process according to any one of the claims from 10 to 12, characterised in that it comprises, upstream of the step of controlled addition of adjuvant and/or clarifying substances to the grape berries, a destemming or crushing-destemming step (14) to separate said grape berries from the relative stem and possibly press them.
14. Process according to any one of claims 10 to 13, characterised in that it comprises, downstream of the settling and/or flotation step of the liquid phase or must, a fermentation step of said must.
15. Process according to any one of claims 10 to 14, characterised in that it is applied in the separation of the solid parts of the grape (skin and seeds) after the oenological processes that foresee a maceration step of the white and red grapes.
PCT/IB2014/067236 2013-12-23 2014-12-22 Plant and process for obtaining clear must from grapes and for vinification WO2015097652A1 (en)

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ES14828538.0T ES2629756T3 (en) 2013-12-23 2014-12-22 Installation and process for obtaining clear must from the grape and for winemaking
US15/104,860 US20170029754A1 (en) 2013-12-23 2014-12-22 Plant and process for obtaining clear must from grapes and for vinification
EP14828538.0A EP3049511B1 (en) 2013-12-23 2014-12-22 Plant and process for obtaining clear must from grapes and for vinification
NZ720074A NZ720074A (en) 2013-12-23 2014-12-22 Plant and process for obtaining clear must from grapes and for vinification
AU2014372197A AU2014372197B2 (en) 2013-12-23 2014-12-22 Plant and process for obtaining clear must from grapes and for vinification
ZA2016/03345A ZA201603345B (en) 2013-12-23 2016-05-17 Plant and process for obtaining clear must from grapes and for vinification
US17/112,444 US11807839B2 (en) 2013-12-23 2020-12-04 Plant and process for obtaining clear must from grapes and for vinification

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IT002197A ITMI20132197A1 (en) 2013-12-23 2013-12-23 PLANT AND PROCESS FOR THE OBTAINING OF A CLEAR MUST AT THE GRAPE VINIFICATION AND FOR WINE-MAKING
ITMI2013A002197 2013-12-23

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ITUB20153386A1 (en) * 2015-09-03 2017-03-03 Univ Pisa A PROCESS FOR THE VINIFICATION OF THE GRAPE WITHOUT ADDED CHEMICAL ADDITIVES

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US20230272314A1 (en) 2020-07-13 2023-08-31 Talleres Ruiz S.A. Self-cleaning homogeneous mixer-bleeder system composed of a set of screens and a bleed manifold

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EP3049511A1 (en) 2016-08-03
ZA201603345B (en) 2017-09-27
PT3049511T (en) 2017-07-07
US11807839B2 (en) 2023-11-07
EP3196286B1 (en) 2018-04-25
AU2014372197B2 (en) 2017-03-30
EP3049511B1 (en) 2017-04-05
PT3196286T (en) 2018-07-03
AR099919A1 (en) 2016-08-31
ES2629756T3 (en) 2017-08-14
US20210139823A1 (en) 2021-05-13
ITMI20132197A1 (en) 2015-06-24
AU2014372197A1 (en) 2016-06-23
CL2016001573A1 (en) 2016-12-23

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