EP4192262A1 - Utilisation d'une fibre de fruit désestérifiée, activable, pour la production de produits - Google Patents
Utilisation d'une fibre de fruit désestérifiée, activable, pour la production de produitsInfo
- Publication number
- EP4192262A1 EP4192262A1 EP21759037.1A EP21759037A EP4192262A1 EP 4192262 A1 EP4192262 A1 EP 4192262A1 EP 21759037 A EP21759037 A EP 21759037A EP 4192262 A1 EP4192262 A1 EP 4192262A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- fiber
- fruit
- activatable
- weight
- esterified
- Prior art date
- Legal status (The legal status 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 status listed.)
- Pending
Links
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- A61K8/97—Cosmetics or similar toiletry preparations characterised by the composition containing materials, or derivatives thereof of undetermined constitution from algae, fungi, lichens or plants; from derivatives thereof
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- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08B—POLYSACCHARIDES; DERIVATIVES THEREOF
- C08B37/00—Preparation of polysaccharides not provided for in groups C08B1/00 - C08B35/00; Derivatives thereof
- C08B37/0006—Homoglycans, i.e. polysaccharides having a main chain consisting of one single sugar, e.g. colominic acid
- C08B37/0045—Homoglycans, i.e. polysaccharides having a main chain consisting of one single sugar, e.g. colominic acid alpha-D-Galacturonans, e.g. methyl ester of (alpha-1,4)-linked D-galacturonic acid units, i.e. pectin, or hydrolysis product of methyl ester of alpha-1,4-linked D-galacturonic acid units, i.e. pectinic acid; Derivatives thereof
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08B—POLYSACCHARIDES; DERIVATIVES THEREOF
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- C08B37/0048—Processes of extraction from organic materials
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- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
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- D—TEXTILES; PAPER
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- D01C—CHEMICAL OR BIOLOGICAL TREATMENT OF NATURAL FILAMENTARY OR FIBROUS MATERIAL TO OBTAIN FILAMENTS OR FIBRES FOR SPINNING; CARBONISING RAGS TO RECOVER ANIMAL FIBRES
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- A61K2800/40—Chemical, physico-chemical or functional or structural properties of particular ingredients
- A61K2800/48—Thickener, Thickening system
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- C—CHEMISTRY; METALLURGY
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- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
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- C08L2205/14—Polymer mixtures characterised by other features containing polymeric additives characterised by shape
- C08L2205/16—Fibres; Fibrils
Definitions
- the present invention relates to the use of an activatable, de-esterified fruit fiber for the production of products in the food or non-food sector.
- the invention also relates to products containing the activatable, de-esterified fruit fiber.
- Dietary fibers are largely indigestible food components, mostly carbohydrates, which are mainly found in plant foods.
- dietary fiber is divided into water-soluble dietary fiber such as pectin and water-insoluble dietary fiber such as cellulose. Fiber is considered an important part of human nutrition.
- the consumption of dietary fiber is considered to be good for your health.
- the use of fruit fibres, such as sugar beet, apple or citrus fibres, as roughage in the production of food is becoming increasingly important.
- the fruit fibers are a mixture of insoluble dietary fibers such as cellulose and soluble dietary fibers such as pectin and thus ideally result in a health-promoting spectrum of effects.
- the functional properties of food products can be changed by using fruit fibers such as citrus fibers or apple fibers. Fruit fibers are now also used in non-food products.
- US Pat. No. 5,964,983 teaches the use of a microfibrillar cellulose produced from sugar beets as a thickening agent for paints or drilling fluids.
- the process disclosed in US Pat. No. 5,964,983 is very complex because it includes both an acidic/alkaline extraction, followed by an aqueous washing step, pressure homogenization, an ethanolic washing step and drying.
- the fiber properties change significantly depending on the manufacturing process and thus also determine the usability for optimizing food products or non-food products.
- the object of the present invention is to improve the prior art or to offer an alternative to it.
- the stated object is achieved by using an activatable, de-esterified fruit fiber for the production of a product selected from the group consisting of foodstuffs, animal feed, consumer goods, animal supplies, hygiene articles, body care products, cleaning agents, coating materials, care products, explosives, lubricants, Coolant, plastic product, textiles, imitation leather, paint, ink, paint, building material, composite material, paper, cardboard, adhesive, fertilizer, drug, medical device, battery, with the activatable, de-esterified fruit fiber having a water-soluble pectin content of 10% by weight or less .
- the activatable, deesterified fruit fiber is preferably an activatable, deesterified citrus fiber or an activatable, deesterified apple fiber.
- the activatable, de-esterified fruit fiber advantageously has a water-soluble pectin content of 10% by weight or less.
- the water-soluble pectin content in an activatable, de-esterified citrus or apple fiber has a pectin content of 10% by weight or less, is advantageously between 2% and 8% by weight and more preferably between 2% and 6% by weight.
- the content of water-soluble pectin in an activatable, deesterified citrus or apple fiber can be 2% by weight, 3% by weight, 4% by weight, 5% by weight, 6% by weight, 7% by weight, 8% by weight, 9 or 9.5 % by weight.
- fibers are fibers that can be activated, which have a satisfactory strength due to the partial activation in the manufacturing process. However, in order to obtain the optimal rheological properties such as viscosity, gelation or texturing, the user has to apply additional shearing forces. It is therefore a matter of partially activated fibers, which can, however, be further activated.
- partially activated fibers is therefore synonymous with the term “activatable fibers” in the context of the present application.
- the activatable, deesterified fruit fiber used according to the invention is more potent in its effect. Compared to modified starch, less than half the amount can be used to produce a fatty cream with comparable baking stability.
- the activatable, pectin-containing (i.e. water-soluble pectin content ⁇ 10% by weight) and low-esterified fruit fiber obtained by the process described here is also referred to as "deesterified fruit fiber" for short within the scope of the invention.
- the fruit fibers produced using this method have good rheological properties.
- the fibers used according to the invention can easily be rehydrated in calcium-free water and the advantageous rheological properties are retained even after rehydration.
- the activatable, de-esterified fruit fibers are obtained from fruits and are therefore natural ingredients with well-known positive properties.
- Plant processing residues such as apple pomace or citrus pomace can be used as raw materials in the manufacturing process described below. These processing residues are inexpensive, are available in sufficient quantities and provide a sustainable and ecologically sound source of the fruit fibers that can be used in accordance with the invention.
- Fruit fibers are established and accepted in the food industry, so that corresponding compositions can be used immediately and internationally without lengthy approval processes.
- the invention in detail in a second aspect, relates to the use of an activatable, deesterified fruit fiber in the construction sector, in well mining and in agriculture, characterized in that the activatable, deesterified fruit fiber has a water-soluble pectin content of 10% by weight or less.
- the activatable, deesterified fruit fiber is preferably an activatable, deesterified citrus fiber or an activatable, deesterified apple fiber.
- the activatable, deesterified fruit fiber used according to the invention can have one or more of the following functions: foaming agent, whipping agent, release agent, flow aid, stabilizer, emulsifier, carrier, filler, texturizer, thickener, gelling agent, firming agent, dietary fiber, reinforcing agent, humectant , filter aid, egg replacer, glazing agent, freeze-thaw stability improver and bake stability improver.
- the invention relates to the use of an activatable, de-esterified fruit fiber.
- an activatable, de-esterified fruit fiber can be obtained from pomace such as apple or citrus pomace, which is broken down by incubating an aqueous suspension of citrus or apple pomace as the starting material.
- the activatable pectin-containing fruit fiber used according to the invention also contains water-soluble pectin in addition to the insoluble fiber-bound pectin (also referred to as protopectin).
- Protopectins are insoluble pectins and probably not pure homoglycans.
- the polygalacturonic acid chains are connected to one another by complex bonding with divalent cations, via ferulic acid groups and borate complexes, and via glycosidic bonds with neutral sugar side chains, which can consist of arabinose, galactose, xylose, mannose and traces of fucose.
- the citrus fiber as explained above, also contains water-soluble pectin, it is also referred to as “citrus fiber containing pectin” within the scope of the invention.
- the activatable de-esterified fruit fiber is preferably an activatable de-esterified citrus fiber or an activatable de-esterified apple fiber.
- the activatable, de-esterified citrus fiber used in the present invention has a water-soluble pectin content of 10% by weight or less, the pectin having a degree of esterification of less than 50% and thus being a low ester pectin.
- this activatable, low-pectin, low-esterified citrus fiber is also referred to as “deesterified citrus fiber”.
- This de-esterified citrus fiber is preferably obtainable or obtained by the process described below.
- the de-esterified citrus fiber used according to the invention advantageously has a water-soluble pectin content of between 2% and 8% by weight and more preferably between 2% and 6% by weight.
- the content of water-soluble pectin in the activatable pectin-containing citrus fiber can be, for example, 2% by weight, 3% by weight, 4% by weight, 5% by weight, 6% by weight, 7% by weight, 8% by weight, 9% by weight or 9.5% by weight .
- the de-esterified citrus fiber has advantageous properties in terms of texturing and viscosification behavior, which can be read from the yield point and the dynamic Weissenberg number. Accordingly, the de-esterified citrus fiber may exhibit one or more of the following yield point and dynamic Weissenberg number characteristics, and advantageously exhibit all of these characteristics.
- the deesterified citrus fiber in a 2.5% strength by weight aqueous suspension has a yield point II (rotation) of 0.1-1.5 Pa, advantageously of 0.4-1.0 Pa, and particularly advantageously of 0. 6 - 0.8 Pa.
- the de-esterified citrus fiber in a 2.5% by weight aqueous suspension has a yield point II (crossover) of 0.1-1.0 Pa, advantageously of 0.2-0.7 Pa and particularly advantageously of 0.3- 0.5Pa.
- the deesterified citrus fiber in a 2.5% by weight aqueous dispersion, can have a yield point I (rotation) of 3.0-7.0 Pa, advantageously of 4.0-5.5 Pa and particularly advantageously of 4.3-5. 3 Pa.
- the de-esterified citrus fiber in a 2.5% by weight aqueous dispersion has a yield point I (Cross Over) of 4.0-7.0 Pa, advantageously of 4.5-6.5 Pa and particularly advantageously of 5 .0 - 6.0 Pa.
- the de-esterified citrus fiber in a 2.5% by weight aqueous suspension has a dynamic Weissenberg number of 7.0-10.0, advantageously 7.5-9.5 and particularly advantageously 8.1-9.1.
- the de-esterified citrus fiber in a 2.5% by weight aqueous dispersion has a dynamic Weissenberg number of 7.5-10.0, advantageously 8.0-9.5 and most advantageously 8.3-9.3.
- the deesterified citrus fiber can have all the characteristics in terms of yield point and dynamic Weissenberg number, with this deesterified citrus fiber preferably being obtainable by the process described below or being obtained thereby.
- the deesterified citrus fiber is dispersed as a 2.5% by weight solution according to the method disclosed in the examples , the measurement takes place after 1 h at 20°C.
- the deesterified citrus fiber is suspended as a 2.5% by weight solution according to the method disclosed in the examples , the measurement takes place after 1 h at 20°C.
- the deesterified citrus fiber has a strength of between 60 g and 240 g, preferably between 120 g and 200 g and particularly preferably between 140 and 180 g in an aqueous 4% by weight aqueous suspension.
- the deesterified citrus fiber has a viscosity of between 550 to 850 mPas, preferably from 600 to 800 mPas, and particularly preferably from 650 to 750 mPas, the deesterified citrus fiber being dispersed in water as a 2.5% by weight solution and the viscosity is measured at a shear rate of 50 s -1 at 20°C.
- a de-esterified citrus fiber with this high viscosity has the advantage that smaller amounts of fiber are required to thicken the end product.
- the fiber also creates a creamy texture.
- the de-esterified citrus fiber advantageously has a water binding capacity of more than 24 g/g, preferably more than 26 g/g, particularly preferably more than 28 g/g, and particularly preferably between 28 and 32 g/g.
- a water binding capacity of more than 24 g/g, preferably more than 26 g/g, particularly preferably more than 28 g/g, and particularly preferably between 28 and 32 g/g.
- the de-esterified citrus fiber has a moisture content of less than 15%, preferably less than 10%, and more preferably less than 8%.
- the de-esterified citrus fiber has a pH of from 5.0 to 6.0 and preferably from 5.2 to 5.7 in a 1.0% by weight aqueous suspension.
- the de-esterified citrus fiber advantageously has a particle size in which at least 90% of the particles are smaller than 450 ⁇ m, preferably smaller than 350 ⁇ m and in particular smaller than 250 ⁇ m.
- the deesterified citrus fiber has a lightness value of L*>84, preferably L*>86 and particularly preferably L*>88.
- the citrus fibers are thus almost colorless and do not lead to significant discoloration of the products when used in food products .
- the de-esterified citrus fiber has a dietary fiber content of 80 to 95%.
- the pectin content of the citrus fiber has been greatly reduced such that the de-esterified citrus fiber has 10% by weight or less of water-soluble pectin.
- the de-esterified citrus fiber has less than 8% by weight, and more preferably less than 6% by weight, of water-soluble pectin.
- the de-esterified citrus fiber advantageously has a water-soluble pectin content of between 2% and 8% by weight and more preferably between 2 and 6% by weight.
- the salary of water-soluble pectin in the deesterified citrus fiber may be, for example, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9% or 9.5% by weight.
- a low-esterified pectin is understood to mean a pectin which has a degree of esterification of less than 50%.
- the degree of esterification describes the percentage of the carboxyl groups in the galacturonic acid units of the pectin which are present in the esterified form, e.g. as methyl ester.
- the degree of esterification can be determined using the method according to JECFA (Monograph 19-2016, Joint FAO/WHO Expert Committee on Food Additives). The combination of depectinization and deesterification thus gives the citrus fiber used according to the invention, which is referred to as “deesterified citrus fiber” in the context of the invention.
- the de-esterified citrus fiber used in the present invention is preferably in powder form. This has the advantage that there is a formulation with low weight and high storage stability, which can also be used in a simple manner in terms of process technology. This formulation is only made possible by the citrus fiber used according to the invention, which, in contrast to modified starches, does not tend to form lumps when stirred into liquids.
- the activatable deesterified apple fiber used in the present invention has a pectin content of 10% by weight or less, the pectin having a degree of esterification of less than 50% and thus being a low ester pectin.
- This activatable, low-pectin, low-esterified apple fiber is also referred to as "deesterified apple fiber" for short within the scope of the invention.
- This de-esterified apple fiber is preferably obtainable or obtained by the process described below.
- the de-esterified apple fiber used according to the invention advantageously has a water-soluble pectin content of between 2% and 8% by weight and more preferably between 2% and 6% by weight.
- the content of water-soluble pectin in the activatable pectin-containing apple fiber can be, for example, 2% by weight, 3% by weight, 4% by weight, 5% by weight, 6% by weight, 7% by weight, 8% by weight, 9% by weight or 9.5% by weight .
- the deesterified apple fiber has advantageous properties in terms of texturing and viscosification behavior, which is due to the yield point and the dynamic Weissenberg number can be read. Accordingly, the de-esterified apple fiber may exhibit one or more of the following yield point and dynamic Weissenberg number characteristics, and advantageously exhibit all of these characteristics.
- the de-esterified apple fiber in a 2.5% by weight aqueous suspension has a yield point II (rotation) of 0.1-1.5 Pa, advantageously of 0.4-1.0 Pa, and particularly advantageously of 0. 6 - 0.8 Pa.
- the de-esterified apple fiber in a 2.5% by weight aqueous suspension has a yield point II (Cross Over) of 0.1-1.0 Pa, advantageously of 0.2-0.7 Pa and particularly advantageously of 0.3- 0.5Pa.
- the de-esterified apple fiber in a 2.5% by weight aqueous dispersion, can have a yield point I (rotation) of 3.0-7.0 Pa, advantageously of 4.0 to 5.5 Pa and particularly advantageously of 4.3-5. 3 Pa.
- the deesterified apple fiber in a 2.5% by weight aqueous dispersion has a yield point I (Cross Over) of 4.0-7.0 Pa, advantageously 4.5-6.5 Pa and particularly advantageously 5 .0 - 6.0 Pa.
- the de-esterified apple fiber in a 2.5% by weight aqueous suspension has a dynamic Weissenberg number of 7.0-10.0, advantageously 7.5-9.5 and particularly advantageously 8.1-9.1.
- the de-esterified apple fiber in a 2.5% by weight aqueous dispersion has a dynamic Weissenberg number of 7.5-10.0, advantageously 8.0-9.5 and most advantageously 8.3-9.3.
- the deesterified apple fiber can have all the characteristics in terms of yield point and dynamic Weissenberg number, with this deesterified apple fiber preferably being obtainable or being obtained by the process described below.
- the De-esterified apple fiber is dispersed as a 2.5% by weight solution according to the method disclosed in the examples, the measurement is carried out after 1 hour at 20.degree.
- the deesterified apple fiber is suspended as a 2.5% by weight solution according to the method disclosed in the examples , the measurement takes place after 1 h at 20°C.
- the de-esterified apple fiber has a strength of between 60 g and 240 g, preferably between 120 g and 200 g and particularly preferably between 140 and 180 g in an aqueous 4% strength by weight suspension.
- the deesterified apple fiber has a viscosity of between 550 to 850 mPas, preferably from 600 to 800 mPas, and particularly preferably from 650 to 750 mPas, the deesterified citrus fiber being dispersed in water as a 2.5% by weight solution and the viscosity is measured at a shear rate of 50 s -1 at 20°C.
- a de-esterified apple fiber with this high viscosity has the advantage that smaller amounts of fiber are required to thicken the end product. The fiber also creates a creamy texture.
- the de-esterified apple fiber advantageously has a water binding capacity of more than 24 g/g, preferably more than 26 g/g, particularly preferably more than 28 g/g, and particularly preferably between 28 and 32 g/g.
- a water binding capacity of more than 24 g/g, preferably more than 26 g/g, particularly preferably more than 28 g/g, and particularly preferably between 28 and 32 g/g.
- the de-esterified apple fiber has a moisture content of less than 15%, preferably less than 10% and more preferably less than 8%.
- the de-esterified apple fiber has a pH of 5.0 to 6.0 and preferably 5.2 to 5.7 in a 1.0% by weight aqueous suspension.
- the de-esterified apple fiber advantageously has a particle size in which at least 90% of the particles are smaller than 450 ⁇ m, preferably smaller than 350 ⁇ m and in particular smaller than 250 ⁇ m.
- the deesterified apple fiber has a lightness value L*>60, preferably L*>61 and particularly preferably L*>62.
- the apple fibers are thus almost colorless and do not lead to any appreciable discoloration of the products when used in food products .
- the de-esterified apple fiber has a dietary fiber content of 80 to 95%.
- the pectin content of the apple fiber has been greatly reduced such that the de-esterified apple fiber has 10% by weight or less of the water-soluble pectin.
- the de-esterified apple fiber has less than 8% by weight, and more preferably less than 6% by weight, of water-soluble pectin.
- the de-esterified apple fiber advantageously has a water-soluble pectin content of between 2% and 8% by weight and more preferably between 2 and 6% by weight.
- the content of water-soluble pectin in the deesterified apple fiber can be, for example, 2% by weight, 3% by weight, 4% by weight, 5% by weight, 6% by weight, 7% by weight, 8% by weight, 9% by weight or 9.5% by weight.
- a low-esterified pectin is understood to mean a pectin which has a degree of esterification of less than 50%.
- the degree of esterification describes the percentage of the carboxyl groups in the galacturonic acid units of the pectin which are present in the esterified form, e.g. as methyl ester.
- the degree of esterification can be determined using the JEFCA method (Monograph 19-2016, Joint FAO/WHO Expert Committee on Food Additives).
- the apple fiber used according to the invention which is referred to as “deesterified apple fiber” in the context of the invention, is thus obtained through the combination of depectinization and deesterification.
- the de-esterified apple fiber used in the present invention is preferably in powder form. This has the advantage that there is a formulation with low weight and high storage stability, which can also be used in a simple manner in terms of process technology. This formulation is only through the apple fiber used according to the invention which, in contrast to modified starches, does not tend to form lumps when stirred into liquids.
- the activatable, de-esterified fruit fiber is preferably a de-esterified citrus fiber or a de-esterified apple fiber and is obtainable by a process comprising the following steps:
- step (c) single or multi-stage separation of the digested material from step (b) from the aqueous liquid; and optionally a separation of larger particles by a classification process;
- step (d) enzymatic or acidic de-esterification of the separated, optionally classified material from step (c);
- step (e) in the case of material classified according to step (c), concentrating the de-esterified material from step (d) by ultrafiltration or evaporation of the liquid;
- step (f) washing the de-esterified material from step (d) or the concentrated material from step (e) at least twice with a water-miscible organic solvent and then separating the washed material from the water-miscible organic solvent each time;
- step (g) optionally additionally removing the water-miscible organic solvent by contacting the washed material from step (f) with steam;
- a fruit fiber according to the invention is a plant fibre, ie a fiber isolated from a nonlignified plant cell wall and consisting mainly of cellulose, and which is thereby isolated from a fruit.
- a fruit is to be understood here as the entirety of the organs of a plant that emerge from a flower, with both the classic fruit fruits and fruit vegetables being included.
- this fruit fiber is selected from the group consisting of citrus fibre, apple fibre, sugar beet fibre, carrot fiber and pea fibre, the plant fiber preferably being a fruit fiber and particularly preferably a citrus fiber or an apple fibre.
- an "apple fiber” is a primarily fibrous component isolated from a nonlignified plant cell wall of an apple and composed primarily of cellulose.
- the term fiber is somewhat misnomer, because apple fibers do not appear macroscopically as fibers, but are a powdered product.
- Other components of apple fiber include hemicellulose and pectin.
- the apple fiber can be obtained from all cultivated apples (malus domesticus) known to those skilled in the art. Processing residues from apples can advantageously be used here as the starting material.
- the starting material used can be apple peel, core casing, seeds or fruit pulp or a combination thereof.
- Apple pomace is preferably used as the starting material, i.e. the pressed residue from apples, which typically also contain the above-mentioned components in addition to the skins.
- a "citrus fiber” is a primarily fibrous component isolated from a nonlignified plant cell wall of a citrus fruit and composed primarily of cellulose.
- the term fiber is somewhat misnomer because citrus fibers do not appear macroscopically as fibers, but rather represent a powdered product.
- Other components of citrus fiber include hemicellulose and pectin.
- the citrus fiber can advantageously be obtained from citrus pulp, citrus peel, citrus vesicles, segmental membranes or a combination thereof.
- Citrus fruits and, preferably, processing residues of citrus fruits can be used as raw material for the production of a deesterified citrus fiber.
- a raw material for use in the method described here citrus peel (and here albedo and/or flavedo), citrus vesicles, segmental membranes or a combination thereof can be used.
- Citrus pomace is preferably used as the raw material, ie the residue from pressing citrus fruits, which typically also contain the pulp in addition to the peel.
- citrus fruits known to those skilled in the art can be used as citrus fruits.
- Non-limiting examples are: Tangerine (Citrus reticulata), Clementine (Citrus x aurantium Clementine group, syn.: Citrus Clementina), Satsuma (Citrus *aurantium Satsuma group, syn.: Citrus unshiu), Mangshan (Citrus mangshanensis), orange (Citrus *aurantium orange group, syn.: Citrus sinensis), bitter orange (Citrus *aurantium bitter orange group), bergamot (Citrus *limon bergamot group, syn.: Citrus bergamia), grapefruit (Citrus maxima) , grapefruit (Citrus *aurantium grapefruit group, syn.: Citrus paradisi) pomelo (Citrus *aurantium pomelo group), lime (Citrus *aurantiifolia), common lime (Citrus xaurantiifolia, syn.: Citrus lati foli
- the acid digestion in step (b) of the process serves to remove pectin by converting the protopectin into soluble pectin and at the same time activate the fiber by increasing the internal surface area. Furthermore, the raw material is thermally crushed by the digestion. It disintegrates into fruit fibers as a result of the acidic incubation in an aqueous medium under the influence of heat. This achieves thermal comminution, and a mechanical comminution step is therefore not necessary as part of the manufacturing process. This represents a decisive advantage over conventional fiber manufacturing processes, which in contrast require a shearing step (such as by (high) pressure homogenization) in order to obtain a fiber with sufficient rheological properties.
- a shearing step such as by (high) pressure homogenization
- a suspension is a heterogeneous mixture of substances consisting of a liquid and solids (particles of raw material) finely distributed therein. Since the suspension tends to sedimentation and phase separation, the particles are suitably kept in suspension by shaking or stirring. There is therefore no dispersion in which the particles are broken down by mechanical action (shearing) in such a way that they are finely dispersed.
- an acid or acidic buffer solution known to him.
- an organic acid such as citric acid can be used.
- a mineral acid can also be used.
- examples which may be mentioned are: sulfuric acid, hydrochloric acid, nitric acid or sulphurous acid.
- Nitric acid or sulfuric acid is preferably used.
- the acid digestion can, for example, at a pH of 0.75, 1.0, 1.25, 1.5, 1.75, 2.0, 2.25, 2.5, 2.75, 3.0 , 3.25, 3.5, or 3.75 can be performed.
- the liquid for preparing the aqueous suspension consists of more than 50% by volume, preferably more than 60, 70, 80 or even 90% by volume of water.
- the liquid contains no organic solvent and in particular no alcohol. This is a water-based acidic extraction.
- the incubation takes place at a temperature between 60°C and 95°C, preferably between 70°C and 90°C and particularly preferably between 75°C and 85°C.
- the acid digestion can be carried out, for example, at a temperature of 61 °C, 62 °C, 63 °C, 64 °C, 65 °C, 66 °C, 67 °C, 68 °C, 69 °C, 70 °C, 71 °C, 72 °C, 73 °C, 74 °C, 75 °C, 76 °C, 77 °C, 78 °C, 79 °C, 80 °C, 81 °C, 82 °C, 83 °C or 84°C.
- the incubation takes place over a period of between 60 minutes and 8 hours and preferably between 2 hours and 6 hours.
- the acid digestion can be carried out, for example, over a period of 1.5 h, 2.0 h, 2.5 h, 3.0 h, 3.5 h, 4.0 h, 4.5 h, 5.0 h, 5 .5 h, 6.0 h, 6.5 h, 7.0 h or 7.5 h.
- the aqueous suspension suitably has a dry matter content of between 0.5% by weight and 5% by weight, preferably between 1% by weight and 4% by weight, and particularly preferably between 1.5% by weight and 3% by weight.
- dry matter can be, for example, 0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0, 2.25, 2.5, 2.75, 3, 0, 3.75, 4.0, 4.25, 4.5 or 4.75% by weight.
- the aqueous suspension is stirred or shaken during the digestion. This is preferably done in a continuous manner to keep the particles in suspension in suspension.
- step (c) of the process the digested material is separated from the aqueous solution and thus recovered. This separation takes place as a single-stage or multi-stage separation.
- the digested material is advantageously subjected to a multi-stage solid-liquid separation.
- the first removal of particles is preferably carried out using a decanter and the second removal using a separator.
- the solid is separated from the liquid regardless of the particle size.
- larger particles can also be separated off in step (c).
- a classification process is understood as meaning the separation of a disperse mixture of solids into fractions according to particle size. In the simplest case, there are two fractions, but two or three particle fractions with a defined particle distribution can also be generated as part of the classification process. The classic method here is sieving.
- a separation of particles with a grain size of more than 500 ⁇ m, more preferably of more than 400 ⁇ m and most preferably of more than 350 ⁇ m, is particularly advantageous here.
- the separation is advantageously carried out with a straining machine or a sieve drum. This removes both coarse-particle contamination of the raw material and insufficiently digested material.
- the need to perform this optional separation step depends on the strength of the fibrous material to be pulped. While it is regularly necessary for citrus fibers, apple fibers disintegrate into fine fibers during the acidic hydrolysis step, so that this separation step can generally be omitted.
- a sieve drum is used in the classification method, in which the mesh size is set such that the larger particles to be separated occur in the overflow of the sieve and the smaller particles to be processed further occur in the passage through the sieve.
- the sieve overflow can be cleaned again Screening process are supplied.
- the screen overflow is preferably conveyed to the second screen drum by a washing screw.
- the sieve overflow is washed with water or an aqueous buffer during transport in the washing screw, so that, for example, adhering pectin can be removed.
- wet screening can be used as a screening process.
- screening machines for carrying out classification processes are known to the person skilled in the art, which he will select according to the fiber particle size present and the fact that a moist or wet material is present.
- Examples of screening machines are cantilever screening machines, elliptical screening machines, eccentric screening machines, linear screening machines, throw screening machines, flat screening machines, hammer screening machines, air jet screening machines and eddy current machines.
- the classification process in step (c) can be carried out during the one-stage or multi-stage separation of the digested material from the aqueous liquid, before this separation or else after the separation from the aqueous liquid.
- the classification process takes place after the one- or multi-stage separation of the digested material from the aqueous liquid, it must be resuspended with an aqueous solution in order to produce an aqueous suspension with a reduced dry matter content, as required by the corresponding classification process.
- aqueous solution is understood to mean the aqueous liquid used for resuspension and incubation.
- the mixture of this aqueous solution and the broken down material is referred to as the "incubation batch”.
- the resuspension is carried out with water as an aqueous solution.
- an aqueous buffer solution is particularly advantageous here, so that a pH of 3.5 to 5.5, and advantageously of 4.0 to 5.0, results in the suspension.
- This pH increase starting from the strongly acidic pH value of the acidic digestion, is carried out in order to provide an optimal pH value for the subsequent enzymatic deesterification.
- the pH can also be adjusted to the value from 3.5 to 5.5, and advantageously from 4.0 to 5.0, after resuspension.
- NaOH, KOH or a Na or K salt such as sodium carbonate, sodium bicarbonate, potassium carbonate, potassium bicarbonate can be used for this partial neutralization.
- a salt solution with an ionic strength of I ⁇ 0.2 mol/l can also be used as the aqueous solution.
- the resuspension is advantageously carried out at a temperature between 10°C and 70°C, preferably between 20°C and 60°C and particularly preferably between 30°C and 50°C.
- the resuspension is carried out with mechanical agitation of the incubation mixture. This is more conveniently done by stirring or shaking the wash mixture.
- the separated, optionally classified material from step (c) is incubated in an incubation mixture with a pectin methyl esterase or subjected to acidic deesterification according to step (d).
- step (c) In the event that the material in step (c) was subjected to a classification process in addition to the solid-liquid separation, it is present as a suspension with a low dry matter content ( ⁇ 12% TS) due to the resuspension required for this.
- the enzyme treatment is then expediently carried out in a stirred tank.
- step (c) In the event that no classification process was used for the material in step (c), it is present as a result of the solid-liquid separation as a suspension with a high dry matter content (> 12% DS). In this case, the enzyme treatment is conveniently carried out in a thick sludge reactor.
- a pectin methyl esterase (abbreviation: PME, EC 3.1.1.11, also: pectin demethoxylase, pectin methoxylase) is a common enzyme in the cell wall of all higher plants and some bacteria and fungi which splits the methyl ester of pectins, forming polygalacturonic acid and releasing methanol .
- the PME has been isolated in many isoforms, all of which can be used for enzymatic deesterification according to the invention.
- the pectin methylesterases have an optimum pH between 2 and 5 and an optimum temperature of 30 to 50°C, with significant enzyme activity already being observed from 15°C, depending on the enzyme.
- the duration of the incubation with the pectin methylesterase is between 1 hour and 10 hours, preferably between 2 hours and 5 hours.
- the acidic de-esterification according to step (d) can be carried out, for example, at a pH of 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8 or 1, 9 are carried out.
- the liquid for preparing the suspension consists of more than 50% by volume, preferably more than 60, 70, 80 or even 90% by volume, of water.
- the liquid contains no organic solvent and in particular no alcohol. This is a water-based acidic deesterification.
- step (d) takes place at a temperature between 30°C and 60°C. It can be carried out, for example, at a temperature of 35°C, 40°C, 45°C, 55°C or 60°C.
- the incubation takes place over a period of between 30 minutes and 10 days and preferably between 2 hours and 6 hours.
- the acidic digestion according to step (c) can be carried out, for example, over a period of 1.5 h, 2.0 h, 2.5 h, 3.0 h, 3.5 h, 4.0 h, 4.5 h, 5 .0 h, 5.5 h or 6.0 h.
- step (e) After the incubation with the enzyme or the acidic de-esterification according to step (d), if a classification method was carried out beforehand and accordingly as a result of step (c) and correspondingly from step (d), a suspension with a low Dry substance content ( ⁇ 12% TS) is present, in step (e) a concentration of the deesterified material.
- This concentration can take place, for example, by ultracentrifugation or evaporation of the aqueous liquid.
- This concentration is designed in such a way that the pectin is retained in the material, i.e. it is essentially not separated by the concentration.
- step (f) a washing step then takes place with a water-miscible organic solvent. This involves washing at least twice with a water-miscible organic solvent.
- a solvent here means at least one solvent, so that two, three or more water-miscible organic solvents can also be present.
- the wash liquid preferably consists of more than 70% by volume, more preferably more than 80% by volume and particularly preferably more than 85% by volume of the water-miscible organic solvent.
- the washing liquid can be, for example, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95 %, 96%, 97%, 98%, 99% or 99.5% of water-miscible organic solvent, the percentages being percentages by volume.
- the washing liquid consists of the organic, water-miscible solvent.
- the other component that makes up 100% of this organic water-miscible solvent is suitably water or an aqueous buffer.
- Water-miscible, thermally stable, volatile solvents containing only carbon, hydrogen and oxygen such as alcohols, ethers, esters, ketones and acetals, are particularly suitable for carrying out the process.
- Ethanol, n-propanol, isopropanol, methyl ethyl ketone, 1,2-butanediol-1-methyl ether, 1,2-propanediol-1-n-propyl ether or acetone are preferably used.
- An organic solvent is referred to herein as "water-miscible” if it is in a 1:20 (v/v) mixture with water as a single-phase liquid.
- solvents which are at least 10% water-miscible, have a boiling point below 100° C. and/or have fewer than 10 carbon atoms.
- the organic water-miscible solvent is preferably an alcohol, advantageously selected from the group consisting of methanol, ethanol and isopropanol. In a particularly preferred manner, it is isopropanol.
- the washing step takes place at a temperature between 40°C and 75°C, preferably between 50°C and 70°C and particularly preferably between 60°C and 65°C.
- the period of contacting with the water-miscible organic solvent is over a period of between 60 minutes and 10 hours and preferably between 2 hours and 8 hours.
- Each water-miscible organic solvent washing step comprises contacting the material with the water-miscible organic solvent for a specified period of time followed by separating the material from the water-miscible organic solvent.
- a decanter or a press is preferably used for this separation.
- the dry mass in the washing solution is between 0.5% by weight and 15% by weight, preferably between 1.0% by weight and 10% by weight, and particularly preferably between 1.5% by weight and 5. 0 wt%.
- the washing with the water-miscible organic solvent is preferably carried out with mechanical agitation of the washing mixture.
- the washing is preferably carried out in a tank with an agitator.
- a device for making the suspension more uniform is used in an advantageous manner.
- This device is preferably a toothed ring disperser.
- washing with the water-miscible organic solvent takes place in a countercurrent process.
- washing with the water-miscible organic solvent involves partial neutralization by adding Na or K salts, NaOH or KOH.
- the material When washing with the water-miscible organic solvent, the material can also be decolorized. This discoloration can Addition of one or more oxidizing agents.
- the oxidizing agents chlorine dioxide and hydrogen peroxide, which can be used alone or in combination, should be mentioned here as examples.
- the final concentration of the organic solvent in the solution increases with each washing step.
- This incrementally increasing proportion of water-miscible organic solvent reduces the proportion of water in the fiber material in a controlled manner, so that the rheological properties of the fibers are retained in the subsequent steps for solvent removal and drying and the partially activated fiber structure does not collapse.
- the final concentration of the water-miscible organic solvent is preferably between 60 and 70% by volume in the first washing step, between 70 and 85% by volume in the second washing step and between 80 and 90% by volume in an optional third washing step.
- the solvent can be additionally reduced by contacting the material with steam. This is preferably done with a stripper in which the material is countercurrently contacted with steam as the stripping gas.
- step (f) or (g) the material is moistened with water before drying. This is preferably done by introducing the material into a moistening screw and spraying it with water.
- step (h) the washed material from step (f) or the stripped material from step (g) is dried, the drying comprising drying under normal pressure or by means of vacuum drying.
- drying processes using normal pressure are fluidized bed drying, moving bed drying, belt dryers, drum dryers or paddle dryers.
- Fluid bed drying is particularly preferred here. This has the advantage that the product is dried loosely, which simplifies the subsequent grinding step. In addition, this type of drying avoids damage to the product due to local overheating thanks to the easily adjustable heat input.
- the drying under atmospheric pressure in step (h) is expediently carried out at a temperature of between 50°C and 130°C, preferably between 60°C and 120°C and particularly preferably between 70°C and 110°C. After drying, the product is expediently cooled to room temperature.
- the drying according to step (h) comprises vacuum drying and preferably consists of vacuum drying.
- the washed material is exposed to a negative pressure as drying material, which reduces the boiling point and thus leads to evaporation of the water even at low temperatures.
- the heat of vaporization continuously withdrawn from the material to be dried is suitably fed from the outside until the temperature is constant.
- Vacuum drying has the effect of lowering the equilibrium vapor pressure, which favors capillary transport. This has proven to be particularly advantageous for the present apple fiber material, since the activated, open fiber structures and thus the rheological properties resulting therefrom are retained.
- Vacuum drying preferably takes place at an absolute vacuum of less than 400 mbar, preferably less than 300 mbar, more preferably less than 250 mbar and particularly preferably less than 200 mbar.
- step (h) suitably takes place at a jacket temperature of between 40°C and 100°C, preferably between 50°C and 90°C and particularly preferably between 60°C and 80°C. After drying, the product is expediently cooled to room temperature.
- the method additionally comprises a comminuting, grinding or screening step.
- a comminuting, grinding or screening step This is advantageously designed in such a way that, as a result, 90% of the particles have a particle size of less than 450 ⁇ m, preferably a particle size of less than 350 ⁇ m and in particular a particle size of less than 250 ⁇ m. With this particle size, the fiber is easy to disperse and shows an optimal swelling capacity.
- the activatable, de-esterified fruit fiber used for the use according to the invention and a process for its production are disclosed in the application DE 10 2020 120 605.4.
- the activatable, de-esterified fruit fiber can be used in the manufacture of a foodstuff.
- the expert can use all known foods as products.
- the food is selected from the group consisting of canned food, frozen food, vegan food, vegetarian food, gluten-free food, low-calorie food, low-sugar food, lactose-free food, jellyware, gummy candy, sauce, muesli bars, fruit pieces, fruit snacks, fruit bars, milk substitute drink, milk substitute product , foam goods, sorbet, ice cream, dessert, fermented drink, milk product, delicatessen product, fruit drink, alcoholic fruit drink, cocktail, vegetable drink, chutney, barbecue sauce, smoothie, instant drink, fruit spread, fruit compote, fruit dessert, fruit sauce, fruit preparation, baking-stable fruit preparation, fruit preparation for Yoghurt, vegetable preparations that are stable in baking, fatty fillings that are stable in baking, baked goods, pasta and pasta fillings, pasta dishes, potato snacks, cheese and cream cheese preparations, meat substitutes, extruded products, cornflakes, breakfast cereals, Su ppe, sauce, mayonnaise, meat products, sausage products, sausage casings, seafood, spirits,
- the activatable, de-esterified fruit fiber is particularly suitable for textured products.
- the combination with hydrocolloids and/or functional roughage can be carried out here.
- deesterified fruit fibers that can be activated increase stability and can contribute in particular to cloud stabilization.
- the activatable, de-esterified fruit fiber can also increase the viscosity here, act as a good emulsifier and lead to improved aroma release.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: increased stability, cloud stabilization, better emulsion formation, fuller-bodied mouthfeel, texturing, nutritional value reduction, increased creaminess, substitution of emulsifying salts, reduced syneresis, improved spreadability and fat substitute.
- Selected milk substitutes or dairy products are, for example, dessert, yoghurt, yoghurt drink, non-fermented product, fermented drink, fermented product, processed cheese, cream cheese product.
- the use of the activatable, de-esterified fruit fiber can have the following advantages: slowing down of crystal growth, dimensional stability when heated, improvement in melting behavior, fat substitute, increased creaminess, fuller-bodied mouthfeel, nutritional optimization, improved flavor release.
- the ice cream or frozen dessert can contain alcohol or be alcohol-free, be fat-free to high in fat, contain insect protein, milk or milk components or even be free of animal proteins as vegan ice cream.
- the ice cream or frozen dessert here can also be fruit and/or vegetable based.
- the following advantages can arise when using the activatable, de-esterified fruit fiber: improved abrasive behavior, water retention and improved aroma release.
- the use of the activatable, de-esterified fruit fibers can bring about the following advantages in confectionery and especially in chocolate articles: fat substitute, processing aids, process stability, better emulsification and thus reduction in fat leakage, viscosity enhancement, texturing, nutritional optimization (e.g. through sugar reduction).
- the activatable, de-esterified fruit fiber texturing, improved gel formation, viscosity adjustment, process optimization, reduction of stickiness and better processing.
- confectionery examples include pieces of fruit, jelly articles with different Brix contents, jelly articles containing fruit, jelly articles containing vegetables, these jelly articles in combination with nuts or nut derivatives, and confectionery fillings.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: Increased stability, cloud stabilization, good emulsification of juices, fuller-bodied mouthfeel, texturing and nutritional reduction.
- the fruit- and/or vegetable-containing drink can cover a wide range in terms of viscosity, from runny to spoonable.
- sugar-reduced, sugar-free or salty drinks can also be used. So-called smoothies are preferred here.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: dimensional stability, reduction in syneresis, simple introduction, better processing.
- the activatable, de-esterified fruit fiber can be used advantageously for fillings with a low Brix content of 30-45% (dry substance) TS or even lower.
- the bake stable fillings can be fruit fillings containing fruit, vegetables, chocolate, nuts, cereal, cheese or any combination thereof.
- the following advantages can arise from the use of the activatable, de-esterified fruit fiber: improved stability of frozen baked goods with regard to volume loss over the storage period, network stabilization, support for gel formation in the dough piece and support for good network stability.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: improved dough elasticity, prolonged freshness, slowing down of retrogradation, reduction in surface stickiness, improved machinability (e.g. with rye and spelt), optimization of breakage stability, preservation of crispness , improve dough yield and reduce pastry loss.
- the use of the activatable, de-esterified fruit fiber can result in optimized adhesion to cereals, spices or the like, for example. This applies to frozen and non-frozen products.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: improved dough elasticity, prolonged freshness, slowing down of retrogradation, reduction in surface stickiness, improved machinability, optimization of breakage stability, preservation of crispiness, improvement in dough yield, reduction in baked goods loss .
- the activatable, de-esterified fruit fiber makes a decisive contribution to the build-up of viscosity. It also supports the starch network.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: Support for extrudability, better volume result, fine pore structure. This applies to a wide range of extruded products such as cereal, fruit, vegetable, protein or meat extrudates.
- the following advantages can result from the use of the activatable, deesterified fruit fiber: better dimensional stability, increased water retention, better emulsion formation, advantageous texturing, bite optimization, stabilization of the matrix, improved cohesion.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: reduction in syneresis, advantageous texturing, stabilization, simple introduction, good dimensional stability, preservation/support of the typical structure.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: "Protection against spillage” through gelling at the appropriate temperatures, melting at the appropriate temperatures, optimum gelation; Full-bodied mouthfeel, good emulsion formation, stabilization, advantageous texturing.
- Products based on insects or insect proteins can have the following advantages when using the activatable, deesterified fruit fiber: better dimensional stability, increased water retention, better emulsion formation, advantageous texturing, bite optimization, stabilization of the matrix, improved cohesion.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: Reduction or replacement of added salts (e.g. phosphates), increased water binding, better emulsification, optimization of the cutting properties, improvement in elasticity, increased water retention, delayed drying on the surface, fat replacement, nutritional optimization (e.g. through fat reduction or salt reduction).
- added salts e.g. phosphates
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: stabilization with alcohol contents to be defined, good viscosity adjustment, improved emulsification, good water retention, fuller-bodied mouthfeel and increased creaminess.
- stabilization with alcohol contents to be defined
- good viscosity adjustment improved emulsification
- good water retention fuller-bodied mouthfeel
- fuller-bodied mouthfeel improved creaminess.
- These products can cover a wide spectrum, from spirits such as liqueurs to alcoholic jellies to alcoholic fillings.
- the use of the activatable, deesterified fruit fiber can result in the following advantages: good carrier or good release agent between the functional components, good viscosity build-up in cold to hot media, improved emulsion formation, advantageous texturing, stabilization and good dispersibility.
- the following advantages can result from the use of the activatable, de-esterified fruit fiber: good viscosity and malleability, easy swallowing of the food, homogeneous distribution of the active ingredients contained.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: good viscosity, increase in dietary fiber content, stabilization, advantageous mouthfeel, fat substitute, good texturing, good emulsion formation.
- the activatable, de-esterified fruit fiber used according to the invention can be used as a foaming agent or whipping agent for foam stabilization. So possible advantages are to be listed: increased stability, better formation and stability of emulsions, fuller mouthfeel, texturing, reduction in nutritional value, increased creaminess, improved spreadability, fat substitute, optimized destabilization of fat agglomerates.
- Products of choice for this use are foamed desserts (milk or non-dairy based), cream, Froop® (cream yogurt topped with fruit puree) and ice cream.
- the activatable, de-esterified fruit fiber used according to the invention can be used as an emulsifier. Potential benefits include: improved shine, fuller mouthfeel, fat replacement, increased creaminess, no over-emulsification, better emulsion formation and stability, nutritional optimization, texturing, stabilization and Optimization of the yield point.
- the activatable, de-esterified fruit fiber can be used for emulsions with a wide variety of fat contents: from fat-free emulsions to 80% fat content.
- the activatable, de-esterified fruit fiber used according to the invention can be used as a carrier. You can represent here, for example, a carrier for active ingredients, flavors or colors.
- the activatable, deesterified fruit fiber used according to the invention can be used as a release agent or flow aid. It forms a protective layer between hygroscopic surfaces.
- the advantage here is that it is easy to use.
- the activatable, de-esterified fruit fiber used according to the invention can be used for the production of textile fibers and thus for the production of textiles.
- the activatable, de-esterified fruit fiber can be used in the manufacture of a feed.
- the person skilled in the art can use all known animal feeds as products.
- the feed is selected from the group consisting of high-starch feed, oleaginous feed, high-protein feed, extrudate feed, wet feed, binder, bird perch, rodent perch, fish bait, supplementary feed, feed for special nutritional purposes and dietetic feed.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: good texturing and structuring, good emulsion formation, stabilization, improved release of aroma and optimization of nutritional value.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: finer pore structure and better volume result.
- the activatable, de-esterified fruit fiber can be used in the manufacture of animal supplies.
- the expert can use all known animal needs as products.
- the animal supplies are animal bedding.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: high water absorption capacity and good retention.
- the activatable, de-esterified fruit fiber can be used to manufacture a personal care article.
- the person skilled in the art can use all known hygiene articles as products.
- the hygiene article is advantageously selected from the group consisting of wet wipes, diapers, incontinence articles such as protective pants or incontinence pants, sanitary towels, tampons, panty liners and soft cups.
- the use of the activatable, deesterified fruit fiber can result in good water binding and good water retention capacity.
- the activatable, de-esterified fruit fiber can be used in the manufacture of a personal care product.
- the person skilled in the art can use all known body care products as products.
- the personal care product is selected from the group consisting of soap, shower gel, bath additive, skin cream, lotion, gel, sun milk, sunscreen, repellent, shaving foam, shaving soap, epilation cream, toothpaste, toothpaste, shampoo, hair shaping agent, hair setting lotion, hair coloring agent, face make-up up, eye care products, lip care products, nail polish and self-tanning products.
- Products such as toothpaste, dental adhesives or impression materials can have the following advantages when using the activatable, deesterified fruit fiber: good abrasiveness, good adhesion, smooth, soft mouthfeel, good emulsion formation, targeted viscosity, stabilization, control of the gelling speed.
- the use of the activatable, de-esterified fruit fiber can result in vitalisation, a moisture-stabilizing effect on the skin (delaying drying out) combined with good skin compatibility.
- Liquid-absorbing products such as diapers, incontinence articles such as protective pants or incontinence pants, sanitary napkins, tampons, panty liners or soft cups can have the following advantages when using the activatable, de-esterified fruit fibers: high water absorption capacity and good retention.
- the activatable, de-esterified fruit fiber can be used in the manufacture of a cleaning composition.
- the person skilled in the art can use all known cleaning agents as products.
- the cleaning agent is selected from the group consisting of detergent, gall soap, dishwashing detergent, Machine dishwashing detergent, rinse aid, neutral cleaner, scouring agent, window cleaning agent, limescale remover, pipe cleaner, brake cleaner, alcohol cleaner, all-purpose cleaner, glass cleaner, sanitary cleaner, toilet cleaner, toilet gel, toilet stone, carpet cleaner, car care products, oven cleaner, bathroom cleaner and metal cleaning agent, shoe polish, oil binder and Dust binders (“anti-dust”).
- the use of the activatable, deesterified fruit fiber can result in the following advantages: good adhesion to the toilet wall, good and stable gel formation, advantageous abrasiveness, good solubility.
- the activatable, deesterified fruit fibers as a release agent, good separation of the functional components and homogeneous distribution of the abrasive substances and active ingredients.
- the activatable, de-esterified fruit fiber as a release agent, good separation of the functional components and homogeneous distribution of the abrasive substances and active ingredients, good emulsion formation.
- the activatable, de-esterified fruit fiber can be used to make a coating composition.
- the person skilled in the art can use all known coating materials as products.
- the coating agent is selected from the group consisting of an antistatic coating, an oleophobic coating and an antiblock coating.
- the activatable, de-esterified fruit fiber can be used to make an explosive.
- the person skilled in the art can use all known explosives as products.
- the explosive is a gelatinous explosive.
- the activatable, de-esterified fruit fiber can be used in the explosive as a release agent. It can reduce hygroscopicity, control gelation and facilitate processing.
- the activatable, deesterified fruit fiber can be used in the manufacture of a lubricant.
- the person skilled in the art can use all known lubricants as products.
- the lubricant is advantageously selected from the group consisting of liquid lubricant, such as lubricating oil and cooling lubricant, lubricating grease and solid lubricant.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: targeted adjustment of viscosity and yield point, stabilization of the emulsion.
- the use of the activatable, de-esterified fruit fibers can result in the following advantages: targeted adjustment of viscosity and yield point, and thus optimized energy absorption to improve cooling ability.
- the activatable, de-esterified fruit fiber can be used to make a plastic product.
- a plastic product is advantageously a fruit fiber-reinforced plastic or a wood-plastic composite (WPG).
- An alternative plastic product is best produced by producing a compressed product. In this way, for example, flower pots, straws or pallets can be produced.
- the activatable, de-esterified fruit fiber can be used to make a lacquer.
- the paint is advantageously selected from the group consisting of alkyd resin paint, oil paint, cellulose nitrate paint, bitumen paint, tar-based paint, phenolic resin paint, urea resin paint, melamine resin paint, polyester paint, epoxy resin paint, polyurethane resin paint, acrylic paint and powder paint.
- the activatable, de-esterified fruit fiber can be used to make a paint.
- the paint is advantageously selected from the group consisting of glaze, oil paint, emulsion paint, lime paint, silicate paint and liquid plaster.
- the use of the activatable, de-esterified fruit fiber can be advantageous in the following respects: targeted viscosity adjustment, good emulsion stabilization and adjustment of the yield point, better material adhesion, better workability, e.g. in terms of brushability or sprayability.
- the activatable, de-esterified fruit fiber can be used to make a building material.
- the expert can use all known building materials as products.
- the building material is advantageously selected from the group consisting of construction foam, insulating material, insulating material, concrete, screed, mortar, cement, chemical bonded dowels, chemical bonded anchors, asphalt and silent asphalt.
- the addition of the activatable, de-esterified fruit fiber to building materials such as concrete, screed, mortar or cement of an asphalt mixture can achieve the following: controlled drying, reduction of cracking, optimized long-term durability and control of setting.
- the addition of the activatable, de-esterified fruit fiber to an insulating material can stabilize the matrix and reduce heat transfer and sound transmission.
- the activatable, de-esterified fruit fiber can stabilize the foam and thus have an advantageous effect on the structure of the matrix.
- the activatable, de-esterified fruit fiber can be used to make an adhesive.
- the adhesive is advantageously selected from the group consisting of dispersion adhesive, hot-melt adhesive, plastisol, cyanoacrylate adhesive, methyl methacrylate adhesive, unsaturated polyester adhesive, epoxy adhesive, polyurethane adhesive, silicone, phenolic resin adhesive, polyimide adhesive, polysulfide adhesive , bismaleimide adhesive, silane-modified polymer-based adhesive, silicone adhesive and paste.
- the viscosity can be specifically adjusted with the activatable, de-esterified fruit fiber and the spreadability can also be improved.
- the activatable, de-esterified fruit fiber can be used in the manufacture of a medicament.
- the person skilled in the art can use all known medicinal products as products.
- the medicament is selected from the group consisting of powder, juice, lotion, ointment, cream, gel, tablet and gum.
- the use of the activatable, deesterified fruit fiber can result in the following advantages: good viscosity, good formability, easy swallowing, increased creaminess, homogeneous distribution of the active ingredients, good drying, increased stabilization, good emulsion formation and good skin compatibility.
- the activatable, de-esterified fruit fiber can be used to manufacture a medicinal product.
- the expert can use all known medical products as products.
- the medical product is selected from the group consisting of a wound dressing, an adhesive bandage, a transdermal patch, an ostomy product and a dental impression compound.
- the use of the activatable, de-esterified fruit fibers in plasters can have the following advantages: good gelling and water absorption with retention of the absorbed liquid. This results in moisture-stabilizing patches.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: good water absorption and water binding with retention of the absorbed liquid, good skin tolerance.
- the activatable, de-esterified fruit fiber can be used to make a battery.
- the expert can use all known batteries as products.
- the battery is advantageously selected from the group consisting of primary cell, accumulator and solid cell.
- the activatable, de-esterified fruit fiber can be used in construction.
- the use in road and path construction, masonry construction, concrete construction and reinforced concrete construction is advantageously included here.
- the activatable, de-esterified fruit fiber can find use in downhole mining. Use as an additive to a drilling fluid or a frac fluid is advantageous here.
- the use of the activatable, de-esterified fruit fiber can result in the following advantages: increased viscosity in "drilling mud" or similar drilling fluids, displacement of the oil by a medium with a higher viscosity, targeted adjustment of the viscosity, oil binding, good emulsion formation.
- the activatable, de-esterified fruit fiber can be used as a conveying aid in mining.
- the activatable, de-esterified fruit fiber can be used in the agricultural sector.
- Use in fertilizers, humectants, soil improvers, plant substrates, flower pots or substrate compressed extrudates is advantageous here.
- the activatable, de-esterified fruit fiber can be used in the manufacture of a fertilizer.
- the person skilled in the art can use all known fertilizers as products.
- the fertilizer is a binder for fertilizer cones.
- the activatable, de-esterified fruit fiber can help keep the active ingredients in suspension and adjust the viscosity and yield point in a targeted manner.
- the activatable, de-esterified fruit fiber can serve as a carrier and/or release agent.
- the pectin can be released from the fibers and release the nutrients in an orderly manner. It can also support moisture retention.
- the activatable, de-esterified fruit fiber can be used as a reinforcing agent to make a composite.
- the person skilled in the art can use any known composite materials as products.
- the activatable, de-esterified fruit fiber is used here as a substitute for microplastics for the targeted adjustment of abrasive properties.
- the activatable, de-esterified fruit fiber can be used to treat the surface of the composite materials.
- the activatable, de-esterified fruit fiber can optimize durability and lead to improved elasticity.
- the activatable de-esterified fruit fiber is preferably a de-esterified citrus fiber or a de-esterified apple fiber.
- the invention relates to a product selected from the group consisting of foodstuffs, animal feed, consumer goods, pet supplies, hygiene articles, body care products, cleaning agents, coating agents, care products, explosives, lubricants, coolants, plastic products, textiles, artificial leather, varnish, ink, paints, Building material, composite material, paper, cardboard, adhesive, fertilizer, drug, medical device, battery, the product being characterized in that it comprises the activatable, de-esterified fruit fiber.
- the activatable, de-esterified fruit fiber is preferably a de-esterified citrus fiber or a de-esterified apple fiber.
- the product has the activatable, deesterified fruit fiber in a proportion of between 0.05% by weight and 90% by weight, preferably between 0.1 and 50% by weight, particularly preferably from 0.1 to 25% by weight and particularly preferably between 0.5 and 10% by weight.
- the proportion of the activatable, de-esterified fruit fiber can be 1.0%, 1.25%, 1.5%, 1.75%, 2.0%, 2.25%, 2.5%, 2.75%, 3 .0%, 3.25%, 3.5%, 3.75%, 4.0%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13% , 14%, 15%, 16%, 17%, 18%, 19%, 20%, 21%, 22%, 23%, 24%, 25%, 26%, 27%, 28%, 29%, 30 %, 31%, 32%,
- the activatable, de-esterified fruit fiber is preferably a de-esterified citrus fiber or a de-esterified apple fiber.
- a fruit fiber according to the invention is a plant fibre, ie a fiber isolated from a nonlignified plant cell wall and consisting mainly of cellulose, and which is thereby isolated from a fruit.
- a fruit is to be understood here as the entirety of the organs of a plant that emerge from a flower, with both the classic fruit fruits and fruit vegetables being included.
- an "apple fiber” is a primarily fibrous component isolated from a nonlignified plant cell wall of an apple and composed primarily of cellulose.
- the concept of fiber represents in certain respects is a misnomer because the apple fibers do not appear macroscopically as fibers, but represent a powdered product.
- Other components of apple fiber include hemicellulose and pectin.
- the apple fiber can be obtained from all cultivated apples (malus domesticus) known to those skilled in the art. Processing residues from apples can advantageously be used here as the starting material.
- the starting material used can be apple peel, core casing, seeds or fruit pulp or a combination thereof.
- Apple pomace is preferably used as the starting material, i.e. the pressed residue from apples, which typically also contain the above-mentioned components in addition to the skins.
- a "citrus fiber” is a primarily fibrous component isolated from a nonlignified plant cell wall of a citrus fruit and composed primarily of cellulose.
- the term fiber is somewhat misnomer because citrus fibers do not appear macroscopically as fibers, but rather represent a powdered product.
- Other components of citrus fiber include hemicellulose and pectin.
- the citrus fiber can advantageously be obtained from citrus pulp, citrus peel, citrus vesicles, segmental membranes or a combination thereof.
- a “fatty cream” is understood to mean a cream that contains edible oil and/or edible fat.
- Edible fat and edible oil are fats suitable for human consumption with a neutral to species-specific smell and taste. Depending on whether the substances are solid or liquid at room temperature, one speaks of edible fat or edible oil.
- An activatable de-esterified fruit fiber according to the present application is defined as containing between 2 and 10% by weight of water-soluble pectin, this water-soluble pectin being a low ester pectin.
- the activatable deesterified apple fiber according to the present application is defined by the content of between 2 and 10% by weight of water-soluble pectin, this water-soluble pectin being a low methylester pectin.
- the activatable deesterified citrus fiber according to the present application is defined by the content of between 2 and 10% by weight of water-soluble pectin, this water-soluble pectin being a low methylester pectin.
- the term "bake-stable” according to the invention denotes the behavior of a fat-containing creamy composition to show only minimal spreading (ie by a maximum of 25%) when dry heat is applied, as determined by the following baking test method.
- a chocolate cream is used as the composition, which has a creamy-pasty consistency before the baking test when cooled.
- a metal ring 1 cm high and 60 mm in diameter is placed on filter paper (Hahnenmühle, Dassel Germany, Type 589/1, DP 5891 090, 0 90 mm), filled with the composition to be tested on the filter paper and attached to the surface of the Metal rings smoothed out.
- the filter paper coated with the composition is placed on a baking tray and baked in a preheated oven (top/bottom heat) at 200° C. for 10 minutes.
- the dimensional stability (diameter before baking versus diameter after baking) of the composition is evaluated.
- the diameter of the composition after baking must not exceed 125% of the diameter of the composition before baking.
- a soluble pectin according to the application is defined as a vegetable polysaccharide which, as a polyuronide, essentially consists of ⁇ -1,4-glycosidically linked D-galacturonic acid units.
- the galacturonic acid units are partially esterified with methanol.
- the degree of esterification describes the percentage of the carboxyl groups in the galacturonic acid units of the pectin which are present in the esterified form, e.g. as methyl ester.
- a highly esterified pectin is a pectin which has a degree of esterification of at least 50%.
- a low ester pectin on the other hand, has a degree of esterification of less than 50%.
- the degree of esterification describes the percentage of the carboxyl groups in the galacturonic acid units of the pectin which are present in the esterified form, e.g. as methyl ester.
- the degree of esterification can be determined using the method according to JECFA (Monograph 19-2016, Joint FAO/WHO Expert Committee on Food Additives).
- an “instant product” refers to a semi-finished foodstuff, which usually consists of powder, granules or dried ingredients and which are mixed with a cold or warm liquid. There is no cooking during preparation.
- slaughterhouse in the present application is synonymous with the term seafood and is defined herein as all edible marine animals that are not vertebrates are. Typical seafood includes mussels and aquatic snails, squid and squid, prawns, crabs, langoustines and lobsters. Seafood can be caught or farmed.
- an “extruded product” is a mostly crispy and/or puffed product produced by extrusion, which can be produced in any desired shape depending on the type of die used in the extrusion process.
- extruded products are: snack foods such as peanut flakes, breakfast cereals, dry flatbreads, pasta, confectionery such as marshmallows and various extruded soy products which are used both as stand-alone products and as ingredients in numerous industrially produced foods.
- a “smoothie” is a term for a cold mixed drink made with fruit and optional dairy products that is made fresh or sold as a ready-to-eat drink.
- smoothies use the whole fruit, sometimes also the peel.
- the basis of the smoothies is therefore the fruit pulp or fruit puree, which, depending on the recipe, is mixed with juices, water, milk, dairy products or coconut milk to obtain a creamy and smooth consistency.
- a “nutritional supplement” is defined as a foodstuff intended to supplement the general diet and also being a concentrate of nutrients or other substances with a nutritional or physiological effect, alone or in combination, in dose form, placed on the market particularly in the form of capsules, lozenges, tablets, pills, effervescent tablets and other similar dosage forms, powder sachets, liquid ampoules, dropper bottles and similar dosage forms of liquids and powders for consumption in measured small quantities.
- a “functional food” is characterized within the scope of the invention by the fact that, in addition to the pure nutritional and flavor value, as a “functional” ingredient it aims to promote and maintain health in the long term. Accordingly, health prevention, improvement of the health status and well-being are in the foreground with functional foods.
- Important target organs of functional foods are the gastrointestinal tract, cardiovascular system, skin and brain. Functional foods are consumed in the normal way and do not (like dietary supplements) come in the form of tablets, capsules or powders.
- the biologically active components of functional foods are called nutraceuticals referred to, with which their health-promoting effects should be conveyed.
- the nutraceuticals probiotics and prebiotics, phytochemicals, omega-3 fatty acids, vitamins and fiber are often added to functional foods.
- a "dietetic food” is defined within the scope of the invention and in accordance with the German Diet Ordinance as a food for a defined group of people and there for a special nutritional purpose and it also shows a clear difference to food for general consumption. Dietetic foods are not intended for the general nutrition of the average population, but for a defined group of people, such as people with digestive, absorption and metabolic disorders. Individuals who are "in special physiological circumstances" or healthy infants and young children.
- the following groups of foods are considered dietary foods: infant formula and follow-on formula, other foods for infants and young children (complementary food), foods with a low or reduced calorific value for weight reduction, foods for special medical purposes (balanced diets), low-sodium foods including diet salts, which low in sodium or sodium-free, gluten-free foods (no additives), foods for intensive muscular effort, especially for athletes, foods for people suffering from disorders of glucose metabolism (diabetics), tube feeding and sip feeding.
- infant formula and follow-on formula other foods for infants and young children (complementary food), foods with a low or reduced calorific value for weight reduction, foods for special medical purposes (balanced diets), low-sodium foods including diet salts, which low in sodium or sodium-free, gluten-free foods (no additives), foods for intensive muscular effort, especially for athletes, foods for people suffering from disorders of glucose metabolism (diabetics), tube feeding and sip feeding.
- tube feeding refers to food that is liquid and of such low viscosity that it can be administered via a feeding tube. It is a fully balanced diet for enteral nutrition, which is administered by means of a tube and transfer system by gravity or via a pump system.
- the standard foods cover the entire human need for carbohydrates, fats, proteins, vitamins and trace elements and also contain roughage.
- a normocaloric standard food has about 1.0 to 1.2 kcal/mL with a water content of 80% to 85%.
- a higher energy density is high-calorie standard food with a lower water content of 64% to 77%, which must be taken into account in a liquid balance.
- tapping food also called liquid food
- liquid food is a specially composed high-energy food in liquid form that is drunk can be. It is used for supplementary or complete nutrition when the patient is unable to eat enough solid food or at all.
- a “feed” is a collective term for all forms of pet food.
- the term includes the food for all animals kept by humans, such as farm animals, zoo animals, sport animals or pets. Feed is now specifically tailored to the respective animal species and intended use. Examples are: high-starch feeds made from high-starch grains, seeds and tubers; Oil-containing feed, protein-rich feed that contains a high content (35-65%) of protein and other feed that is obtained in nature (e.g. fishmeal) or that occurs as a by-product in industrial production. These include, for example, bran (from the mill), stillage (alcohol production), spent grains (beer production), marc (wine and juice production), molasses and beet pulp from the sugar industry and other leftovers.
- animal bedding refers to materials that are used in animal husbandry to cover the floor in stables and cages and to absorb the excrements of the animals.
- wound dressing is a dressing placed on external wounds to prevent foreign objects from entering the wound and to absorb blood and wound exudate.
- wound dressings can ensure a healing-promoting moist and warm wound climate, reduce pain through the substances they contain, promote wound healing or have an antimicrobial effect.
- a "commodity” within the meaning of the present application is an object which, in accordance with Section 2 (6) of the German Food, Commodity and Feed Code (LFGB), is an object selected from the list consisting of:
- No. 1 materials and objects intended to come into contact with food also referred to as food contact materials
- No. 9 Means and objects for improving odors in rooms intended for people to stay in.
- a "filter aid" of the invention is a chemically inert material that physico-mechanically assists filtration. It must not be confused or equated with a flocculant. Filter aids are used to make it easier to clean the actual filter or filter insert or to prevent solids from the suspension from clogging the filter or getting into the filtrate. Filter aids are generally used in water treatment, beverage filtration and more specifically in the chemical industry.
- an “egg substitute” refers to a plant-based foodstuff that is similar to whole egg, egg white or egg yolk in terms of taste or appearance and as an ingredient in the preparation of meals. Using a plant-based egg substitute can be associated with easier handling, a lower price, and a reduced risk of foodborne illness.
- a “coating agent” according to the invention is a food additive that protects food from loss of smell, taste and moisture, promotes shine or prolongs freshness. It can also act as a release agent.
- a “humectant” according to the invention is a food additive that prevents food from drying out by binding (ie preventing evaporation) added water during manufacture or by absorbing atmospheric moisture during storage pulls. By preventing the finished food from becoming hard, it acts as a softener. In confectionery, it counteracts the crystallization of the sugar.
- a "dietary fiber” according to the invention is a largely non-digestible food component, mostly carbohydrates, which are predominantly found in plant foods.
- dietary fibers are divided into water-soluble (such as pectin) and water-insoluble (e.g. cellulose). Fiber is considered an important part of human nutrition.
- the EU regulation on nutritional labeling assigns them a flat calorific value of 8 kJ/g.
- a "reinforcing material” means a single material of a composite material. According to its designation, the reinforcing material should guarantee the strength and rigidity of the composite material. Of most importance, besides its type, is the form of the reinforcing fabric, whether it is particulate, fibrous or layered. Reinforcement is understood to mean, in particular, the organic additives used in plastics that reinforce the plastic matrix. Reinforcement means improving mechanical and physical properties such as elasticity, flexural strength, creep mechanics and heat resistance. Reinforcing materials are used specifically to improve these material properties.
- “Gelling agents” are food additives that swell in water or bind water, ie lead to gelation. They form a gelatinous mass and give soups, sauces or puddings a creamy to firm consistency.
- a “firming agent” according to the invention is a food additive that ensures that the firmness and freshness of a food is retained after and during processing. To do this, they react with certain ingredients, e.g. pectin. This includes, for example, calcium salts that react with an ingredient in the product, such as the pectin in the fruit.
- a “texturizer” within the meaning of the present application is understood to mean a substance that has the ability to impart a particular texture to a product. Texture is to be understood here as meaning the surface properties of food that can be detected in food technology by sensors (touch and touch), in particular the mouthfeel of a product.
- a “thickening agent” within the meaning of the present application is a substance that is primarily able to bind water. The removal of unbound water leads to an increase in viscosity. Above a concentration that is characteristic of each thickener, this effect is accompanied by network effects, which usually lead to a disproportionate increase in viscosity. Thickeners therefore have the ability to impart a certain consistency to a product. Thickening here means increased viscosity or firmness of the product as a result of using the thickener.
- a “filler” according to the invention is an insoluble additive which, added in high concentration to the base material (the matrix), i.a. can greatly change the mechanical, electrical or processing properties of materials, while at the same time significantly reducing the proportion of the typically more expensive matrix in the finished product.
- this is a food additive which is then used as a bulking agent, forming part of the bulk of the food without contributing appreciably to its usable energy content. This reduces the actual energy content per volume or per mass of the food.
- a “carrier” according to the invention is a substance to which other substances can be attached (physically bound), that is, which can “carry” other substances.
- an active pharmaceutical ingredient or flavoring that is otherwise difficult to dose can be bound to a carrier that is easier to dose.
- the carrier is preferably a technical adjuvant in the food industry and they can thus transport aromas into the products, with the appearance and taste of a foodstuff generally not being changed by the carrier itself.
- technical auxiliaries they do not have to be labeled in the list of ingredients, as they themselves have no effect in the end product.
- an “emulsifier” is understood to be an auxiliary substance that is used to mix and stabilize two immiscible liquids, such as oil and water, to form a finely divided mixture, the so-called emulsion.
- the emulsifier is preferably a food additive.
- a "release agent” according to the invention is a food additive or technical adjuvant that prevents food from sticking or clumping. thus belong Separating agents also to the substances that increase or maintain the pourability. Separating agents, for example, prevent salt from becoming lumpy and loose candies from sticking together to form a single block of sugar. It is used as a technical auxiliary in the industrial processing and production of food.
- Technical excipients are food additives that are added to facilitate technical processes such as cutting and filtering. In the end product, however, the technical auxiliaries must not be present at all or only in unavoidable (small) residues.
- a “flow aid” according to the invention is a separating agent that is added to crystalline substances in order to prevent the individual crystals from clumping together, primarily for the purpose of better machine usability. Their use is intended to prevent table salt, for example, from clumping before or during processing and thus becoming more difficult to dose.
- a “stabilizer” according to the invention is a food additive which, when added to a metastable system, has the property of maintaining and thus stabilizing its nature, manageability, aroma or other parameters in a defined manner.
- a stabilizer can have one or more additional functions.
- a “baking stability improver” according to the present invention is characterized in that an added liquid, viscous or creamy composition exhibits minimal spreading or flow upon addition of the improver and application of dry heat.
- a “foaming agent” according to the invention is a food additive that causes a foodstuff to form a uniform dispersion of gas in liquid or solid foodstuffs. Foaming agents thus ensure that gases are evenly distributed in liquids or solids.
- a “whipping agent” is a food additive which, after being added to a mass, allows the volume of the mass to be increased by blowing in air. Whipping agents stabilize the mass and thus simplify handling. Whipping agents are used in the food industry, for example to make biscuits, mousse au chocolat and other desserts.
- a "surgical bandage” (WSV), colloquially also called adhesive plaster or plaster, is a piece of wound dressing that is connected with an adhesive tape. It is used to cover small wounds.
- a “transdermal patch” is a form of administration for the systemic administration of drugs in patch form. It is stuck to the skin and releases the active ingredient in a controlled manner, which is then absorbed through the skin. The active ingredient gets into the blood vessel system without being broken down prematurely in the gastrointestinal tract or the liver.
- a “stoma” is understood to be an artificially created connection between a hollow organ and the surface of the body.
- Typical examples of a stoma are the artificial outlet of the large intestine (colostomy), the artificial outlet of the small intestine (neostomy) and the artificial outlet of the bladder (urostomy).
- Ostomy products e.g. ostomy bags
- These are bags that are attached to an adhesive surface. This adhesive pad is placed on the stomach around the stoma and sticks to the skin.
- cleaning agents are consumables that are used to clean a wide variety of items and objects. They cause or support the removal of contamination as a result of use or residues and adhesions from the manufacturing process of the object. Different areas of application require different cleaning agents. Detergents (heavy duty detergents, color detergents, fabric softeners, etc.) or gall soap are used for laundry and textiles. Dishwashing detergent, machine dishwashing detergent or rinse aid is used for crockery (cooking utensils, tableware and cutlery). For surfaces in living and working rooms: neutral cleaner, scouring agent (scouring sand) or window cleaning agent.
- RM are, for example, limescale removers, pipe cleaners, brake cleaners, alcohol cleaners, all-purpose cleaners, glass cleaners, sanitary cleaners, toilet cleaners, carpet cleaners, car care products, oven cleaners, bathroom cleaners and metal cleaning agents.
- a “lubricant” (also synonymous: lubricant) is a substance that is used for lubrication and to reduce friction and wear, as well as for cooling, vibration damping, sealing and corrosion protection.
- all lubricants consist of a base liquid (mostly base oil) as well as other ingredients, which are called additives.
- lubricants are liquid lubricants (lubricating oils and cooling lubricants), lubricating greases, solid lubricants (e.g. graphite).
- Coolants in the context of the invention are liquid or solid substances or mixtures of substances that are used to dissipate heat.
- a “composite” is a material made of two or more materials joined together that has material properties different from those of its individual components. Material properties and geometry of the components are important for the properties of the composite materials. In particular, size effects often play a role.
- paints also known as paints or paints
- a paint is a "liquid to pasty coating material that is mainly applied by brushing or rolling.”
- an “adhesive” is understood to mean a non-metallic substance which is able to connect materials by means of surface adhesion (adhesion) and its internal strength (cohesion). It is therefore a process material that is used in the bonding process to connect different materials. Examples are dispersion adhesive, hot melt adhesive, plastisol, cyanoacrylate adhesive, methyl methacrylate adhesive, unsaturated polyester adhesive, epoxy adhesive, polyurethane adhesive, silicone, phenolic resin adhesive, polyimide adhesive, polysulfide adhesive, bismaleimide adhesive, based adhesive silane-modified polymers, silicone adhesive.
- Drilling fluids (also drilling mud) in the context of the present application are liquids that are pumped through the borehole during drilling. There are two basic types of drilling fluids - water-based and oil-based drilling fluids. Drilling muds essentially serve to stabilize a borehole, to clean the bottom of the borehole and to discharge the drilled soil material (drillings). In addition, they dissipate the considerable frictional heat generated at the drill bit and thus cool and lubricate it drilling tool. In addition, they reduce the frictional resistance for drill bits and rotating drill rods and dampen their vibrations.
- Fracking is a method of creating, widening and stabilizing fractures in the rock of a deep subsurface deposit with the aim of increasing the permeability of the reservoir rocks. This allows gases or liquids therein to flow more easily and consistently to the well and be recovered.
- frac fluid a liquid
- Water is used as the frac fluid, which is usually mixed with proppants, such as e.g. B. quartz sand, and thickeners is added.
- FIG. 1 a process for producing the citrus fiber is shown schematically as a flow chart.
- the pomace is broken down by hydrolysis 20 by incubation in an acidic solution at 70° to 80°C. This is followed by two separate steps 30a (decanter) and 30b (separator) for the most complete possible separation of all particles from the liquid phase.
- the separated material is resuspended in step 35 with an aqueous NaOH solution to obtain a suspension with a pH of between 3.0 and 5.0.
- step 38 coarse or unbroken particles are then separated by wet sieving using a straining machine.
- step 40 the enzymatic de-esterification then takes place by adding a pectin methyl esterase and incubating for 2 to 8 hours at 10 to 60°C.
- Two alcohol washing steps 50 and 70 are then carried out, each with subsequent solid-liquid separation using decanters 60 and 80 .
- step 100 the fibers are gently dried by means of fluidized bed drying, in order to then obtain the citrus fibers 110 according to the invention.
- This yield point provides information about the structural strength and is determined in the rotation test by increasing the shear stress acting on the sample over time until the sample begins to flow.
- Shear stresses that are below the yield point only cause an elastic deformation, which only leads to yielding if the shear stresses are above the yield point. In this determination, this is measured by measuring when a specified minimum shear rate Y is exceeded. According to the present method, the yield point T 0 [Pa] is exceeded at the shear rate Y > 0.1 s -1 .
- Measuring device Rheometer Physica MCR series (e.g. MCR 301, MCR 101)
- Measuring system Z3 DIN or CC25
- Measuring cup CC 27 P06 (ribbed measuring cup)
- the yield point T 0 (unit [Pa] is read in Section 2 and is the shear stress (unit: [Pa]) at which the shear rate is V ⁇ 0.10 s -1 for the last time.
- yield point (rotation) The yield point measured with the rotation method is also referred to as “yield point (rotation)”.
- This yield point also provides information about the structural strength and is determined in the oscillation test by increasing the amplitude at a constant frequency until the sample is destroyed by the ever-increasing deflection and then begins to flow. Below the yield point, the substance behaves like an elastic solid, i.e. the elastic parts (G') are higher than the viscous parts (G"), while when the yield point is exceeded, the viscous parts of the sample increase and the elastic parts decrease.
- Measuring device Rheometer Physica MCR series (e.g. MCR 301, MCR 101)
- Measuring system Z3 DIN or CC25
- Measuring cup CC 27 P06 (ribbed measuring cup)
- the shear stress at the cross-over is evaluated after exceeding the linear-viscoelastic range.
- the yield point measured using the oscillation method is also referred to as the "cross-over yield point”.
- the dynamic soenberg number W (Windhab E, Maier T, Strukturtechnik 1990, 44: 185f) is a derived variable in which the elastic components (G') determined in the oscillation test in the linear viscoelastic range are set in relation to the viscous components (G") :
- a high value for W means that the fibers have built up a predominantly elastic structure, while a low value for W indicates structures with clearly viscous components.
- the creamy texture typical of fibers is achieved when the W values are in the range of approx. 6 - 8, with lower values the sample is judged to be watery (less thick).
- Measuring device Rheometer Physica MCR series, e.g. MCR 301, MCR 101
- Measuring system Z3 DIN or CC25 Measuring cup: CC 27 P06 (ribbed measuring cup)
- phase shift angle ⁇ is read in the linear viscoelastic range.
- the dynamic leastenberg number W is then calculated using the following formula:
- Measuring device Texture Analyzer TA-XT 2 (Stable Micro Systems, Godaiming, UK)
- Test method/option Measurement of the force in the direction of compression / simple test
- the strength corresponds to the force that the measuring body needs to penetrate 10 mm into the suspension. This force is read from the force-time diagram. It should be noted that from the history of strength measurement, the unit of strength measured was in grams (g).
- a set of screens In a screening machine, a set of screens, the mesh size of which constantly increases from the bottom screen to the top, is arranged one above the other. The sample is placed on the top sieve - the one with the largest mesh size. The sample particles with a diameter larger than the mesh size remain on the sieve; the finer particles fall through to the next sieve. The proportion of the sample on the different sieves is weighed out and reported as a percentage.
- the sample is weighed to two decimal places.
- the screens are provided with screening aids and built up one on top of the other with increasing mesh size.
- the sample is quantitatively transferred to the top sieve, the sieves are clamped and the sieving process proceeds according to defined parameters.
- the individual sieves are weighed with sample and sieve aid and empty with sieve aid. If only a limit value in the particle size spectrum is to be checked for a product (e.g. 90% ⁇ 250 ⁇ m), then only a sieve with the appropriate mesh size is used.
- Vibration height 1.5 mm
- the screen construction consists of the following mesh sizes in pm: 1400, 1180, 1000, 710, 500, 355, 250 followed by the bottom.
- the grain size is calculated using the following formula:
- the sample is carefully filled into the measuring system of the rheometer after exactly 1 hour and the respective measurement is started. If the sample settles, it is carefully stirred with a spoon immediately before filling.
- the sample is carefully filled into the measuring system of the rheometer after exactly 1 hour and the respective measurement is started. If the sample settles, it is carefully stirred with a spoon immediately before filling.
- the sample is allowed to swell with excess water at room temperature for 24 hours. After centrifugation and subsequent decanting of the supernatant, the water binding capacity in g H2O/g sample can be determined gravimetrically. The pH value in the suspension must be measured and documented.
- Plant fiber 1.0 g (in a centrifuge tube)
- the water binding capacity (WBV) in g H2O / g sample can now be calculated using the following formula:
- Measuring device Physica MCR series (e.g. MCR 301, MCR 101)
- Measuring system Z3 DIN or CC25
- the moisture content of the sample is understood to mean the decrease in mass determined according to defined conditions after drying.
- the moisture content of the sample is determined by means of infrared drying using the Sartorius MA-45 moisture analyzer (from Sartorius, Goettingen, Germany).
- the color and brightness measurements are made with the Minolta Chromameter CR 300 or
- the spectral properties of a sample are determined using standard color values.
- the color of a sample is described in terms of hue, lightness and saturation. With these three basic properties, the color can be represented three-dimensionally:
- the hues lie on the outer shell of the color body, the lightness varies on the vertical axis and the degree of saturation runs horizontally.
- L*a*b* measurement system say L-star, a-star, b-star
- L* represents lightness
- a* and b* represent both hue and saturation
- a* and b* indicate the positions on two color axes, where a* is assigned to the red-green axis and b* to the blue-yellow axis.
- the device converts the standard color values into L*a*b* coordinates.
- the sample is sprinkled on a white sheet of paper and leveled with a glass stopper.
- the measuring head of the chromameter is placed directly on the sample and the trigger is pressed.
- a triplicate measurement is carried out on each sample and the mean value is calculated.
- the L*, a*, b* values are specified by the device with two decimal places.
- the pectin contained in fibrous samples is converted into the liquid phase by means of an aqueous extraction.
- the pectin is precipitated from the extract as an alcohol insoluble substance (AIS).
- the sample suspension cooled to room temperature, is divided into four 150 ml centrifuge beakers and centrifuged at 4000 x g for 10 min. The supernatant is collected. The sediment from each beaker is resuspended in 50 g distilled water and centrifuged again at 4000 x g for 10 min. The supernatant is collected, the sediment is discarded.
- the combined centrifugals are placed in about 4 l of isopropanol (98%) to precipitate the alcohol-insoluble substance (AIS). After 1 hour, it is filtered through a filter cloth and the AIS is pressed off manually. The AIS is then added to about 3 l of isopropanol (98%) in the filter cloth and loosened up by hand using gloves.
- AIS alcohol-insoluble substance
- the squeezing process is repeated, the AIS is removed quantitatively from the filter cloth, loosened up and dried in a drying cabinet at 60° C. for 1 hour.
- the pressed, dried substance is weighed out to the nearest 0.1 g to calculate the Alcohol Insoluble Substance (AIS).
- AIS Alcohol Insoluble Substance
- the calculation of the water-soluble pectin based on the fibrous sample is based on the following formula, where the water-soluble pectin occurs as an alcohol insoluble substance (AIS): g dried AIS Tal x 100
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Abstract
La présente invention concerne l'utilisation d'une fibre de fruit désestérifiée, activable, pour la production de produits dans l'industrie alimentaire et non alimentaire. L'invention concerne en outre des produits qui contiennent la fibre de fruit désestérifiée, activable.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102020120605.4A DE102020120605B4 (de) | 2020-08-05 | 2020-08-05 | Aktivierbare, entesterte Fruchtfaser, Verfahren zur Herstellung und Verwendung |
DE102020125034.7A DE102020125034A1 (de) | 2020-09-25 | 2020-09-25 | Verwendung einer aktivierbaren, entesterten Fruchtfaser zur Herstellung von Erzeugnissen |
PCT/EP2021/071727 WO2022029153A1 (fr) | 2020-08-05 | 2021-08-04 | Utilisation d'une fibre de fruit désestérifiée, activable, pour la production de produits |
Publications (1)
Publication Number | Publication Date |
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EP4192262A1 true EP4192262A1 (fr) | 2023-06-14 |
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ID=77465963
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP21759037.1A Pending EP4192262A1 (fr) | 2020-08-05 | 2021-08-04 | Utilisation d'une fibre de fruit désestérifiée, activable, pour la production de produits |
Country Status (3)
Country | Link |
---|---|
US (1) | US20230303722A1 (fr) |
EP (1) | EP4192262A1 (fr) |
WO (1) | WO2022029153A1 (fr) |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4016351A (en) * | 1976-02-04 | 1977-04-05 | Eschinasi Emile H | Pectic substances with varying methoxyl content and process therefor |
FR2730252B1 (fr) | 1995-02-08 | 1997-04-18 | Generale Sucriere Sa | Cellulose microfibrillee et son procede d'obtention a partir de pulpe de vegetaux a parois primaires, notamment a partir de pulpe de betteraves sucrieres. |
DE19815547C1 (de) * | 1998-04-07 | 1999-12-02 | Joachim Schmidt | Haftmittel für Zahnprothesen |
GB9817805D0 (en) * | 1998-08-14 | 1998-10-14 | Danisco | Use of a composition |
US6699977B1 (en) * | 2000-06-09 | 2004-03-02 | Cp Kelco Aps | Low methoxyl pectins, processes thereof, and stabilized aqueous systems comprising the same |
US20080166465A1 (en) * | 2007-01-10 | 2008-07-10 | Cp Kelco U.S., Inc. | Pectin for Heat Stable Bakery Jams |
PT2188315T (pt) * | 2007-08-29 | 2019-06-27 | Kmc Kartoffelmelcentralen Amba | Método de preparação de produtos de pectina que contenham fibras e produtos de pectina |
JP2010022223A (ja) * | 2008-07-16 | 2010-02-04 | Sansho Kk | 酵素で脱エステルしたペクチンを用いた酸性タンパク食品及びその製造法 |
WO2011041384A2 (fr) * | 2009-09-30 | 2011-04-07 | The Board Of Trustees Of The University Of Alabama | Composés de pectine, leurs procédés d'utilisation, et procédés de contrôle de solubilité dans l'eau |
WO2014017911A1 (fr) * | 2012-07-27 | 2014-01-30 | Cellucomp Ltd. | Compositions de cellulose d'origine végétale destinées à être utilisées comme boues de forage |
-
2021
- 2021-08-04 US US18/040,421 patent/US20230303722A1/en active Pending
- 2021-08-04 WO PCT/EP2021/071727 patent/WO2022029153A1/fr active Application Filing
- 2021-08-04 EP EP21759037.1A patent/EP4192262A1/fr active Pending
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Publication number | Publication date |
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WO2022029153A1 (fr) | 2022-02-10 |
US20230303722A1 (en) | 2023-09-28 |
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