THIS invention relates to food products. More particularly, this invention relates to processes for the production of an ingredient that is particularly useful in the production of a food product and more particularly, can be used for the production of low allergen or allergen-free food products.
Processes for the production of food products often need be adapted to a variety of different environment and settings. A food allergy and/or food intolerance can result from a variety of foodstuffs including fish and shellfish (such as shrimp, lobster and crab), peanuts, tree nuts, wheat (gluten), eggs, soy, sesame and dairy. Food allergies and food intolerances are becoming increasingly prevalent in the population. For example, it is estimated that 0.5% of the population have an allergy to peanuts. The medical sequelae of food allergies and food intolerances can range from a mild reaction such as nasal congestion to anaphylactic shock and potential death.
Due to the prevalence of food allergy and food intolerances, consumer demands in the marketplace have exposed a need to provide processed food products that are safe for consumption by food allergy sufferers. However plant food ingredients that have both low levels of allergenicity and high levels of taste and nutrition are not yet widely available. This lack of suitable products can be attributed to the difficulty in producing a low-allergen or allergen-free ingredient with acceptable organoleptic properties from efficient and low cost plant conversion processes.
International Publication No. WO2008/009061 in the name of the Grain Foods CRC describes processes for the production of a nut-free spreadable food product which includes the step of subjecting the non-nut plant material to an elevated temperature.
There exists a market need to provide food products which are safe for consumption by people with a reaction to food allergens or food intolerances. At the same time these products should provide a tasty and nutritious alternative to be commercially successful.
The present invention is broadly directed to a process of drying a plant material for inclusion into food products, and in preferably, low allergen or allergen-free food products.
In other broad forms, the invention is directed to processes of producing a low allergenicity or allergen-free plant material and/or ingredient from a low allergenic or allergen-free plant material. More particularly, the invention is also directed to processes under controlled conditions which thereby produces consistent results. This non-nut plant material and/or ingredients can then be used to produce a range of allergen-free or low allergenicity food products.
In a first aspect, the invention provides a process of drying a particulate plant material for use in a food product, said process including the step of subjecting a particulate plant material suspended in a fluid stream to an elevated temperature to thereby dry said particulate plant material.
In a second aspect, the invention provides a process of drying a non-nut leguminous particulate plant material, said process including the step of subjecting the non-nut leguminous plant material suspended in a fluid stream to an elevated temperature to thereby dry said non-nut leguminous plant material.
Preferably, the non-nut leguminous plant material is a mungbean.
In a third aspect, the invention provides a dried particulate plant material for use in a food product produced according to the process of the first aspect.
In a fourth aspect, the invention provides a dried leguminous particulate plant material produced according to the process of the second aspect.
In a fifth aspect, the invention provides a food product comprising a dried particulate plant material of the third aspect.
In a sixth aspect, the invention provides a food product comprising a dried leguminous particulate plant material of the fourth aspect.
In a seventh aspect, the invention provides a process of producing a food product, said process including the step of subjecting a particulate plant material to an elevated temperature to dry said particulate plant material to thereby produce said food product.
In an eighth aspect, the invention provides a food product produced according the process of the seventh aspect.
In preferred embodiments of the aforementioned aspects, the particulate plant material or the non-nut leguminous particulate plant material has a mean particle size of less than about 1000 μm.
More preferably, the mean particle size is between about 30 μm and about 800 μm.
Even more preferably, the mean particle size is between about 80 μm and about 600 μm.
Yet even more preferably, the mean particle size is between about 150 μm and about 490 μm.
In other preferred embodiments, the mean particle size is between about 240 μm and about 450 μm.
In preferred embodiments, the particulate plant material or the non-nut leguminous particulate plant material is suspended in a continuous fluid stream and more preferably, a fluidising stream.
Preferably, the fluid stream is a liquid or a gas.
More preferably, the fluid stream is a gas.
Even more preferably, the gas is air.
Preferably, the elevated temperature is between about 100° C. and about 400° C.
More preferably, the elevated temperature is between about 140° C. and about 370° C.
Even more preferably, the elevated temperature is between about 190° C. and about 350° C.
Yet even more preferably, the elevated temperature is between about 250° C. and about 300° C.
In further preferred embodiments, the elevated temperature is about 270° C.
In preferred embodiments of the aforementioned aspects, the particulate plant material is a non-nut plant material.
Preferably, the particulate plant material is selected from the group consisting of a plant seed, a cereal grain and a legume.
Preferably, the plant seed is selected from the group consisting of a sunflower seed, an amaranth seed, a quinoa seed, a tef seed, a chiatah seed, a buckwheat seed and a pumpkin seed.
In preferred embodiments, the cereal grain is selected from the group consisting of wheat, barley, rice, maize, sorghum, rye, millet and oats.
In other preferred embodiments where the non-nut plant material is a legume, the legume is not a peanut or any other nut.
In certain preferred embodiments the legume is selected from the group consisting of a bean, a mesquite, a broad bean, a pea, a lupin and a lentil.
Preferably, the bean is selected from the group consisting of a soybean, an adzuki bean, an anasazi, a lima bean, a cow pea, a rice bean, a urad bean, a moth bean, a tepary bean, a runner bean, a hyacinth bean, a black bean, a fava bean, a faba bean, a kidney bean and a mungbean.
Preferably, the bean is a mungbean.
In preferred embodiments, the dried particulate plant material or the dried non-nut leguminous plant material imparts a roasted flavour or a nut-like flavour to a food product.
In preferred embodiments, the food product is selected from the group consisting of a grain-based food product, a dairy based food product, a cereal, a baked product, a health bar, a nutrition bar, a snack bar, a cereal, a liquid food product, a semi-liquid food product, a sauce, a flour and a spreadable food product.
In preferred embodiments, the food product is a spreadable food product and preferably a nut-flavoured spreadable food product. Preferably, the dried particulate plant material or dried non-nut leguminous plant material imparts a nut-flavour to said nut-flavoured spreadable food product.
Throughout this specification, unless the context requires otherwise, the words “comprise”, “comprises” and “comprising” will be understood to imply the inclusion of a stated integer or group of integers but not the exclusion of any other integer or group of integers.
In order that the invention may be readily understood and put into practical effect, preferred embodiments will now be described by way of example with reference to the accompanying figures wherein like reference numerals refer to like parts and wherein:
The present invention arises, at least in part, from the observation that rapid and uniform distribution of heat to a particulate plant material results in consistent heat treatment of the particulate plant material. The result may be the production or imparting of a nut-like flavour to a nut-free plant material or alternatively, conversion of a starting plant material with an undesirable raw flavour (such as a bean-like flavour) to a neutral, bland, nut-like or roasted flavour in order to produce a dried plant material for inclusion into a suitable food product. It is envisaged that the dried particulate plant material may be included in a low-allergen or allergen-free food product.
Therefore, the process of the present invention overcomes some disadvantages and limitations of other approaches for the production of food ingredients using elevated temperature, inclusive of those processes described in International Publication No. WO2008/009061 (as hereinbefore described). More particularly, treatment of a particulate plant material with an elevated temperature under the conditions described herein for the present invention results in a rapid and relatively low cost route to converting a raw material with an undesirable flavour to a treated material with a desired flavour whilst simultaneously drying the particulate plant material to an acceptable level. Such a process may enable higher levels of addition of the dried particulate plant material to a food product without adversely affecting flavour.
In particular forms, a further advantage of the present invention is a process which imparts a nut-like flavour to a non-nut particulate plant material by subjecting a non-nut particulate plant material to an elevated temperature in a rapid and uniform manner, whereby the process minimises or eliminates burning the surface of a non-nut particulate plant material resulting in the generation of undesirable flavours. The result is a non-nut particulate plant material with an attractive nutty or roasted flavour that is untainted by undesirable burnt flavours. However it will be appreciated that the processes of the invention may also impart other flavour characteristics such as a roasted flavour, neutral flavour or bland flavour.
It will be understood that the dried particulate plant material produced according to the processes described herein are suitable for use in a variety of food products which preferably meet consumer standards such as palatability and taste acceptability.
In general aspects, the invention provides processes of drying particulate plant material for use in a food product which includes the step of subjecting a particulate plant material suspended in a fluid stream to an elevated temperature, to thereby dry said particulate plant material.
In other general aspects, the invention provides processes of drying a non-nut leguminous particulate plant material which includes the step of subjecting a non-nut leguminous particulate plant material suspended in a fluid stream to an elevated temperature to thereby dry said non-nut leguminous particulate plant material.
In preferred embodiments, the dried particulate plant material or dried non-nut leguminous particulate plant material imparts a roasted flavour or nut-flavour to a food product and more preferably, a nut-flavoured spreadable food product.
By “subject”, “subjecting” or “subjected” is meant to treat or expose the particulate plant material or flour and/or semolina derived from a particulate plant material according to the processes of the present invention.
In light of the foregoing, the invention is also broadly directed to processes for producing a dried particulate plant material with the particular feature of being suitable for consumption by people with food allergies and/or food intolerances. Non-limiting examples of foods which may elicit an allergic reaction or a food intolerance-associated reaction include nuts such as peanuts and tree nuts (such as almonds, cashews, hazels walnuts and pecans), wheat and in particular gluten, dairy (e.g. milk), eggs, fish and shellfish.
Therefore in particular embodiments, the invention contemplates processes of drying or producing food ingredients or materials has either low-allergenicity, is allergen-free or is substantially-free of an allergen that may be a substitute for food ingredients that are potentially harmful. In alternative embodiments, the dried particulate plant material may impart a nutty flavour to a nut-flavoured nut-free food product. In light of the foregoing it will be appreciated that the dried particulate plant materials produced according to the processes of the invention may be used as a substitute for a variety of potentially allergenic or food intolerance ingredients such as soybean, eggs, wheat (gluten) and dairy (lactose), although without limitation thereto.
In preferred embodiments, the particulate plant material is non-nut.
In other preferred embodiments, the particulate plant material is a non-nut leguminous plant material.
The term “nut” as used herein may refer to an indehiscent (it does not split open along a definite seam at maturity) dry fruit with one seed and a thick, hard pericarp (the shell). The term “nut” is also used to refer to various hard-shelled fruits or seeds. A “nut” may also be the fruit of certain trees and shrubs that have the seed enclosed in a bony, woody, or leathery covering that does not open when ripe. For example, a hard, dry, one-celled and one-seeded fruit, such as the nuts of the hazel, beech, oak, and chestnut. The term “nut” may also refer to a nut in the true botanical sense or may refer to a nut as in known in the culinary or common-usage sense. By way of example, a brazil nut is commonly known in the culinary sense as a nut however can also have a botanical classification as a seed. The term “nut” may also refer to the seed-bearing, hard, inner layer (endocarp) of a fruit called a drupe. A “nut” may also refer to a nut-like gymnosperm seed such a pine nut. In preferred embodiments, the nut is selected from the group consisting of a peanut, a tree nut, a cashew, an almond, a walnut, a macadamia, a hazelnut, a brazil nut, a chestnut, a pine nut, a coconut and a pistachio.
As referred to hereinbefore, the dried particulate plant material may be suitable for use in a food product which is particularly suited for consumption by individuals which have a food allergy and/or food intolerance. Hence in particular embodiments use of a plant material in the processes of the present invention which either is allergen-free, substantially allergen-free or has low-allergenicity may be desirable.
By “substantially-free of an allergen” or “substantially allergen-free” in the context of the present invention is meant a level of an allergen or any other compound that is associated with or linked to a food intolerance or food sensitivity reaction, that will not cause an allergic reaction, food sensitivity reaction or a food intolerance reaction associated with said allergen or any other compound that is associated with or linked to a food intolerance or food sensitivity reaction, upon consumption of a food which is potentially allergenic and/or potentially may cause a food intolerance reaction. Non-limiting examples of foods which may cause an allergic or food intolerance reaction include fish, shellfish, nuts, tree nuts, soy, wheat (gluten), dairy and eggs. In preferred embodiments, the allergen is a nut allergen such as a peanut allergen or alternatively, a tree nut allergen derived from a tree nut such as almonds, cashews, hazels, walnuts, pecans and macadamias, although without limitation thereto. In other embodiments, the allergen may be a pan-allergen or a cross-reactive allergen. It will be appreciated that “substantially-free” may be a level of allergen or any other compound that is associated with or linked to a food intolerance reaction which may be considered free or devoid of a food allergen or have low allergenicity. It will be appreciated that typically a food allergy can be thought of as classical allergy that is associated with an immune-system mediated reaction which generally involves an IgE response. In particular circumstances, the IgE response may be a food-specific or allergen-specific IgE. It will also be appreciated typically a food intolerance may refer to a collection of symptoms (such as headaches, muscle and joint aches and pains, and tiredness) triggered by certain foods. Although not wishing to be bound by any particular theory, the immune system does not cause the symptoms of food intolerance, though these symptoms may look and feel like those of a food allergy. By way of example, Coeliac's disease is a gluten intolerance syndrome that is triggered by eating wheat, barley and rye-containing foods, whilst lactose (a sugar found in milk) can cause intolerance to milk in certain individuals who lack the ability to break it down. It will be appreciated that a food allergy and a food intolerance may cause same or similar symptoms but are distinct syndromes. For example lactose intolerance is not an allergy, but causes some of the same symptoms as milk allergy, like cramping pains in the stomach and diarrhea.
In general embodiments, the particulate plant material includes, but is not limited to, a plant seed, a cereal grain and a legume. The particulate plant material may be dehulled or alternatively, have the hull, husk or outer covering present.
A person of skill in the art will readily appreciate that a particularly suitable particulate plant material for a food product may be a cereal grain, and in preferred embodiments, the cereal grain is selected from wheat, barley, rice, maize, sorghum, rye, millet and oats.
In particular embodiments, the present invention is particularly suited to drying a leguminous particulate plant material that is not a nut and in particular, a legume that is not a peanut (i.e. non-nut or a non-peanut leguminous particulate plant material).
In preferred embodiments, the leguminous particulate plant material is selected from the group consisting of beans, mesquite, lupins, broad beans, peas, and lentils.
In certain preferred embodiments, a lentil can be selected from the group consisting of brown lentils, green lentils, puy lentils, black lentils, decorticated lentils and yellow lentils.
In particularly preferred embodiments, the bean is selected from the group consisting of a soybean, an adzuki bean, an anasazi, a lima bean, a cow pea, a rice bean, a urad bean, a moth bean, a tepary bean, a runner bean, a hyacinth bean, a black bean, a fava bean, a faba bean, a kidney bean and a mungbean.
Preferably, the leguminous particulate plant material is a mungbean. In particularly preferred embodiments, the non-nut leguminous plant material is a dehulled mungbean.
Non-limiting examples of suitable the mungbean varieties are Berken, Satin, Regur, Celera, Delta, Emerald, Green Diamond and White Gold.
In other preferred embodiments, the leguminous particulate plant material is a pea such as, but not limited to, a chickpea.
It will be appreciated that in certain embodiments, the particulate plant material is a plant seed and is preferably an edible plant seed. It will be understood that a “seed” can refer to a ripened plant ovule containing an embryo.
More preferably, the plant seed is selected from the group consisting of a sunflower seed, an amaranth seed, a quinoa seed, a tef seed, a chiatah seed, a buckwheat seed and a pumpkin seed.
In light of the foregoing, it will be appreciated that in certain preferred embodiments, the particulate plant material utilised in the processes of the present invention may correspond to a flour and/or semolina. It will be appreciated that the term “semolina” may refer to plant materila with a particle size that corresponds to the large hard grains of wheat left after flour has been bolted.
Preferably, the particulate plant material has a mean particle size of less than about 1000 μm (i.e. about 1 mm).
More preferably, the particulate plant material has a mean particle size of about 30 μm, 50 μm, 70 μm, 90 μm, 100 μm, 120 μm, 150 μm, 170 μm, 190 μm, 200 μm, 220 μm, 240 μm, 250 μm, 260 μm, 270 μm, 280 μm, 290 μm, 300 μm, 310 μm, 320 μm, 330 μm, 340 μm, 350 μm, 360 μm, 370 μm, 380 μm, 390 μm, 400 μm, 410 μm, 420 μm, 430 μm, 440 μm, 450 μm, 460 μm, 470 μm, 480 μm, 490 μm, 500 μm, 550 μm, 600 μm, 650 μm, 700 μm, 750 μm, 800 μm, 850 μm, 900 μm and about 950 μm.
In the context of the present invention, by “suspended in a fluid stream” is meant that particulate plant matter or particulate plant material is distributed, mixed, dispersed, floated or otherwise maintained in a fluid stream or field so that the fluid-particulate mixture behaves or exhibits fluid-like properties. For example, this may be achieved by the introduction of pressurised fluid through the particulate medium at a rate or velocity sufficient to support the weight of the particles in a fluidised state. Moreover, the application of an elevated temperature to particulate matter which is suspended in a fluid stream results in the fluidisation of particles with a significant and rapid heat capacity and transfer whilst maintaining a homogenous or uniform temperature field. It will be appreciated that heat transfer under such conditions results in consistent and controlled heat treatment of the particles, thereby eliminating or minimising burnt particles and uneven heat treatment. In particularly preferred embodiments, the particulate plant material is suspended by a fluid stream.
In light of the foregoing, it will be appreciated that in preferred embodiments, the particulate plant material particles are in a fluidised state.
In other preferred embodiments, the particulate plant material is suspended in a continuous fluid stream.
It is contemplated that the fluid is a gas or a liquid. Preferably the fluid is a gas and more preferably, the gas is air.
As hereinbefore described, pressurised fluid may be used to generate a fluid-particulate mixture which exhibits fluid-like properties and in particular at a velocity sufficient to support the particulate matter. According to general embodiments, the velocity is preferably between about 2 m/sec to about 7 m/sec, more preferably about 3 msec, 4 msec, 5 msec or 6 m/sec.
In particular preferred embodiments, the processes of the invention may utilise a fluidised or fluid bed dryer apparatus to subject the flour, semolina or other particulate plant material suspended in a fluid stream, to an elevated temperature.
Reference is made to
Holding vessel 2 further comprises a heat source 7 and a fluid source 8. Heated fluid and in particular heated air 13, which is generated by passing air over the heat source 7, is supplied to the holding vessel 2 through a perforated distributor plate 6. The perforated distributor plate 6 diffuses the upward flowing hot air 13 which in turn, helps create a stable and uniform fluidised bed. The hot air 13 flows through a layer of untreated particulate plant material 5 at a velocity which initiates and supports fluidisation of the particulate matter and thus generates a fluidised bed of particulate matter 9. Within this environment, bubbles form and collapse within the fluidised bed of particular matter 9 which in turn, promotes particle movement so that the hot air-particulate matter mixture exhibits fluid-like properties. A by-product of this process is moist air which exits the holding vessel 2 by way of stack 10.
A particular advantage conferred by a fluidised bed is the ability to promote high levels of contact between gasses and particulate material, thus resulting in high thermal transfer utilising convective heat transfer and thus enables thermal uniformity which may be analogous to a well mixed gas.
As will be appreciated by the skilled addressee, the moisture content of the particulate plant material before and after heat treatment is a further consideration in the processes of the present invention. According to general embodiments, the starting moisture content of the particulate plant material is preferably between about 7% and about 20%, more preferably between about 9% and about 17% and even more preferably about 16%, 15%, 14%, 13%, 12%, 11% or 10%. Yet even more preferably, the moisture content of the starting material is about 13%.
The moisture content of the particulate plant material which results from treatment at an elevated temperature according to the processes as hereinbefore described is preferably less than about 5%, and more preferably less than about 4% and yet even more preferably less than 3%.
The step of subjecting the particulate plant material to an elevated temperature can be performed either in batch or in a continuous system. Advantageously, this step is performed in a batch system.
In light of the foregoing, it will be appreciated that according to preferred embodiments, the particulate plant material may be ground or re-ground to a desired particle size in order to achieve a particle distribution which is amenable to the processes of the present invention or to downstream uses of the dried particulate plant material. The processes of the present invention may further include sifting or sieving the particulate plant material and in particular the ground particulate plant material, through a screen with a defined size to produce a flour and/or semolina with a constant average particle size as hereinbefore described.
It will be appreciated that a combination of grinding and sieving steps may also be utilised to achieve the desired overall particle size whilst minimising the amount of out of specification product and therefore minimising the amount of reduce yield and waste. In light of the foregoing, it will also be appreciated that grinding, sieving and/or sifting steps can be performed on a conventional flour mill apparatus.
In those embodiments where the heat treated or dried particulate plant material has a mean particle size which is not appropriate for inclusion into a desired food product or other food product, the heat treated particulate plant material may be either ground or re-ground to produce a flour with a mean particle size that is suited for inclusion into a food product which needs to be smooth textured. According to these particular embodiments, the processes of the present invention further include grinding or re-grinding the dried particulate plant material to a flour with a mean particle size of less than about 100 μm. More preferably, the dried particulate plant material is ground or re-ground to a flour with a mean particle size of between about 30 μm and about 80 μm. Even more preferably, the dried particulate plant material is ground or re-ground to a flour with a mean particle size of about 50 μm.
In particularly preferred embodiments, the particulate plant material is dehulled. It will be appreciated that in those embodiments which contemplate dehulled particulate plant material, the dehulling of the particulate plant material may not be complete and therefore a small amount of hulls may be left on the particulate plant material and may be removed during later stages of the process.
The de-hulling of the particulate plant material can be carried out utilising a decortication machine or an alternative abrasive process such as a rice pearler, similar to that used for de-hulling and polishing rice. The de-hulling process can be either a continuous or batch process.
In general embodiments, the particulate plant material may be conditioned by exposing the particulate plant material to moisture, preferably for a period of between 12 and 24 hours. It will be appreciated that conditioning may assist the process of the invention by raising the moisture of the particulate plant material to a level required for elevated temperature treatment and loosening the hulls of the particulate plant material in order to make de-hulling easier and reduce losses of the particulate plant material.
Subjecting the particulate plant material suspended in a fluid stream to an elevated temperature is a means by which a desired flavour and/or characteristic is imparted to a particulate plant material. By way of example, in particular embodiments a nut-like flavour may be imparted to a non-nut particulate plant material for use in a nut-flavoured, nut-free spreadable food product. In other embodiments, a roasted flavour is imparted to a particulate plant material. In yet further embodiments, the flavour of the raw particulate plant material is neutralised. Furthermore, a variety of parameters of the temperature treatment can be varied depending upon the colour and flavour requirement. In particular preferred embodiments, the elevated temperature can be achieved by roasting.
Preferably, the elevated temperature is between about 100° C. and about 400° C.
More preferably, the elevated temperature is about 120° C., 130° C., 140° C., 150° C., 160° C., 170° C., 180° C., 190° C., 200° C., 210° C., 220° C., 230° C., 240° C., 250° C., 260° C., 270° C., 280° C., 290° C., 300° C., 310° C., 320° C., 330° C., 340° C., 350° C., 360° C. 370° C., 380° C. or about 390° C.
The duration which the particulate plant material is subjected to an elevated temperature is a further factor for developing the required characteristics and/or flavour of the dried particulate plant material. In preferred embodiments, the time of treatment is between about 3 minutes and about 25 minutes and more preferably about 4 minutes, 5 minutes, 6 minutes, 7 minutes, 8 minutes, 9 minutes, 10 minutes, 11 minutes, 12 minutes, 13 minutes, 14 minutes, 15 minutes, 16 minutes, 17 minutes, 18 minutes, 19 minutes, 20 minutes, 21 minutes, 22 minutes, 23 minutes and about 24 minutes.
Even more preferably, the time of treatment is about 4.5 minutes.
Typically, although not exclusively, the particulate plant material is a seed and as such, is composed of an embryo and a coat. In an alternative preferred embodiment of the invention, the coat is removed from the plant material, and in particular the mungbean, prior to the treatment at an elevated temperature. According to this embodiment, the coat comprises no greater than 5% w/w of the final content but preferably less than 1% w/w of a food product and preferably, a spreadable food product.
In a preferred embodiment, the particulate plant material and more particularly, a seed is germinated prior to processing, although a person of skill in the art will appreciate that many particulate plant materials and in particular legumes, may undergo germination. Inclusion of a germination step may increase the nutritional value of some food products. Germination is a complex process that results in a number of significant biochemical changes in the seed. Generally, the conditions that support germination are adequate moisture, warm temperatures, and usually little or no light. Most seeds germinate best in the dark, although some require light. Germination can be induced by exposure of the particulate plant material to moisture under controlled conditions. Preferably, germination is performed under light-deprived conditions at room temperature.
The duration of germination can vary. Preferably, germination is performed for between 12 to 48 hours. More preferably, germination is allowed to proceed for 24 hours.
It can be readily appreciated that dried particulate plant material produced according to the processes of the present invention can form the foundation of a tasty and nutritional food product. Moreover, the processes as described herein for the present invention can be applied to a particulate plant material as suited for a particulate requirement. For example, if a soybean-free food product is required, a non-soybean particulate plant material may be used as the starting material. Non-limiting examples of food products include baked products (including cakes, biscuits, cake and biscuit mixtures, bread, pastry), liquid food products such as beverages, a semi-liquid food product such as a sauce, a flour, a breakfast cereals, a component of a sausage, a nutritional supplement, a nutrition or energy bar, snack bars and spreadable food products such as dips and other spreads. It is contemplated that the composition of the food product of the present invention can be adapted to suit various taste requirements. For example in one embodiment, a spreadable food product contemplated may be a nut-free peanut butter substitute. In another embodiment, the spreadable food product may be a chocolate-flavoured nut-free spreadable food product.
So that the invention may be readily understood and put into practical effect, the following non-limiting Examples are provided
The inventors have tested the following conditions in a fluidised bed dryer Dehulled mung beans with the following composition were used:
Starting moisture of mungbean for processing adjusted to 9, 13 and 17%. Particle size of mungbean: <85 micron <150 micron and 250 to 450 microns. Temperature of air delivered to the fluidised bed measured at the point of entry: 160° C., 190° C., 210° C., 220° C., 230° C., 240° C., 250° C., 260° C. and 270° C.
Time of treatment tested was 3.5 min to 20 min
Air velocity: 2.1 to 5 msec.
The following conditions were found to be most effective at producing a desirable end product:
Moisture 13%
Particle size 250 to 450 microns
temperature 270° C.
air velocity 3 m/s
Time 4.5 min
Finished moisture of mungbean flour is <3%
Note the material is reground after heat treatment for use as an ingredient in the case of the spread, it is ground to 50 microns.
Throughout the specification the aim has been to describe the preferred embodiments of the invention without limiting the invention to any one embodiment or specific collection of features. It will therefore be appreciated by those of skill in the art that, in light of the instant disclosure, various modifications and changes can be made in the particular embodiments exemplified without departing from the scope of the present invention.
All computer programs, algorithms, patent and scientific literature referred to herein is incorporated herein by reference.
Number | Date | Country | Kind |
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2008906303 | Dec 2008 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/AU2009/000076 | 1/23/2009 | WO | 00 | 10/18/2010 |