METHODOLOGY FOR OBTAINING ROLLABLE AND SHELF STABLE PURE MILLET FLOUR

Abstract

The present invention provides a method for preparing rollable and shelf stable pure millet flour comprising the following steps: a) cleaning millet grains to remove foreign material; b) pressure steaming millet grains; c) cooling of millets obtained from step b); d) oven drying or vacuum drying of millets obtained from step c); c) milling with 5 to 25% by weight of pregelatinized millet flour; thereby obtaining millet flour which is substantially rollable and have high shelf life.

Claims

1. A method for preparing rollable and shelf stable pure millet flour comprising the following steps: a) cleaning millet grains to remove foreign material; b) pressure steaming millet grains; c) cooling of millets obtained from step b); d) oven drying or vacuum drying of millets obtained from step c); e) milling with 5 to 25% by weight of pregelatinized millet flour; thereby obtaining millet flour which is substantially rollable and have high shelf life.

2. The method as claimed in claim 1, wherein step b) comprises pressure steaming jowar grains for around 4 to 6 minutes whereby moisture content is 20% to 25% and step d) involves oven drying of millets at 60 C. or vacuum drying for 2 hours.

3. The method as claimed in claim 1, wherein step b) comprises pressure steaming bajra grains for around 6 to 8 minutes whereby moisture content is 20% to 25% and step d) involves oven drying of millets at 60 C. or vacuum drying for 2 hours.

4. The method as claimed in claim 1, wherein b) comprises pressure steaming ragi grains for around 3 to 7 minutes whereby moisture content is 25% to 30% and step d) involves oven drying of millets at 60 C. or vacuum drying for 2 hours.

5. The method as claimed in claim 1, further consisting of packaging of the obtained millet flour and cooling it down for preparing roti from the rollable dough so obtained.

6. The method as claimed in claim 1, wherein step a) comprises cleaning of the grains, washing them in water and allowing them to soak in water to obtain 25% to 30% moisture.

7. The method as claimed in claim 1, wherein steps b) and c) comprise steaming the grains in a rotary cooker at a pressure of 1 to 3 Kg/cm.sup.2 for 3 to 8 minutes, turning off the steam and taking the resultant grains out for cooling.

8. The method as claimed in claim 1, wherein step e) comprises milling with a pregelatinized flour at 5 to 25% by weight of processed grains of jowar/bajra/ragi as applicable, such that the pregelatinized flour is manufactured applying extrusion, wherein the raw millet flour at 5 to 25% moisture is extruded through a twin screw extruder, the temperature of the third zone being kept at 120 C. to 150 C. to effect dextrinization of the extrudate, drying the extrudate at 50 C. to 80 C. and powdering before milling with the hydrothermally treated millet grains.

9. Millet flour obtained by the method of claim 1, wherein said millet flour has substantially high shelf life and rollability.

10. Millet flour obtained by the method of claim 1, wherein said millet flour is any one of Jowar, Bajra and Ragi.

Description

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS

[0036] The nature and scope of the present invention will be better understood from the accompanying drawings, which are by way of illustration of a preferred embodiment and not by way of any sort of limitation. In the accompanying drawings:

[0037] FIG. 1 illustrates rollable millet rotis of jowar, bajra and ragi according to the present invention.

[0038] FIG. 2 is a flow chart of a preferred embodiment of the technology according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0039] Having described the main features of the invention above, a more detailed and non-limiting description of a preferred embodiment will be given in the following paragraphs with reference to the accompanying drawings.

[0040] This invention employs a combination of a hydrothermally treated millet flour and a 5-25% by weight, of a pre-gelatinized millet flour, to obtain rollable roti for jowar, bajra and ragi. Of which, jowar and bajra are shelf-stable for at-least six months, and ragi for four months. FIG. 2 is a flow chart of a preferred embodiment of the methodology of the present invention.

[0041] With the proposed technology, the resulting millet flour can be kneaded with cold water into a soft dough. The dough gives sufficient resistance to deformation, thus enabling sheeting and rolling of the dough as compared to doughs from unprocessed flours.

Sheeting of the Dough is Achieved Due to the Following Reasons

[0042] Hydrothermal treatment of the millet grains enables the flour to hold more water and prevents the dough from sticking to the rolling base.

[0043] Addition of a pre-gelatinized millet flour, in which the starch in the millet flour is more fluid and malleable to mix and binds with the flour particles.

[0044] Thus, the hydrothermal treatment improves the rehydration ability, binding properties of the flour, and the addition of the pre-gelatinized flour further improves the rehydration ability of the flour, and enhances the dough's resistance to deformation, it's malleability and binding strength. This synergistic effect has been achieved by the inventors for the first time in this field of technology and thus transformed the methodology according to the present invention.

[0045] Hydrothermal treatments have been studied to inactivate the lipid oxidation enzymes. Due to the high content of unsaturated fatty acids, and lipid oxidizing enzymes in millets, the flour deteriorates physically and chemically.

[0046] Physical deterioration is often manifested as a lack of binding strength between the dough particles, while chemical deterioration manifests as unacceptable odours, tastes and flavours due to lipid oxidation.

[0047] The technology proposed in this invention employs a steaming technology to achieve at-least 20% moisture of the cooked millet grains, thus prolonging the shelf-life.

[0048] The rollable rotis of jowar, bajra and ragi according to the present invention are shown in FIG. 1.

[0049] The millet flour is produced comprising the steps as described below and also given in the flowchart in FIG. 2 [0050] Cleaning the grains, washing them in water, and allowing them to soak in water to obtain 25% to 30% moisture content. [0051] Steaming the grains in a rotary cooker at a pressure of 1 to 3 Kg/cm.sup.2 for 3-8 minutes, turning off the steam and taking them out for cooling. [0052] Drying these grains in a rotary oven at 60 C. for 6 to 8 hours or in a vacuum oven for 2 hours.

[0053] The processed grains are milled with a pre-gelatinized flour at 5-25% by weight of the processed grains and packaged in 12PET/12METPET/60POLY before subjecting them for shelf-life studies.

[0054] The pre-gelatinized flour is manufactured using extrusion, wherein, the raw millet flour at 5% to 25% moisture is extruded through a twin screw extruder, and the temperature of the third zone is 120 C. to 150 C. to effect dextrinization of the extrudate. This extrudate is dried at 50-80 C. and is powdered before milling with the hydrothermally treated millet grains.

[0055] The following experimental details are provided in support of the invention:

Storage Conditions for Shelf-Life Studies were [0056] a) Control samples (fresh, not rancid) were placed at 20 C. [0057] b) Samples placed under Accelerated Storage Testing conditions (AST) at 38 C. and 90% relative humidity for samples prepared at 150 Kg, and AST of 40 C. and 75% relative humidity for samples prepared at 500 g. Conversion factor for both the AST conditions to real time is the same. [0058] c) Samples placed under real time (ambient conditions at 25 C. and 75% relative humidity).

Details Concerning Experimental Data:

Rollable Millet Flours

A. Example 1Preparation of a Jowar Flour

[0059] 1. Around 500 gm of jowar of moisture content of around 11 to 13% was mixed with around 100 gm of water and pressure cooked for three whistles at 200 C. on an induction oven, until around 9 to 11 minutes and the moisture content of jowar was around 20 to 25%. Upon cooling, the grains were retrieved, and oven dried at 60 C. in a regular oven for 6 to 8 hours. Dried grains of moisture around 6 to 7% were harvested and milled with 5 to 25% of a pre-gelatinized jowar flour to obtain rollable jowar flour.

[0060] 2. Around 150 Kg of jowar of moisture of around 11 to 13% were washed with water until clean and allowed to soak in water till moisture was around 20 to 25%. The grains were cooked in rotary cooker for 4 to 6 minutes, under 1 to 2 Kg/cm.sup.2 of pressure until the moisture was around 21 to 32%. Cooked grains were dried further [0061] a) Using a rotary tray drier at 60 C. for 6 to 8 hours. [0062] b) Using a vacuum oven for 2 hours.

B. Example 2Preparation of Bajra Flour

[0063] 1. Around 500 g of bajra of moisture content around 11 to 13% were mixed with around 106 g of water. Bajra grains were pressure cooked at 200 C. using an induction oven for 2 whistles, until around 9 to 11 minutes and the moisture content of bajra was around 20 to 25%. Upon cooling, the grains were retrieved and oven dried at 60 C. for 6 to 8 hours. Dried grains of moisture around 6 to 7% were harvested and milled with 5-25% of a pre-gelatinized bajra flour to obtain rollable bajra flour.

[0064] 2. Around 150 Kg of bajra of moisture content around 11 to 13% were washed with water until clean, and allowed to soak in water till moisture was 25 to 30%. The grains were cooked in rotary cooker for 6 to 8 minutes, under 1 to 3 Kg/cm.sup.2 of pressure until the moisture was around 20 to 25%. Cooked grains were dried further [0065] a. Using a rotary tray drier at 60 C. for 6 to 8 hours. [0066] b. Using a vacuum oven for 2 hours.

C. Example 3Preparation of Ragi Flour

[0067] Around 500 g of ragi of moisture content around 12 to 14% was mixed with around 110 g of water and pressure cooked for 1 whistle, until 3 to 7 minutes and till the moisture was around 25 to 30%. Upon cooling, the grains were retrieved, and oven dried at 60 C. for 6 to 8 hours. Dried grains of moisture around 4 to 6% were harvested and milled with 5 to 25% of a pre-gelatinized ragi flour to obtain rollable ragi flour.

Analyses of Rollable Millet Flours

Results of Shelf-Life Study

[0068] 1. Moisture, sensorial rancidity check for 500 g samples of jowar flour (with pre-gelatinized flour) under AST.

[0069] The results comprising moisture and sensorial data are manifested in table 1.

TABLE-US-00001 TABLE 1 Duration of storage AST Unprocessed jowar Processed jowar converted to flour in AST flour in AST AST real time Moisture Rancidity Moisture Rancidity (days) (months) % score* % score* 15 1 10.5 1 8.8 0 60 4 12.4 1 11.9 0 75 5 12.5 1 11.9 0 105 7 12.4 1 12.4 0 120 8 11.3 1 12.1 0 136 9.1 12 1 12.1 0 196 13.1 11.3 1 11.9 0

[0070] 2. Moisture, sensorial rancidity check for 500 g samples of bajra flour (with pre-gelatinized flour).

[0071] Table 2 below represents the moisture and sensorial data for shelf-life pullouts of bajra flour.

TABLE-US-00002 TABLE 2 Duration of storage Unprocessed bajra Processed bajra AST converted flour under AST flour under AST AST to real time Rancidity Rancidity (days) (months) Moisture score* Moisture score* 0 0 9.5 0 9.5 0 30 4 11.4 1 11.2 0 113 15.1 11.7 1 11.3 0 [0072] *Rancidity score of 1 indicates detection of rancidity, 0 indicates absence of rancidity.

[0073] Processed jowar (500 g) and bajra (500 g) clearly point to absence of rancidity until at-least 12 months. Also, the rotis from these flours were rollable until at-least 12 months.

[0074] The unprocessed flour samples of bajra were rancid. The rotis from these flours were not rollable.

[0075] 3. Shelf-life-Moisture and Free fatty acids % (FFA) for jowar, bajra and ragi flours.

TABLE-US-00003 TABLE 3 Moisture free fatty acids values for shelf-life pullouts of jowar flours Millet flour analyses AST Zero Day 30 day 60 day 90 day 120 day Jowar regular dried Moisture % 6.51 6.95 7.01 7.11 7.24 FFA 0.046 0.23 0.51 0.697 0.741 Jowar vacuum dried Moisture 5.6 5.6 5.629 5.83 5.99 FFA 0.042 0.242 0.46 0.535 0.613 Bajra regular dried Moisture 7.5 8.8 8.5 8.59 9.03 FFA 0.023 0.241 0.212 0.239 0.28 Bajra vacuum dried Moisture 7.35 7.47 7.51 7.55 7.99 FFA 0.023 0.259 0.213 0.232 0.266 Ragi regular dried Zero day 55 day Moisture 8.9 10.7 FFA 1.442 2.55

[0076] The flour moisture must not be more than 12% by wt. for unprocessed jowar flour, 13.0% by wt. for unprocessed bajra flour and 10% by wt. for unprocessed ragi flour, as per FSSAI standards. For processed flours which contain pregelatinized flours, there are no limits established as such.

[0077] The moisture and free fatty acid (FFA) values are only slightly incremental. The FFA are within limits, indicating that the samples are not subject to lipid oxidation, and there is no rancidity. The FFA values must not exceed 10%. This was also evidenced from sensorial studies below by the absence of rancidity and bitterness in the millet samples as tasted by the panelists.

[0078] Shelf-life-sensorial detection of rancidity in millet flours-Random panelists were served millet roti and flour under storage conditions of control, ambient and AST and were asked to rate the samples for presence of rancidity with respect to the control (fresh sample or it's equivalent).

TABLE-US-00004 Table on Rancidity Rancidity score* AST Ambient - real time Jowar Bajra Ragi Jowar Bajra Ragi Month 1 0 0 0 0 0 0 Month 2 0 0 0 0 0 0 Month 4 0 0 1 0 0 1 *Rancidity score legend 0 indicates no rancidity as reported by panelists 1 indicates presence of rancidity as reported by panelists

[0079] Samples as old as 4 months under AST, which is 8 months* for jowar, 16 months* for bajra (conversion of AST into real time), show no development of rancidity and were acceptable. Samples of ragi which were 1.8 months under AST, which is 3.7 months when converted in real time, showed no development of rancidity and were acceptable.

[0080] *Conversion factor was 2 for jowar flour and ragi flour and 4 for bajra flour. The table on rancidity shows that after 4 months, slight rancidity is developed in ragi flour in ambient sample, and rancidity was high in AST sample. With this rancidity data, it can be concluded that the shelf-life of ragi is extended to upto 4 months. Whereas, for jowar and bajra, the shelf life is at least 6 months.

TABLE-US-00005 TABLE 4 Particle size of millet flours Sieve analysis passes Millet flour through 250 Micron Bajra flour, vacuum dried 90-93 Jowar flour, regular dried 90-93 Jowar flour, vacuum dried 95-98 Bajra flour, regular dried 90-93

[0081] The particle sizes of the flours are comparable to other flours used for baking rotis.

Rollability Test of Millet Flours Using Rolling Pin

[0082] Rollability in-house for jowar, bajra and ragi flours is shown in Table 5 below.

TABLE-US-00006 TABLE 5 Flour Water Diameter Thickness Sample amount added rollable achieved No. name in g in g in cm in mm 1 Jowar 20 20 18 to 21 0.5 to 1 regular 2 Jowar 20 20 18 to 24 0.5 to 1 vacuum 3 Bajra regular 20 16 19 to 22 0.5 to 1 4 Bajra 20 14 19 to 22 0.5 to 1 vacuum 5 Ragi regular 20 15 18 to 20 0.5 to 1

[0083] The rollability measurements conducted in-house point that the processed flours of jowar, bajra and ragi have excellent rollability ability, they were rollable up-to approximately 19 cm to 21 cm in diameter, on an average.

Rollability Test and Texture of Millet RotiOutside the Limits of Pregelatinized Flours Used

[0084] Rollability of bajra flour mixed with 5% and 25% pregelatinized bajra flour, separately is shown in Table 6 below:

TABLE-US-00007 TABLE 6 Pregelatinized Characteristics flour addition Rollability Rollability Kneading Rolling to bajra characteristics in cm of dough of dough Roti 5% Rolling with 17.3 Not as Cracks Roti slightly difficulty* soft observed harder than on edges 15%, grittiness felt in mouthfeel 25% Rolling 19.2 Soft, too Smooth Taste of very well sticky bajra diluted, like mixed with wheat flour. Stickiness in mouthfeel while chewing the roti. *as compared to 15% addition pf pregelatinized bajra flour to processed bajra flour.

[0085] At 5% addition of the pregelatinized bajra flour to bajra flour (processed), the dough was rollable with difficulty as compared to the addition of 15% pregelatinized bajra flour. The rotis were rollable only upto 17 cm as compared to the usual 19 to 20 cm (See table 5 above). Also, the roti was slightly harder than the roti prepared by the addition of 15% pregelatinized bajra flour.

[0086] At 25% addition of the pregelatinized flour to bajra flour (processed), the dough was too sticky. Though it rolled well, the roti was very flat in taste, where the taste of bajra was diluted and panelists thought that the flour was mixed with wheat. Also, upon chewing the roti, the panelists observed stickiness in the mouthfeel.

[0087] Contrary to what is stated above it can be found from the results in tables 1 to 6 as provided hereinbefore, that good results are obtained in the end product in respect of rollability, when milling with 5% to 25% by weight of pregelatinized millet flour is effected which is the surprising result according to the present invention, as determined by experimentation. This is also true in respect of shelf stability of the end product.

Nutritional Data

TABLE-US-00008 Nutritional Per 100 g parameters Jowar Bajra Energy (kCal) 382 390 Protein (g) 10 10 Fat (g) 2.4 4.6 Trans fat (%) <Detection limit Free fatty acid (% oleic 0.05 0.02 acid) Total carbohydrates (g) 80 77 Total dietary fibre (%) 7.5 10.4 Crude fibre (%) 0.96 0.66

[0088] Nutritionally, both jowar and bajra flours contain more than 6 g of dietary fibre, enabling them to be claimed as flours rich in fibre.

Preparation of Pre-Gelatinized Millet Flours

Example 4Pre-Gelatinized Jowar Flour

[0089] Jowar grains were cleaned, milled to flour of moisture around 15 to 20%, and extruded via a twin-screw extruder. Extrusion temperature was around 120 C. to 160 C. Extrudates were dried in a regular oven at 60 to 70 C. and milled to powder using a hammer mill.

Example 5Pre-Gelatinized Bajra Flour

[0090] Bajra grains were cleaned, milled to flour of moisture around 15 to 20%, and extruded via a twin-screw extruder. Extrusion temperature was around 120 C. to 160 C. Extrudates were dried in a regular oven at 60 to 70 C. and milled to powder using a hammer mill.

Example 6Pre-Gelatinized Ragi Flour

[0091] Ragi grains were cleaned, decorticated till around 6 to 10% bran remaining in the grains. Grains were milled to flour of moisture around 15 to 20% and extruded via a twin-screw extruder. Extrusion temperature was around 120 C. to 160 C. Extrudates were dried in a regular oven at 60 to 70 C. and milled to powder using a hammer mill.

[0092] Analyses of pre-gelatinized millet flours is shown in Table 8 below:

TABLE-US-00009 TABLE 8 Sr. No. Parameter Results 1 Expansion ratio of 2 to 4 extrudate* 2 Moisture of For jowar and bajra, moisture extruded flour % values were around 5 to 7% For ragi, moisture values were around 3 to 6% [0093] *The expansion ratio of the extrudate was calculated as A ratio of A to B, where A is the outer diameter of the extrudate and B is the internal diameter of the dye, used for extrusion.

[0094] It would be clear from hereinbefore that the present invention provides the following non-limiting advantages: [0095] 1. The present invention provides convenience to the consumerfor both untrained and trained (those accustomed to prepare millet roti) consumers, pan India, in terms of handling and shelf-stability. [0096] 2. Millet flours can be easily kneaded into a dough by using cold water or ambient temperature water instead of using hot water. [0097] 3. The millet dough from processed grains, is natural without any additives and can be easily rolled with a rolling pin on a rolling base. [0098] 4. The millet flours comprise 100% only millets, resulting in 100% jowar flour, 100% bajra flour and 100% ragi flour. Thus, purity and taste is not compromised. [0099] 5. High fibre content, due to lack of completely decorticating the grains.

[0100] From the above description it should be clear that all objectives of the present invention are met.

[0101] The present invention has been described with reference to some drawings and a preferred embodiment purely for the sake of understanding and not by way of any limitation and the present invention includes all legitimate developments within the scope of what has been described herein before and claimed in the appended claims.