USRE18775E - Manufacture of starch - Google Patents
Manufacture of starch Download PDFInfo
- Publication number
- USRE18775E USRE18775E US18775DE USRE18775E US RE18775 E USRE18775 E US RE18775E US 18775D E US18775D E US 18775DE US RE18775 E USRE18775 E US RE18775E
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- Prior art keywords
- starch
- corn
- liquor
- water
- separation
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- 229920002472 Starch Polymers 0.000 title description 167
- 239000008107 starch Substances 0.000 title description 167
- 235000019698 starch Nutrition 0.000 title description 166
- 238000004519 manufacturing process Methods 0.000 title description 29
- 241000209149 Zea Species 0.000 description 96
- 235000002017 Zea mays subsp mays Nutrition 0.000 description 96
- 235000005822 corn Nutrition 0.000 description 96
- 235000005824 corn Nutrition 0.000 description 96
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 65
- 238000000926 separation method Methods 0.000 description 49
- 239000000463 material Substances 0.000 description 40
- 238000000034 method Methods 0.000 description 29
- 238000005406 washing Methods 0.000 description 24
- 239000000470 constituent Substances 0.000 description 18
- 238000001914 filtration Methods 0.000 description 16
- 244000052616 bacterial pathogens Species 0.000 description 14
- 235000013339 cereals Nutrition 0.000 description 13
- 239000000706 filtrate Substances 0.000 description 11
- 239000007788 liquid Substances 0.000 description 8
- 238000005336 cracking Methods 0.000 description 6
- 239000000126 substance Substances 0.000 description 6
- 238000000227 grinding Methods 0.000 description 5
- 238000001704 evaporation Methods 0.000 description 4
- 210000004080 Milk Anatomy 0.000 description 3
- 238000005188 flotation Methods 0.000 description 3
- 230000005484 gravity Effects 0.000 description 3
- 235000013336 milk Nutrition 0.000 description 3
- 239000008267 milk Substances 0.000 description 3
- 239000000835 fiber Substances 0.000 description 2
- 238000002156 mixing Methods 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 238000007670 refining Methods 0.000 description 2
- 235000012970 cakes Nutrition 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000007865 diluting Methods 0.000 description 1
- 239000004615 ingredient Substances 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 238000011084 recovery Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 239000011343 solid material Substances 0.000 description 1
- 235000020985 whole grains Nutrition 0.000 description 1
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08B—POLYSACCHARIDES; DERIVATIVES THEREOF
- C08B30/00—Preparation of starch, degraded or non-chemically modified starch, amylose, or amylopectin
- C08B30/04—Extraction or purification
- C08B30/042—Extraction or purification from cereals or grains
- C08B30/044—Extraction or purification from cereals or grains from corn or maize
Definitions
- My invention relates to the manufacture of starch from corn, and one of the principal objects of the invention is to increase the amount of soluble substances in the corn recovered during the process of manufacturing and refining the starch by subjecting the soluble bearing material to certain operations to be hereinafter described.
- a further object is to utilize the fresh water introduced into the process in a manner to be most efl'ective' for producing a thorough and complete separation of the starch from the other ingredients of the corn.
- a further object is to eliminate, partially or wholly, the necessity of re-tabling the starch, by removing the residual solubles contained in the grain after steeping before the starch is tabled.
- the re-tabling operation is performed primarily for the' purpose of removin solubles. It is an expensive operation, t e cost of labor, apparatus and upkeep of apparatus being relatively high.
- the solubles eliminated by tabling are lost as the wash liquor contains so small a percentage of these substances in proportion -moved during certain operations preceding tabling and in such manner as makes their recovery feasible.
- a further object is to remove the major part of solubles in starch previous to tabling so that if the starch is subsequently flushed from tables and filtered the filtered starch will be freer from solubles than at present, and if in addition this starch is'washed while filtering, a starch is obtained having a much less soluble content than at present.
- the annexed drawing shows diagrammatically an apparatus suitable for carrying out the process of this invention.
- Diagrammatic representation of this apparatus is suflicient as the various instrumentalities are all of familiar construction.
- each unit shown singly in the drawing will ordinarily consist of a number of like instrumentalities arranged in series or in parallel such as tanks, mills, separators, or
- A represents the steep tank in which the whole grain is steeped in the usual manner. Acidified water is supplied to the tank through pipe 1 and the steep liquor is drawn off through pipe 2.
- B is a mill for cracking the steeped grain, the grain being moved to the mill by conveyor 3, and
- C is a germ separator to which the cracked material is delivered by conveyor 4 from which the germs are floated off and in which the cracked corn settles.
- the germs pass by a conveyor 5 to a reel or other separating device D, the starch liquor from which is returned to the germ separator through pipe 6, according to the usual practice.
- the germs from the reel D are then discharged into one or more reels, for example, reels E and F in succession and from reel F to a moisture exeller and then to a germ drier, as customary.
- he reel .F receives fresh water or other suitable washing liquid through pipe 7 which washes the germs therein and which then passes to reel E by pipe 8, thus constituting a counter-current washing system. From reel E the light starch liquor passes by pipe 9 to reel K hereinafter described.
- the starch liquor and cracked corn delivered from the separator C through pipe 10 are subjected to a reeling or other'separating treatment to remove the starch liquor containing loose starch particles from the cracked corn. This may be done by passing the material through a coarse mesh reel G and the starch liquor from G through a fine mesh reel H, the starch liquor passing from reel G to reel H-by pipe 11.
- the tailings from these reels will contain a certain quantity of soluble substances which areremoved therefrom as hereinafter from reel H instead of being sent directly to the starch tables, in accordance with former practice, is subjected to a separating operation for removing from the starch the bulk of the water and therewith'most of the solubles.
- the surplus starch liquor not returned-to the germ separator may be run through'pipc 12 and filter pressed in the press L, which may be of any desired type.
- the starch from the press which is in a solid state but moist, isthen diluted and run through pipe 13 to the starch tables (not shown).
- the starch liguor used for diluting the starch from the lter press is a light liquor relatively free from solubles, derived from the washing of the tailings in reel T, as will be hereinafter described.
- the filtrate from the press L which will be relatively high in solubles, is returnedto the steep A through pipe 14.
- the tailings from reels G and H pass through pipes 15 to one or more reels or other washing devices. Three of these reels are shown, being designated I, J, and K.
- the tailings from I go to J and those from J to K.
- the tailings from K are moved by conveyor 16 to the buhr mill M.
- Reel K receives light starch liquor from pipe 9 as previously described which washes the material therein, the bulk of starch liquor passing through reel K passes to reel J by pipe 17, however, a portion is returned to reel K through pipe 18 constituting a washing cycle which is desirable in order that material entering reel K may be of proper consistency.
- This washing operation is repeated in reel J, the bulk of the starch liquor passing to reel I by pipe 19 a part returning to reel J by pipe 20.
- reel K is practically free from solubles. It is important that the specific gravit of the starch liquor in germ separator C e maintained within narrow limits in order to get a proper separation of the germs. It will be seen that all fresh water (very light starch liquor or starch milk, so-called, might be used) enters the separator system through pipe 7 and passes to separator C from reel I through pipe 21. Since fresh water entering at pipe 7 is the only water entering the separator system, it is obvious that the control of gravity at separator G will be controlled by the amount of water entering through pipe 7. The amount of water which can be used from pipe 7 being limited, it is important that this water he used to the best advantage in reels I, J and K.
- the material dischar ed from reel K after being ground in mill passes through pipe 23 to the first of a series ofcoarse reels, for example, N, O, P and Q, where it is subjected to a wet separation to remove the coarse bran and fibres from the starch.
- the tailings from reel Q pass by conveyor 24 to moisture expeller R and therefrom, as customary, to feed dryers (notshown).
- the material while passing through reels N, O, P and Q is washed by fresh water entering reel Q through pipe 25 then passing in succession to reels P, O and N by pipes 26, 27 and 28,
- starch liquor leaving reel N through pipe 29 contains practically all the starch and fine fibre from the material leaving mill M.
- Starch liquor from pipe 29 containing the fine fibres is delivered to the first of a series of fine reels, for example, S, T, U and V, the tailings from V passing by conveyor 30 to filter press W to remove surplus water and being then delivered, as customary, to feed driers (not shown).
- Fresh water enters reel V through pipe 31 and Washes the fine fibres therein, thence passing to reels U and T in succession by pipes 32 and 33, respectively, constituting a counter-current washing system.
- the relatively light starch liquor from reel T passes by pipe 34 to breaker X, under filter press L where it dilutes the starch cake discharged from press L to a specific gravity suitable for tabling.
- This starch liquor mixes with the relatively heavy starch liquor discharged by reel S through pipe 35 and the mixture of the two constitutes starch liquor going to the tables.
- the pipe 12 is provided with a branch pipe 36 for returning part of the liquor from the reels G and H to the germ separator in quantities variable by adjustment of valves 37 and 38.
- starch from corn which comprises cracking the corn, separating thegerm from the starch bearing constituent, grinding the latter and separating the bran from the starch, an improvement consisting in washing the germ and said starch bearing constituent separately, withdrawing from the material thus treated the starch milk resulting from said washings with substantially all the residual solubles of the corn therein and filtering this starch liqnor to separate the starch therefrom.
- Improved method of manufacturing starch from corn which comprises steeping the grain, cracking the steeped grain, separating the germs from the starch bearing material by flotation in starch-liquor, washing the germs and the starch bearing material separately, filtering the surplus starch liquor obtained from the germ separator and said washing operations and utilizing the filtrate thus obtained for the steeping of subsequently treated grain.
- Improved method of manufacturing starch from corn which comprises steeping thegr'a'in, cracking the steeped grain, separating the germs from the starch bearing material by flotation in starch liquor, washing the germs and the starch bearing material separately in a series of washing stage in which washing liquid is supplied to the Vmaterial at the last stage and in which the liquor withdrawn from the several stages is used in precedent stages, including the germ separation, filtering the surplus starch liquor from the germ separation and utilizing the filtrate thus obtained for the steeping of subsequently treated grain.
- Improved method of manufacturing starch from corn which comprises steeping the grain, cracking the steeped grain,separating the germs from the starch bearing material by flotation in starch liquor, washmg the germs and the starch bearing material separately in series of washing stages in which washing liquid is applied to the material at the last stage and in which the liquor withdrawn from the several stages is used in precedent stages, including the germ separation, and filtering the surplus starch liquor from germ separation to remove starch therefrom.
- Improved process of manufacturing starch from corn which comprises separatmg the germs from the starch bearing materlal, grinding the latter, separating with Water the larger non-starch particles from the ground material in a series of successive stages in which washing liquid is supplied to the last stage and in which the liquor withdrawn from the several stages is utilized at precedent stages, subjecting the surplus starch liquor withdrawn from the germ separation to a filter pressing operation to separate the starch from the liquid and corn solubles, and subjecting the disintegrated corn to a second separation in water in which fresh water is added at the last stage and the liquor withdrawn from the several stages is utilized at precedent stages.
- Improved process of manufacturing starch from corn which comprises disintegrating the corn, making a separation between the germ and the starch bearing material, withdrawing the bulk of the water from the starch bearing material together with substantially all of the residual solubles of the corn and recovering said solubles, and completing the separation of the starch from the disintegrated corn by the use of successive washings in water added to the material to compensate for that withdrawn.
- Improved process of manufacturing starch from corn which consists in steeping the corn, disintegrating it, separating the germs, washing the starch bearing material, returning washings to the germ separator, filtering the surplus starch liquor from the germ separation and removing the filtrate with substantially all the residual solubles of the corn, grinding the starch bearing material, adding fresh water to the starch bearing material, separating the residual starch from the starch bearing material and mixing the resultant starch liquor with the starch from the filtering operation.
- Improved process of manufacturing starch from corn which consists in steeping the corn, disintegrating it, separating the germs, washing the starch bearing material, returning the resultant starch liquor to the germ separator, filtering the resultant starch liquor and removing the filtrate with substantially all the residual solubles of the corn, grinding the starch bearing material, add- 1ng fresh water to the starch bearing material, separating the residual starch from the starch bearing material, mixing the resultant starch liquor with the starch from the filtering operation, and utilizing the liquid obtained from the filtering operation for the subsequent steeping of grain.
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- Chemical & Material Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Biochemistry (AREA)
- Materials Engineering (AREA)
- Health & Medical Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Medicinal Chemistry (AREA)
- Polymers & Plastics (AREA)
- Organic Chemistry (AREA)
- Polysaccharides And Polysaccharide Derivatives (AREA)
Description
R. F. SHERMAN March 1933- MANUFACTURE OF STARCH 7 Original Filed 550. '22", 1923 Reissued Mar. 28, 1933 UNITED STATES p Re.
ROBERT F. SHERMAN, OF PEKIN, ILLINOIS, ASSIGNOR TO CORN PERODUCTS REFINING COMPANY, OF NEW YORK, N. Y., A CORPORATION OF NEW JEFSEY MANUFACTURE OF STARCH Original No. 1,554,301, dated September 22, 1925, Serial No. 682,516, filed December 24, 1923. Application for reissue filed September 30, 1932. Serial No. 635,639.
My invention relates to the manufacture of starch from corn, and one of the principal objects of the invention is to increase the amount of soluble substances in the corn recovered during the process of manufacturing and refining the starch by subjecting the soluble bearing material to certain operations to be hereinafter described.
A further object is to utilize the fresh water introduced into the process in a manner to be most efl'ective' for producing a thorough and complete separation of the starch from the other ingredients of the corn.
A further object is to eliminate, partially or wholly, the necessity of re-tabling the starch, by removing the residual solubles contained in the grain after steeping before the starch is tabled. The re-tabling operation is performed primarily for the' purpose of removin solubles. It is an expensive operation, t e cost of labor, apparatus and upkeep of apparatus being relatively high. Moreover, the solubles eliminated by tabling are lost as the wash liquor contains so small a percentage of these substances in proportion -moved during certain operations preceding tabling and in such manner as makes their recovery feasible.
A further object is to remove the major part of solubles in starch previous to tabling so that if the starch is subsequently flushed from tables and filtered the filtered starch will be freer from solubles than at present, and if in addition this starch is'washed while filtering, a starch is obtained having a much less soluble content than at present.
The annexed drawing shows diagrammatically an apparatus suitable for carrying out the process of this invention. Diagrammatic representation of this apparatus is suflicient as the various instrumentalities are all of familiar construction. In practice, for example, each unit shown singly in the drawing will ordinarily consist of a number of like instrumentalities arranged in series or in parallel such as tanks, mills, separators, or
other devices as the case may be.
Referring to the drawing, A represents the steep tank in which the whole grain is steeped in the usual manner. Acidified water is supplied to the tank through pipe 1 and the steep liquor is drawn off through pipe 2. B is a mill for cracking the steeped grain, the grain being moved to the mill by conveyor 3, and C is a germ separator to which the cracked material is delivered by conveyor 4 from which the germs are floated off and in which the cracked corn settles. The germs pass by a conveyor 5 to a reel or other separating device D, the starch liquor from which is returned to the germ separator through pipe 6, according to the usual practice. The germs from the reel D are then discharged into one or more reels, for example, reels E and F in succession and from reel F to a moisture exeller and then to a germ drier, as customary.
he reel .F receives fresh water or other suitable washing liquid through pipe 7 which washes the germs therein and which then passes to reel E by pipe 8, thus constituting a counter-current washing system. From reel E the light starch liquor passes by pipe 9 to reel K hereinafter described. The starch liquor and cracked corn delivered from the separator C through pipe 10 are subjected to a reeling or other'separating treatment to remove the starch liquor containing loose starch particles from the cracked corn. This may be done by passing the material through a coarse mesh reel G and the starch liquor from G through a fine mesh reel H, the starch liquor passing from reel G to reel H-by pipe 11. The tailings from these reels will contain a certain quantity of soluble substances which areremoved therefrom as hereinafter from reel H instead of being sent directly to the starch tables, in accordance with former practice, is subjected to a separating operation for removing from the starch the bulk of the water and therewith'most of the solubles. For example, the surplus starch liquor not returned-to the germ separator may be run through'pipc 12 and filter pressed in the press L, which may be of any desired type. i The starch from the press, which is in a solid state but moist, isthen diluted and run through pipe 13 to the starch tables (not shown). The starch liguor used for diluting the starch from the lter press is a light liquor relatively free from solubles, derived from the washing of the tailings in reel T, as will be hereinafter described. The filtrate from the press L, which will be relatively high in solubles, is returnedto the steep A through pipe 14.
The tailings from reels G and H pass through pipes 15 to one or more reels or other washing devices. Three of these reels are shown, being designated I, J, and K. The tailings from I go to J and those from J to K. The tailings from K are moved by conveyor 16 to the buhr mill M. Reel K receives light starch liquor from pipe 9 as previously described which washes the material therein, the bulk of starch liquor passing through reel K passes to reel J by pipe 17, however, a portion is returned to reel K through pipe 18 constituting a washing cycle which is desirable in order that material entering reel K may be of proper consistency. This washing operation is repeated in reel J, the bulk of the starch liquor passing to reel I by pipe 19 a part returning to reel J by pipe 20. The washing operation is again repeated in reel I the bulk of the starch liquor, which now contains practically all of the soluble matter contained in the cracked corn from reels G and H, returns to separator C by pipe 21, a portion returning to reel I by pipe 22. By this method of counter-current washing in reels I, J and K the cracked corn discharged from.
reel K is practically free from solubles. It is important that the specific gravit of the starch liquor in germ separator C e maintained within narrow limits in order to get a proper separation of the germs. It will be seen that all fresh water (very light starch liquor or starch milk, so-called, might be used) enters the separator system through pipe 7 and passes to separator C from reel I through pipe 21. Since fresh water entering at pipe 7 is the only water entering the separator system, it is obvious that the control of gravity at separator G will be controlled by the amount of water entering through pipe 7. The amount of water which can be used from pipe 7 being limited, it is important that this water he used to the best advantage in reels I, J and K.
The material dischar ed from reel K after being ground in mill passes through pipe 23 to the first of a series ofcoarse reels, for example, N, O, P and Q, where it is subjected to a wet separation to remove the coarse bran and fibres from the starch. The tailings from reel Q pass by conveyor 24 to moisture expeller R and therefrom, as customary, to feed dryers (notshown). The material while passing through reels N, O, P and Q is washed by fresh water entering reel Q through pipe 25 then passing in succession to reels P, O and N by pipes 26, 27 and 28,
respectively.- By this means the starch liquor leaving reel N through pipe 29 contains practically all the starch and fine fibre from the material leaving mill M. This constitutes a counter-current washing operation. Starch liquor from pipe 29 containing the fine fibres is delivered to the first of a series of fine reels, for example, S, T, U and V, the tailings from V passing by conveyor 30 to filter press W to remove surplus water and being then delivered, as customary, to feed driers (not shown). Fresh water enters reel V through pipe 31 and Washes the fine fibres therein, thence passing to reels U and T in succession by pipes 32 and 33, respectively, constituting a counter-current washing system. As hereinabove described, the relatively light starch liquor from reel T passes by pipe 34 to breaker X, under filter press L where it dilutes the starch cake discharged from press L to a specific gravity suitable for tabling. This starch liquor mixes with the relatively heavy starch liquor discharged by reel S through pipe 35 and the mixture of the two constitutes starch liquor going to the tables.
The pipe 12 is provided with a branch pipe 36 for returning part of the liquor from the reels G and H to the germ separator in quantities variable by adjustment of valves 37 and 38.
It will be understood by those skilled in the art that shakers or other suitable separating devices might be used in place of the elements which have been referred to as reels. The term conveyor is used in the above description to mean any suitable means for moving the material from place to place. It will be understood that the connecting pipes will ordinarily be provided with valves to control the flow of liquid therethrough; also that suitable pumps are employed when necessary. In fact, the instrumentalities described for carrying out the operations referred to are not essential parts of my invention which considered as a method is not in any sense limited to the particular devices and apparatus shown and specified.
By subjecting the steeped corn to the treatment described, the yield of soluble substances is considerabl increased. A large proportion of the soluble substances remaining in the corn after the steep Water has been drained therefrom will be found in the filtrate pressed from the starch liquor in filter press L. These solubles are returned to the steep tank A so that the liquor drained from the steep tank, after each steeping operation, will have a higher degree of concentration or a larger volume of liquor can be drawn oif at the same concentration than customary heretofore, that is to say, a larger percentage of the solubles of the grain will be eventually saved (by evaporation of the steep liquor, for example, as is customary) than is the case where fresh water (aeidulated of course) is used for stee ing, as has been the practice heretofore. urthermore, the separation of water by filter pressL and withdr-awal of the same from the system at this point through pipe 14 permits an equal additional volume of water to be used, per bushel of corn, in the subseqlulent washing operation taking place in reels O, P, Q, S, T, and V, and hence a more thorough separatlon of the starch from the fibre constitutents of the grain. The amount of water introduced into the process through pipes 25 and 31 will be determined by the specific gravity of the starch liquor going to the tables, which, as a matter of practice should not be varied to any considerable extent. As the starch which goes to the starch tables is relatively free from soluble substances it will ordinarily not be necessary, in order to obtain a refined starch from the tables, to re-table or wash on filters as heretofore has been frequently necessary, or if the practice of re-tabling or washing on filters be continued in connection with the process of my invention, a better grade of starch will be obtained than is possible by present practice.
I claim:
1. In the process of manufacturing starch from corn which comprises disintegrating the corn and making a separation in water of the'starch therein from the nonstarch constituents, an improvement consisting in withdrawing from the disintegrated corn subjected to the aforesaid separation the bulk of the water employed in making such separation together with substantially all the residual solubles of the corn in solution therewith, reusing in the process substantially all of the soluble containing water so withdrawn and recovering the solubles therein.
2. In-the process of manufacturing starch from corn which comprises disintegrating the corn and making a separation in water of the starch therein from the nonstarch constituents, an improvement consisting in withdrawing from the disintegrating corn when said separation is partially performed the bulk of the water employed in making said separation, together with substantially all the residualsolubles of the corn in solution therewith,'reusing in the process substantially all of said soluble containing water so withdrawn and recovering the solubles therein, and thereafter adding water to the material to complete said separation.
3. In the process of manufacturing starch from corn which comprises disintegrating the corn and making a separation in water of the starch therein from the nonstarch constituents, an improvement consisting in first separating from the disintegrated corn under treatment a starch liquor containing the bulk of the water used, residual solubles of the corn and starch, then filtering .this starch liquor to remove the starch and withdrawing the filtrate, containing subtsantially all the residual solubles of the corn, from the separating operation.
4. In the process of manufacturing starch from corn which comprises disintegrating the corn and making a separation in water of the starch therein from the nonstarch constituents, an improvement consisting in removing from the disintegrated corn when said separation is partially performed, a starch liquor containing the bulk of the water used, residual solubles of the corn and starch, filtering this starch liquor to remove the starch and withdrawing the filtrate with substantially all the residual solubles of the corn from the separating operation, then adding water to the remaining unseparated starch bearing materials, and effecting the separation of the starch therefrom.
5. In the process of manufacturing starch from corn which comprises cracking the corn, separating thegerm from the starch bearing constituent, grinding the latter and separating the bran from the starch, an improvement consisting in washing the germ and said starch bearing constituent separately, withdrawing from the material thus treated the starch milk resulting from said washings with substantially all the residual solubles of the corn therein and filtering this starch liqnor to separate the starch therefrom.
6. In the process of manufacturing starch from corn which comprises cracking the corn, separating the germ from the starch bearing constituent, grinding the latter and separat: ing the bran from the starch, an improvement consisting in' washing the germ and said starch bearing constituent separately, withdrawing from the material thus treated the starch milk resulting from said washings with substantially all the residual solubles of the corn therein and filtering this starch liquor to separate the starch therefrom, and adding water to the ground -starch.bearing material to compensate for the water withdrawn as aforesaid.
7. In the process of manufacturing starch from corn which comprises steeping the corn,
then disintegrating it and making a separation in water of the starch therein from the other constituents thereof, an improvement consisting in removing from the disintegrated corn as a part of said separating operation substantially all of the solubles remaining in the corn after the steeping operation and recovering said solubles.
8. In the process of manufacturing starch from corn which comprises steeping the corn, then disintegrating it and making a separation in water of the starch therein from the other constituents thereof, an improvement consisting in removing from the disintegrated corn subjected to the aforesaid separa-., tion the bulk of the Water used in said separa! tion, with residual solubles of the corn in solution therewith, and for said steeping operation utilizing the water withdrawn from a previous separating operation as just described.
9. In the process of manufacturing starch from corn which comprises steeping the corn, then disintegrating it and making a separa tion in water of the starch therein from the other consituents thereof, an improvement consisting in removing from the material subjected to the aforesaid separation a starch liquor containing the bulk of the water used in said separation, starch and residual solubles of the corn, filtering this starch liquor to remove the starch therefrom and for said steeping operation utilizing the filtrate obtained from a previous separating operation as just described.
10. In the process of manufacturing starch from corn which comprises steeping the corn, then disintegrating it and making a separation in water of the starch therein from the other constituents thereof, an improvement consisting in removing from the disintegrated corn when said separation is partially performed the bulk of the. water used with residual solubles of the corn in solution therewith, and for said steepin operation utilizing the liquid withdrawn rom a previous separating operation, as just described, adding water to the residue of the starch bearing material undergoing separation, and completing the separation of the starch therefrom.
11. In the process of manufacturing starch from corn which comprises steeping the corn, then disintegrating it and making a separation in water of the starch therein from the other constituents thereof, an improvement consisting in removing from the disintegrated corn when said separation is partially performed a starch liquor containing the bulk of the water used, starch and residual solubles of the corn, filtering the starch liquor to remove the starch therefrom and for said steeping operation utilizing the filtrate thus obtained from a previous separating operation as just described, adding water to the residue of the starch bearing material, and completing the separation of the starch therefrom.
12. Improved method of manufacturing starch from corn which comprises steeping the grain, cracking the steeped grain, separating the germs from the starch bearing material by flotation in starch-liquor, washing the germs and the starch bearing material separately, filtering the surplus starch liquor obtained from the germ separator and said washing operations and utilizing the filtrate thus obtained for the steeping of subsequently treated grain.
13; Improved method of manufacturing starch from corn which comprises steeping thegr'a'in, cracking the steeped grain, separating the germs from the starch bearing material by flotation in starch liquor, washing the germs and the starch bearing material separately in a series of washing stage in which washing liquid is supplied to the Vmaterial at the last stage and in which the liquor withdrawn from the several stages is used in precedent stages, including the germ separation, filtering the surplus starch liquor from the germ separation and utilizing the filtrate thus obtained for the steeping of subsequently treated grain.
14. Improved method of manufacturing starch from corn which comprises steeping the grain, cracking the steeped grain,separating the germs from the starch bearing material by flotation in starch liquor, washmg the germs and the starch bearing material separately in series of washing stages in which washing liquid is applied to the material at the last stage and in which the liquor withdrawn from the several stages is used in precedent stages, including the germ separation, and filtering the surplus starch liquor from germ separation to remove starch therefrom.
15. Improved process of manufacturing starch from corn which comprises separatmg the germs from the starch bearing materlal, grinding the latter, separating with Water the larger non-starch particles from the ground material in a series of successive stages in which washing liquid is supplied to the last stage and in which the liquor withdrawn from the several stages is utilized at precedent stages, subjecting the surplus starch liquor withdrawn from the germ separation to a filter pressing operation to separate the starch from the liquid and corn solubles, and subjecting the disintegrated corn to a second separation in water in which fresh water is added at the last stage and the liquor withdrawn from the several stages is utilized at precedent stages.
16. In the process of manufacturing starch from corn which comprises disintegrating the corn and making a separation in water of the starch therein from the nonstarch constituents, an improvement consisting in elimmating from the disintegrated corn undergoing separation, while said separation pro coeds, substantially all of the residual corn solubles which such material contains and recovering said solubles.
17. Improved process of manufacturing starch from corn which comprises disintegrating the corn, making a separation between the germ and the starch bearing material, withdrawing the bulk of the water from the starch bearing material together with substantially all of the residual solubles of the corn and recovering said solubles, and completing the separation of the starch from the disintegrated corn by the use of successive washings in water added to the material to compensate for that withdrawn.
18. Improved process of manufacturing starch from corn which consists in steeping the corn, disintegrating it, separating the germs, washing the starch bearing material, returning washings to the germ separator, filtering the surplus starch liquor from the germ separation and removing the filtrate with substantially all the residual solubles of the corn, grinding the starch bearing material, adding fresh water to the starch bearing material, separating the residual starch from the starch bearing material and mixing the resultant starch liquor with the starch from the filtering operation.
19,. Improved process of manufacturing starch from corn which consists in steeping the corn, disintegrating it, separating the germs, washing the starch bearing material, returning the resultant starch liquor to the germ separator, filtering the resultant starch liquor and removing the filtrate with substantially all the residual solubles of the corn, grinding the starch bearing material, add- 1ng fresh water to the starch bearing material, separating the residual starch from the starch bearing material, mixing the resultant starch liquor with the starch from the filtering operation, and utilizing the liquid obtained from the filtering operation for the subsequent steeping of grain.
20. In the process of manufacturing starch from corn which comprises steeping the corn, disintegrating it, and making a separation in water of the starch in said disintegrated corn from the other constituents thereof, an improvement consisting in removing from the material subjected to said separating operation the bulk of the water used therein with the residual solubles of the corn in solution therewith, and for said steeping operation, utilizing all of the water so withdrawn from a previous separating operation, and evaporating the steep liquor to recover the solubles therein.
21. In the process of manufacturing starch from corn which comprises steeping the corn, disintegrating it and making a separation in water of the starch in said disintegrated corn from the other constituents thereof, an improvement consisting in removing from the material subjected to said separating operation, for re-use in the process, the bulk of the vwater used therein with the residual solubles of the corn in solution therewith, and, for said steeping operation, utilizing water so withdrawn from a previous separating operation, and evaporating the steep liquor to recover the solubles therein.
22. In the process of manufacturing starch from corn which comprises steeping the corn, disintegrating it and making a separation in water-of the starch in said disintegrated corn from' "the other constituents thereof, an imwater used therein withthe residual solubles of the corn in solution therewith, and, for
said steeping operation, utilizing water so withdrawn from a previous separating operation, evaporating the steep liquor to recover the solubles therein, and treating the solid material with Water to complete said separation.
23. In the process of manufacturing'starch from corn which comprises steeping the corn, disintegrating it and making a separation in water of the starch in said disintegrated corn from the non-starch constituents, an improvement consisting in withdrawin from the material subjected to the aforesai separation a starch liquor containing the bulk of the water employed in making such separation starch and residual solubles of the corn, filtering starch liquor from this source and reusing the filtrate on subsequently treated corn.
24; In the process of manufacturing starch from corn which comprises steeping the corn, disintegrating it and making a separation in water of the starch in said disintegrated corn from the non-starch constituents, an
improvement consisting in withdrawing from the materialsubjected to the aforesaid separation a starch liquor containing the bulk of the water employed in making such separation starch and res1dual solubles of the corn, eliminating water from starch liquor from this source and reusing such water on subsequently treated corn.
ROBERT F. SHERMAN.
CERTIFICATE OF CORRECTION.
Reissue No. 18.775 March 28 1933.
ROBERT F. SHERMAN.
it is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page 3, line 46, claim 2, for "disintegrating" read disintegrated; page 4, line'69, claim 13; for "stage" read stages; and that the said Letters Patent should be read with these corrections therein that the same may conform to the record of the ease in the Patent Office.
Signed and sealed this 24th day of July, A. D. 1934.
Bryan M. Battey v(Seal) Acting Commissioner of Patents.
Publications (1)
Publication Number | Publication Date |
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USRE18775E true USRE18775E (en) | 1933-03-28 |
Family
ID=2082355
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US18775D Expired USRE18775E (en) | Manufacture of starch |
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US (1) | USRE18775E (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2494544A (en) * | 1944-08-01 | 1950-01-17 | Wisconsin Malting Company | Grain preparation |
US6179926B1 (en) | 1999-04-12 | 2001-01-30 | Corn Products International, Inc. | Process for steeping corn and steepwater having a low reducing sugar content made therefrom |
-
0
- US US18775D patent/USRE18775E/en not_active Expired
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2494544A (en) * | 1944-08-01 | 1950-01-17 | Wisconsin Malting Company | Grain preparation |
US6179926B1 (en) | 1999-04-12 | 2001-01-30 | Corn Products International, Inc. | Process for steeping corn and steepwater having a low reducing sugar content made therefrom |
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