US1309999A - Process of recovering wax from sugar-cane - Google Patents

Process of recovering wax from sugar-cane Download PDF

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US1309999A
US1309999A US1309999DA US1309999A US 1309999 A US1309999 A US 1309999A US 1309999D A US1309999D A US 1309999DA US 1309999 A US1309999 A US 1309999A
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cane
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sugar
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    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11BPRODUCING, e.g. BY PRESSING RAW MATERIALS OR BY EXTRACTION FROM WASTE MATERIALS, REFINING OR PRESERVING FATS, FATTY SUBSTANCES, e.g. LANOLIN, FATTY OILS OR WAXES; ESSENTIAL OILS; PERFUMES
    • C11B1/00Production of fats or fatty oils from raw materials
    • C11B1/12Production of fats or fatty oils from raw materials by melting out
    • C11B1/16Production of fats or fatty oils from raw materials by melting out with steam

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  • the present invention relates, generally, to an improved method or process of recovering wax from sugar cane; and the invention has reference, more particularly, to a novel method of treatment or succession of process steps which may be employed incidental to the general well-known methods of manufacturing sugar from sugar cane, whereby a profitable by-product, in the form of a vegetable wax, may be cheaply and efficiently obtained.
  • the sugar cane after being chopped down, topped and stripped of leaves, is cut into three or four foot lengths, and made up into bundles. This work being done by hand in the fields.
  • the bundles of cane are then conveyed to the factory, and usually loaded upon a conveyer or conductor which elevates the cane to the chute through which it is fed to the crusher rolls.
  • the cane In modern milling practice, the cane is so thoroughly crushed that the trash or bagasse remaining is almost pure cellulose and water, everything else present, including the cane wax, having been expressed into the mill juice.
  • the cane juice After leaving the mills the cane juice is limed or otherwise chemically treated, and then heated in various forms of apparati to 212 degrees to 220 degrees Fahrenheit, and is then allowed to Settle in large, relatively shallow, vats, known as defectors.
  • the settling process as carried on in the defectors, re sults in a more or less complete separation of the so-called impurities from the cane juice, part of said impurities rising to the surface of the juice in the form of a scum blanket, and the balance gravitating to the bottom of the defector in the form of sludge or mud.
  • the relatively clear juice is decanted or drawn off, and the scum and sludge collected and passed through a filter press, whereby any remaining sugar juice or liquor is expressed therefrom, leaving a more or less solid cake of matter; known as .a press-cake.
  • This press-cake contains the bulk of the organic substances and impurities that accompany the sugar cane from the fields into the mill, among which substances will be found the above described sugar cane Wax. It is, therefore, from the press-cake that it has been heretofore attempted to recover said sugar cane wax, the process of recovery used being to leach the press-cake with benzene to separate the wax therefrom.
  • Such process is not entirely satisfactory, and does not assure a substantially complete recovery of the wax, and, furthermore requires the carrying of the wax, with other impurities, into the sugar cane juice, which is: not satisfactory.
  • the melting point of sugar cane wax is approximately one hundred and eighty degrees Fahrenheit; therefore, if suflicient heat is suitably applied at a temperature above one hundred and eighty degrees Fahrenheit, but-below a temperature at which either the wax or sugar juice will be injured, the wax will that not only do I recover greater quantities of the wax than is possible to recover by any other process, but incidentally I aid the main process of sugar extraction by removing at the very start one of the cane impurities which gives, more orless trouble during such main process.
  • the main my novel process consists in the melting of the wax from the exterior of the cane stalks by means of a bath of hot water, through which the cane stalks are passed, before the same are delivered to crushing and macerating mills, then removing the wax from said hot water, and then delivering the hot water previously utilized as a bath to the macerating mills to carry to the sugar juice expressed by said mills any sugar leached from the cane stalks incidental to their passage through the hot water bath.
  • my novel process consists, more in detail, in conveying the cane stalks from the fields in wagons 'orcars-l to the sugar factory, and then dumping said cane stalks from the wagons or cars 1 into the receiving end of atank 2.
  • Said tank2 is continuously supplied with hot water at proper tempera-v ture through a suitable supply pipe 3.
  • Said tank 2 is provided with a submerged conveyer mechanism 4, running lengthwise therethrough, adapted to convey the cane stalks from the receiving end of the tank through thesame to the discharge end thereof.
  • the speed of the conveyer mechanism 4 shall be so regulated, that the travel thereof from end to end of the tank will allow sufficient time to permit theheat of the hot water to effectively attack and melt off or remove the wax from the surfaces of the cane stalks.
  • Spaced above the submerged conveyer mechanism 4- is an endless apron or other suitableguard mechanisu'i 5, whereby the cane stalks, as they are carried through the tank 2, are maintained submerged within or immersed beneath the surf-ace of the hot water with which thetank is filled.
  • a suitable means for agitating the hot water content of the tank 2 should be provided, whereby the movement of the hot water against the surfaces of the cane stalks will more readily wash off the melted wax from its adhering relation to the stalks.
  • Such means may consist of a suitable arrangement of mechanically rotated paddles or agitators 6.
  • the conveyer mechanism 4 should be of a suitably open construction,
  • hot water may be also directly applied to the cane stalks as a vigorous spray or wash as the canestalks are dumped from the cars 1 into the tank 2, a suitable spraying mechanism 7 being provided for this purpose.
  • Such spray or wash will more quickly dislodge the more orless loosely clinging soil, clay, dirt or grit from the cane stalks, so that as the same become finally submerged in the water content of the tank, an immediate and direct attack of the water upon the wax films of the cane stalks can occur.
  • the water in the tank 2 should be constantly maintained in properly heated condition, either by means of submerged steam coils, or by means of steam directly vented into such water content, so that a temperature approximating two hundred and twelve degrees Fahrenheit is attained and maintained.
  • a suitable elevator conveyer 8 which receiving the cane stalks from thesubmerged conveyer mechanism 4, will remove the same from the tank, and convey the same to the sugar mill apparatus, comprising the crusher rolls 9, and the train of macerating mills 10, 11 and 12.
  • the apron or guard 5 must be of open structure to permit the wax to rise therethrough.
  • the film of wax may be removed from the surface of the water content of the tank 2 by mechanical skimming devices, or otherwise, but I prefer to remove the same by overflowing the tank 2 into a separator mechanism in the nature of a battery of grease traps, since the overflowing water is valuable for three reasons, to wit;
  • Means for maintaining the water, flo wing through the traps, at a proper heat must, be provided, so that the temperature of ⁇ the water does not fall much below twohundred degrees Fahrenheit, whereby the tax is maintained in a free state of flux.
  • the wax discharged from the traps 14', 15 and 16 may be'collected in any suitable way, and preferably finally settled in a suitable receptacle 17.
  • This water is denominated inhibition or maceration water, and is applied to the cane or bagasse between the succession steps" of the multiple grindings to which the latter is subjected, in order to dilute the 111106 in the cells of the cane stalks as these cells are ruptured, and free the sugar which is not entirely expressed by the grinding action.
  • My process fits in admirably with this practice, since the hot water required for this purpose, may be supplied from the discharge of the wax traps or separators,
  • a process of recovering wax from sugar cane consisting in submerging the cane stalks in a tank of hot water at a temperature sufiicient to melt the wax from the surfaces of the cane stalks, agitating the hot water in the tank around the cane stalks, allowing the wax liberated from the cane stalks to collect on the surface of the water- "separating means for removing the wax from the water.
  • a process of recovering wax from sugar cane consisting of flowing hot water at .a temperature sufficient to melt the wax from the surfaces of the cane stalks through a tank, propelling cane stalks through said tank and submerged in the hot water flowing therethrough, allowing the wax liberated by the hot water to collect as a film on the surface of the hot water, overflowing said tank from its water surface level to carry off the water and the collected film of wax, delivering said overflow of water and wax to separating means for removing the wax from the water, discharging the wax freed cane stalks from said tank and conveying the same to cane crushing and macerating mills, and then delivering the hot water flowing from said separator means to said cane macerating mills.
  • a continuous process of recovering wax from sugar cane consistin of flowing hot water at a temperature su cient to melt the wax from the surfaces of the cane stalks through a tank, delivering cane stalks into one end of said tank, propelling cane stalks through said tank and submerged in the hot water flowing therethrough, agitating the hot water in contact with said cane stalks, allowing the wax liberated by the hot water to collect as a film on the surface of the hot water, removing the cane stalks from the opposite end of said tank, overflowing said tank from its Water level surface to carry off the water and the collected film of wax, and then delivering said overflow of water and wax to separating means for removing the wax from the water.
  • a process. of recovering wax from sugar cane consisting of flowing hot water at a temperature suflicient to melt the wax from the surfaces of the cane stalks through said tank, propelling cane stalks through said tank and submerged in the hot water flowing therethrough, agitating the hot water in contact with said cane stalks, allowing the wax liberated by the hot water to collect as a film on the surface of the hot water, overflowing said tank from its water surface level to carry off the water and the collected film of wax, delivering said overflow ofwater and wax to separating means for removing the wax from the water, discharging the wax freed cane stalks from said tank and conveying the same to cane crushing and macerating mills, and then delivering the hot water flowing from said separating means to said cane macerating mills.

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  • Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Wood Science & Technology (AREA)
  • Organic Chemistry (AREA)
  • Fats And Perfumes (AREA)

Description

R. U. BUNKER.
PROCESS OF RECOVERING WAX FROM SUGAR CANE.
APPLICATION FILED FEB. 27, 19W.
Patented July 15, 1919.
@JQL
A TTORNEYS I E STATES ATENT FFICE.
RAYMOND U. BUNKER, OF YONKERS, NEW YORK.
Specification of Letters Patent.
Patented July 15, 1919.
Application filed February 27, 1919. Serial No. 279,646.
To all whom. it may concern: 1
Be it known that I, RAYMOND U. BUNKER,
a citizen of the United States, residing at Yonkers, in the county of Westchester and State of New York, have invented certain new and useful Improvements in Processes of Recovering Wax from Sugar-Cane; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as Will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, and to characters of reference marked thereon, which form a part of this specification.
The present invention relates, generally, to an improved method or process of recovering wax from sugar cane; and the invention has reference, more particularly, to a novel method of treatment or succession of process steps which may be employed incidental to the general well-known methods of manufacturing sugar from sugar cane, whereby a profitable by-product, in the form of a vegetable wax, may be cheaply and efficiently obtained.
It is a Well-known fact that a free wax is present, to a more or less degree, in all varieties of sugar cane. This wax does not form in the interior structure of the sugar cane stalk, nor in combination with the gums, sap or juices of the sugar cane, but
, does occur as an excretion on the outer surface of the stalk, extending in the form of a thin film of varying thickness over almost the entire exterior of the stalk, but more especially in the vicinity of the nodes or joints of the mature stalk. The wax so distributed may be mechanically separated from the stalk by scraping the same away with a sharp instrument, such as a knifeblade, but, of course, such method of separation, for commercial purposes, is impractical.
Heretofore some attempts have been made to recover this sugar cane wax from the waste products of the cane after all possible sugar has been extracted. Such attempts at wax recovery will be best understood from the following brief description.
The sugar cane, after being chopped down, topped and stripped of leaves, is cut into three or four foot lengths, and made up into bundles. This work being done by hand in the fields. The bundles of cane are then conveyed to the factory, and usually loaded upon a conveyer or conductor which elevates the cane to the chute through which it is fed to the crusher rolls. In modern milling practice, the cane is so thoroughly crushed that the trash or bagasse remaining is almost pure cellulose and water, everything else present, including the cane wax, having been expressed into the mill juice. After leaving the mills the cane juice is limed or otherwise chemically treated, and then heated in various forms of apparati to 212 degrees to 220 degrees Fahrenheit, and is then allowed to Settle in large, relatively shallow, vats, known as defectors. The settling process, as carried on in the defectors, re sults in a more or less complete separation of the so-called impurities from the cane juice, part of said impurities rising to the surface of the juice in the form of a scum blanket, and the balance gravitating to the bottom of the defector in the form of sludge or mud. After a reasonable time has been allowed for the accomplishment of the separation of impurities from the juice, in the manner above stated, the relatively clear juice is decanted or drawn off, and the scum and sludge collected and passed through a filter press, whereby any remaining sugar juice or liquor is expressed therefrom, leaving a more or less solid cake of matter; known as .a press-cake. This press-cake contains the bulk of the organic substances and impurities that accompany the sugar cane from the fields into the mill, among which substances will be found the above described sugar cane Wax. It is, therefore, from the press-cake that it has been heretofore attempted to recover said sugar cane wax, the process of recovery used being to leach the press-cake with benzene to separate the wax therefrom. Such process, however, is not entirely satisfactory, and does not assure a substantially complete recovery of the wax, and, furthermore requires the carrying of the wax, with other impurities, into the sugar cane juice, which is: not satisfactory.
I have discovered that the melting point of sugar cane wax is approximately one hundred and eighty degrees Fahrenheit; therefore, if suflicient heat is suitably applied at a temperature above one hundred and eighty degrees Fahrenheit, but-below a temperature at which either the wax or sugar juice will be injured, the wax will that not only do I recover greater quantities of the wax than is possible to recover by any other process, but incidentally I aid the main process of sugar extraction by removing at the very start one of the cane impurities which gives, more orless trouble during such main process.
Referring to the accompanying drawing, I have illustrated therein, in a graphic or diagrammatic form, an arrangement of apparatus which will efliciently serve to'carry on the several steps of my novel method or process. I do not wish to be understood, however, as confining myself to the specific forms or arrangements of such apparatus, since I aim to cover by Letters-Patent the combinations and succession of process steps involved, regardless of the particular mechanical aids by which said steps may be carried on.
In the main my novel process consists in the melting of the wax from the exterior of the cane stalks by means of a bath of hot water, through which the cane stalks are passed, before the same are delivered to crushing and macerating mills, then removing the wax from said hot water, and then delivering the hot water previously utilized as a bath to the macerating mills to carry to the sugar juice expressed by said mills any sugar leached from the cane stalks incidental to their passage through the hot water bath.
Having reference again to the accompanying drawing, my novel process consists, more in detail, in conveying the cane stalks from the fields in wagons 'orcars-l to the sugar factory, and then dumping said cane stalks from the wagons or cars 1 into the receiving end of atank 2. Said tank2 is continuously supplied with hot water at proper tempera-v ture through a suitable supply pipe 3. Said tank 2 is provided with a submerged conveyer mechanism 4, running lengthwise therethrough, adapted to convey the cane stalks from the receiving end of the tank through thesame to the discharge end thereof. The speed of the conveyer mechanism 4 shall be so regulated, that the travel thereof from end to end of the tank will allow sufficient time to permit theheat of the hot water to effectively attack and melt off or remove the wax from the surfaces of the cane stalks. Spaced above the submerged conveyer mechanism 4- is an endless apron or other suitableguard mechanisu'i 5, whereby the cane stalks, as they are carried through the tank 2, are maintained submerged within or immersed beneath the surf-ace of the hot water with which thetank is filled. Preferably a suitable means for agitating the hot water content of the tank 2 should be provided, whereby the movement of the hot water against the surfaces of the cane stalks will more readily wash off the melted wax from its adhering relation to the stalks. Such means may consist of a suitable arrangement of mechanically rotated paddles or agitators 6. The conveyer mechanism 4 should be of a suitably open construction,
sothat. any clay, dirt, grit or other foreign substance of greater specific gravity than water, and which may adhere to the cane stalks, may be easily washed off by the action of the water, and then sink to the bottom of the tank, from whence it may be cleaned out in any manner found desirable. In addition to submerging the canestalks in the hot water content of the tank 2, hot water may be also directly applied to the cane stalks as a vigorous spray or wash as the canestalks are dumped from the cars 1 into the tank 2, a suitable spraying mechanism 7 being provided for this purpose. Such spray or wash will more quickly dislodge the more orless loosely clinging soil, clay, dirt or grit from the cane stalks, so that as the same become finally submerged in the water content of the tank, an immediate and direct attack of the water upon the wax films of the cane stalks can occur. The water in the tank 2 should be constantly maintained in properly heated condition, either by means of submerged steam coils, or by means of steam directly vented into such water content, so that a temperature approximating two hundred and twelve degrees Fahrenheit is attained and maintained. Arranged at the discharge end of the tank 2 should be provided a suitable elevator conveyer 8, which receiving the cane stalks from thesubmerged conveyer mechanism 4, will remove the same from the tank, and convey the same to the sugar mill apparatus, comprising the crusher rolls 9, and the train of macerating mills 10, 11 and 12. The wax liberated from the surfaces of the cane stalks while the latter are submerged in and passed through'the hot water content of the tank 2, being of less specific gravity than water, will rise to the surface, and form a film thereon. The apron or guard 5 must be of open structure to permit the wax to rise therethrough. The film of wax may be removed from the surface of the water content of the tank 2 by mechanical skimming devices, or otherwise, but I prefer to remove the same by overflowing the tank 2 into a separator mechanism in the nature of a battery of grease traps, since the overflowing water is valuable for three reasons, to wit;
' These traps 0r separators operate -Tis follows :Th e'hot water overflowing from the tank 2, bearing with it a film .of wax fioating tllereon, enters the trap 14: and gradually fills the same. The trap 14 is provided'-.with a surface outlet 14',.so that the wax accompanying the water rises to the surface ofthe trap tank, and is permitted to flow ofl arid away from the surface of the water therein through said surfacefoutlet 14'. As.,;.the' cross sectional area of the surface outlet 14 is much less than that ,of the inlet to t he trap tank 14:, the latter will continue to fill even after the surface ot'itlet begins to rent the wax. As soon as the tra tank 14 dull, the siphon outlet 14f wil operate so that the water is emptied out of the traplta hk 14 from the bottom-thereof,
- and all thebontent will pass out through the siphon outlet, exceptthe wax, that has overflowed through the surface outlet 14:;3 Since the float-trig layer or film of wax as never fully disfi zharged through the siphon outlet 14", a substantial layer of the melted wax will accumulate, and a great portion of this layer will run oil through the surface outlet 14' each'time the trap fills. The traps 15 and 16 having respectively surface outlets l5 and 16f, and siphon outlets 15 and 16", are connected in series with the trap;14, the wax will be discharged practically *free of water, and the water finally discharged through P-the siphon outlet 16 practically free from wax. Means for maintaining the water, flo wing through the traps, at a proper heat must, be provided, so that the temperature of {the water does not fall much below twohundred degrees Fahrenheit, whereby the tax is maintained in a free state of flux. The wax discharged from the traps 14', 15 and 16 may be'collected in any suitable way, and preferably finally settled in a suitable receptacle 17.
It is customary in modern sugar cane milling practice to utilize a quantity of hot water, varying from twenty-five to seventyfi-ve per cent. of the weight of the cane, in
' the form of a spray applied to the crushed cane or bagasse, as the same is conveyed from one set of maceratlng rolls to another.
This water is denominated inhibition or maceration water, and is applied to the cane or bagasse between the succession steps" of the multiple grindings to which the latter is subjected, in order to dilute the 111106 in the cells of the cane stalks as these cells are ruptured, and free the sugar which is not entirely expressed by the grinding action. My process fits in admirably with this practice, since the hot water required for this purpose, may be supplied from the discharge of the wax traps or separators,
after having served itspurpose in melting the wax from the cane stalks in the tank 2, and by means of a suitable pump 18, may
be propelled through suitable Piping 19 to valuable, in that any sugar leached out ofthe cane while in the tank 2, and brought into solution with the water discharged from the tank 2 and wax traps or, separators, will be delivered without loss to the main juice collecting tank of the factory, by reason of the use of such water as inbibition or maceration water.
From the above description it will be quite apparent, that my novel process provides a highly efiicient method of wax recovery without loss of any of the sugar content of the cane stalks, and, furthermore, that my novel process steps fit in so well with the general process of sugar extraction, that such general process itself is incidentally improved by reason of the fact, that substantially all of the surface impurities (soil, dirt, grit, etc.,) accompanying the cane stalks to the factory are firstremoved, together with the desired wax, before the cane is crushed and macerated, so that the defacating process is rendered much more rapid and absolute in cleansing the expressed juices from undesired impurities.
I claim.:
1. A process of recovering wax from sugar cane consisting in submerging the cane stalks in a tank of hot water at a temperature sufiicient to melt the wax from the surfaces of the cane stalks, agitating the hot water in the tank around the cane stalks, allowing the wax liberated from the cane stalks to collect on the surface of the water- "separating means for removing the wax from the water.
3. A process of recovering wax from sugar cane consisting of flowing hot water at .a temperature sufficient to melt the wax from the surfaces of the cane stalks through a tank, propelling cane stalks through said tank and submerged in the hot water flowing therethrough, allowing the wax liberated by the hot water to collect as a film on the surface of the hot water, overflowing said tank from its water surface level to carry off the water and the collected film of wax, delivering said overflow of water and wax to separating means for removing the wax from the water, discharging the wax freed cane stalks from said tank and conveying the same to cane crushing and macerating mills, and then delivering the hot water flowing from said separator means to said cane macerating mills.
4:. A continuous process of recovering wax from sugar cane consistin of flowing hot water at a temperature su cient to melt the wax from the surfaces of the cane stalks through a tank, delivering cane stalks into one end of said tank, propelling cane stalks through said tank and submerged in the hot water flowing therethrough, agitating the hot water in contact with said cane stalks, allowing the wax liberated by the hot water to collect as a film on the surface of the hot water, removing the cane stalks from the opposite end of said tank, overflowing said tank from its Water level surface to carry off the water and the collected film of wax, and then delivering said overflow of water and wax to separating means for removing the wax from the water.
5. A process. of recovering wax from sugar cane consisting of flowing hot water at a temperature suflicient to melt the wax from the surfaces of the cane stalks through said tank, propelling cane stalks through said tank and submerged in the hot water flowing therethrough, agitating the hot water in contact with said cane stalks, allowing the wax liberated by the hot water to collect as a film on the surface of the hot water, overflowing said tank from its water surface level to carry off the water and the collected film of wax, delivering said overflow ofwater and wax to separating means for removing the wax from the water, discharging the wax freed cane stalks from said tank and conveying the same to cane crushing and macerating mills, and then delivering the hot water flowing from said separating means to said cane macerating mills.
Intestimony that I claim the invention set forth above I have hereunto set my hand this 24th day of February, 1919.
RAYMOND U. BUNKER.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2428813A (en) * 1943-08-10 1947-10-14 Fred H Rhodes Sugar cane wax extraction
US3994743A (en) * 1965-07-01 1976-11-30 Paley Lewis A Clarification and treatment of sugar juice
US4063960A (en) * 1965-07-01 1977-12-20 Paley Lewis A Treatment of sugar cane
US20070295326A1 (en) * 2006-06-07 2007-12-27 Rafael Almagro Method for obtaining long chain aliphatic alcohols and fatty acids from sugar cane mud and related wax esters
US20110124894A1 (en) * 2009-11-25 2011-05-26 Rafael Almagro Method for obtaining long chain aliphatic alcohols and fatty acids from sugar cane mud and related wax esters
WO2020221877A1 (en) * 2019-04-30 2020-11-05 Jena Trading Aps Extracting and refining plant cuticular waxes from aqueous dispersion using temperature and ph adjustment
WO2020221878A1 (en) * 2019-04-30 2020-11-05 Jena Trading Aps Extracting and refining plant cuticular waxes from aqueous dispersion using a capturing agent

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2428813A (en) * 1943-08-10 1947-10-14 Fred H Rhodes Sugar cane wax extraction
US3994743A (en) * 1965-07-01 1976-11-30 Paley Lewis A Clarification and treatment of sugar juice
US4063960A (en) * 1965-07-01 1977-12-20 Paley Lewis A Treatment of sugar cane
US20070295326A1 (en) * 2006-06-07 2007-12-27 Rafael Almagro Method for obtaining long chain aliphatic alcohols and fatty acids from sugar cane mud and related wax esters
US20110124894A1 (en) * 2009-11-25 2011-05-26 Rafael Almagro Method for obtaining long chain aliphatic alcohols and fatty acids from sugar cane mud and related wax esters
WO2020221877A1 (en) * 2019-04-30 2020-11-05 Jena Trading Aps Extracting and refining plant cuticular waxes from aqueous dispersion using temperature and ph adjustment
WO2020221878A1 (en) * 2019-04-30 2020-11-05 Jena Trading Aps Extracting and refining plant cuticular waxes from aqueous dispersion using a capturing agent

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