US1721376A - Method of manufacturing cellulose pulp - Google Patents
Method of manufacturing cellulose pulp Download PDFInfo
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- US1721376A US1721376A US198310A US19831027A US1721376A US 1721376 A US1721376 A US 1721376A US 198310 A US198310 A US 198310A US 19831027 A US19831027 A US 19831027A US 1721376 A US1721376 A US 1721376A
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- treatment
- temperature
- centigrade
- pulp
- strength
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21C—PRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
- D21C3/00—Pulping cellulose-containing materials
- D21C3/006—Pulping cellulose-containing materials with compounds not otherwise provided for
Definitions
- This invention relates to a method of manufacturing cellulose pulp for the production of very strong snow-white paper, andhas for an object to provide for the production of fibrous material adapted for the manufacture of a paper having a strength which has heretofore been attained only in dark papers.
- Another object of the invention consists in providing certain improvements in the method whereby advantageous results are obtained.
- the method is applicable to various vegetable substances containing cellulose, including trees, cornstalks, etc., but is particularly applicable to sugar cane fiber such as bagasse.
- My method which forms the subject matter of this invention, comprehends the treatment of the material in two main steps, the first of which is carried out in a hot aqueous solution including sulphur, and the second in a hot alkaline solution.
- the first step is also preferably of a slightly acid nature.
- the method also includes a third step of separat Application filed June 11, 1927. Serial No. 198,810.
- the invention 'comprehends subjecting the bagasse or fibrous elements of sugar cane to a first treatment with hot water and sulphur at a temperature of approximately 160 to 173 centigrade, which treatment generates an acid condition resulting of thesugars into organic acids, and which acid condition is utilized for changing the incrusting substances so as to render them readily soluble in dilute'alkali as, for instance, by changing Xylan and araban into Xylose and arabinose, while the sulphur present has a whitening effect due probably to its capacity for combining with coloring matter in the bagasse to form soluble compounds; following which first treatment there is a second treatment of the material with a dilute alkali, and subsequent refining and washing.
- the bagasse 1 s suitable arrangement, into the interior of a vessel which is generally similar to the standard sulphite pulp digester.
- This vessel is preferably composed of a ferric material, such as steel or iron, lined with brick adapted to resist the alternating action of dilute acid and dilute alkali.
- This character of brick is known to the chemical industry although it differs sharply from the brick used in the standard sulphite pulp digesters in that the latter are specially designed to withstand acid action only.
- the arrangement of valves, vents and the like may differ to a certain extent from the standard arrangement of the sulphite digesters, but such changes are well within the skill of the calling and merely for the purpose of better adapting the apparatus to the specific conditions in hand.
- the amount of sulphur added will vary according to desired result, a lower percentage being. well adapted for the manufacture of a thoroughly cooked snow-white cellulose pulp of considerable strength,- and a higher ercentage being better suited for an un ercooked pulp adapted for the production of pa er having the great strength of kraft, although whlte in color.
- valves, vents, openings and the like are'then closed and steam is injected so' that the contents are heated quite rapidly up to a temperature of approximately 130 centigrade. At this point a vent is opened so as to relieve substantially all of the entrapped air. This vent is then closed, or substantially closed, so that no appreciable amount of water or steam can escape from the interior.
- the charge is allowed to remain, while the temperature is maintained, for a period of from, say, twenty minutes to three hours.
- This time period depends mainly on the condition, age, etc., of the fresh bagasse whenever possible or, at least, bagasse which has not been very long exposed to conditions leading to rotting or oxidizing.
- the process is adaptable to the use of old, baled bagasse, or wetbagasse or fermented bagasse or any other form of bagasse that may be encountered in sugar manufacture, without greatly altering the high quality of the product.
- the pressure in the vessel is relieved to a certain extent by the opening of a vent, and the acidified liquid, containing such substances as may have been dissolved, is allowed to blow from or is otherwise removed from the vessel.
- the acidified liquid, containing such substances as may have been dissolved is allowed to blow from or is otherwise removed from the vessel.
- the vessel is refilled with warm or hot water
- step I may use ordinary neutral water, but I prefer to use the slightly alkaline water which has been drawn off after the dilute alkaline treatment which constitutes a subsequent step in the process. It will be understood that, when the process is in use,,there will be numerous'batches going through, so that the silghtly alkaline water which has been drawn off after the dilute alkali treatment given to one batch, may be employed in washing or treating another batch immediately after it has had its acid treatment just described.
- This dilute alkali may consist of potassium or sodium hydroxide dissolved in water in the proportion of from say twenty to one hundred grams of sodium per litre of Water, depending on the extent of purification desired.
- the pressure in the vessel is relieved by the opening of a vent, and the charge is blown or otherwise removed therefrom into a device for separation of the fibers to produce pulp, which device may be a ball refiner or rod mill, both of which are well known to the pulp industry.
- the material may be transferred to apit or vat and therein washed, while being agitated, with hot water and thereafter with cold water until the alkalinity has been substantially eliminated. It will be understood that the water is drained off after each washing and that it carries with it the dissolved incrusting materials and the like. The greater the number of washings the cleaner will be the material, so that the extent to which this proceeding is carried out will depend greatly upon the quality of product desired. Ordinarily, I prefer to wash at least three times.
- the material may be subected to the various steps 0l'(lllltlllly em- ..ployed in the production of pulp for the manufacture of strong paper such as kraft.
- the temperature may, if desired, be maintained somewhat below. 160 centigrade, which would require somewhat longer cooking period and yet give a somewhat stronger product; but it is not advisable to exceed the upper temperature of 173 centigrade;
- bleaching treatment varying in intensity according to the amount of the lignin content of the material.
- the acid condition of the first treatment is preferably. as previously indicated, brought about by the automatic generation of acids during said treatment, but it may, if desired, be supplemented by the original addition of a small amount of acid to the contents of the vessel, or to the water before it is run into the vessel. It may also be noted that, in the case of certain materials, the first treatment may not be of an acid nature, because the said materials may not contain ingredients that generate acid when subjected to the hot aqueous sulphur first treatment. This, however, relates to a change in material and not to a difference in the steps of the method followed.
- a method of producing pulp for the manufacture of snow-white paper of great strength which includes treating cellulosecontaining material in a hot aqueous solution including free sulphur, subsequently separating the material from the said solution and treating it in a hot dilute alkaline solution, both said treatments being carried out at a temperature of approximately 160 to 173 centi rade, and then refining the material in suitable apparatus, and washing.
- Av method of producing pulp for the manufacture of snow-white paper of great strength which includes treating cellulosecontaining material in a hot aqueous solution containing free sulphur, and subsequently separating the material from the said solution and treating it in a hot alkaline solution of. insufficient strength to produce a pure alpha cellulose, the first treatment being carried out at a temperature of approximately 160 to 173 centigrade, and the second treatment at over 100 Centigrade.
- a method of producing pulp for the manufacture of snow-white paper of great strength which includes treating cellulosecontaining material in a hot aqueous solution containing free sulphur, subsequently separating the material from said solution and treating it in a hot alkaline solution of insufficient strength to produce apure alpha cellulose, the first treatment being carried out at a temperature of approximately 160 to 17 3 centigrade, and the second treatment at over 100 centigrade, and then refining in suitable apparatus, and washing.
- a method of producing pulp for the manufacture of snow-white paper of great strength which includes treating cellulosecontaining material in an aqueous solution including sulphur and of no substantial alkalinity, and subsequently separating the material from the said solution and treating it in a dilute alkaline solution, both said treatments being carried out at a temperature above 100 Centigrade.
- a method of producing pulp for the manufacture of snow-white paper of great strength which includes treating cellulosecontaining material in an aqueous solution including free sulphur, subsequently separating the material from the said solution and treating it in a dilute alkaline solution, both said treatments being carried out at a temporature above 100 centigrade, and then refining the material in suitable apparatus, and washing.
Description
Patented July 16, 1929.
UNITED STATES 1,721,376 PATENT OFFICE.
JOAQUIN JULIO DE LA ROZA, SR., OF BROOKLYN, NEW YORK, ASSIGNOR TO BAG-ASSE PRODUCTS CORPORATION, OF NEW YORKQN. Y.,
A CORPORATION OF NEW YORK.
METHOD OF MANUFACTURING CELLULOSE PULP.
No Drawing.
This invention relates to a method of manufacturing cellulose pulp for the production of very strong snow-white paper, andhas for an object to provide for the production of fibrous material adapted for the manufacture of a paper having a strength which has heretofore been attained only in dark papers.
Another object of the invention consists in providing certain improvements in the method whereby advantageous results are obtained.
The method is applicable to various vegetable substances containing cellulose, including trees, cornstalks, etc., but is particularly applicable to sugar cane fiber such as bagasse.
There has been on the market for a considerable period of time a kind of paper, commonly known as kraft, which possesses exceptional strength, but is of a dark color. This has been produced by a method that includes undercooking various woody material in a so-called sulphate process. It has been understood that, by undercooking the material in this process, the inherent strength of the fiber is preserved, and the product is characterized, as stated above, by extraordinary strength. However, the pulp obtained by this process or method has not been bleachable without sacrificing its strength. Therefore it has been found necessary to chose one or the other of the two most desired properties, to wit, strength or color.
There has been an additional disadvantage in connection with the production of this pulp because the sulphate process causes such objectionable odors to emanate from the digesters during the cooking step that it has been regarded as so obnoxious as to be permitted in but few localities.
As a result of my invention, there is obtained pulp from which is produced paper having the strength of kraft combined with a snow-white color; while the method is' conducted without the generation of obnoxious odors.
My method, which forms the subject matter of this invention, comprehends the treatment of the material in two main steps, the first of which is carried out in a hot aqueous solution including sulphur, and the second in a hot alkaline solution. The first step is also preferably of a slightly acid nature. In the preferred form of carrying it out, the method also includes a third step of separat Application filed June 11, 1927. Serial No. 198,810.
ing the fibous material .by suitable refining mechanism; and a fourth step of washing.
Broadly speaking, and assuming bagasse 1s the material to be treated, the invention 'comprehends subjecting the bagasse or fibrous elements of sugar cane to a first treatment with hot water and sulphur at a temperature of approximately 160 to 173 centigrade, which treatment generates an acid condition resulting of thesugars into organic acids, and which acid condition is utilized for changing the incrusting substances so as to render them readily soluble in dilute'alkali as, for instance, by changing Xylan and araban into Xylose and arabinose, while the sulphur present has a whitening effect due probably to its capacity for combining with coloring matter in the bagasse to form soluble compounds; following which first treatment there is a second treatment of the material with a dilute alkali, and subsequent refining and washing.
In carrying out my invention, the bagasse 1s suitable arrangement, into the interior of a vessel which is generally similar to the standard sulphite pulp digester. This vessel, however, is preferably composed of a ferric material, such as steel or iron, lined with brick adapted to resist the alternating action of dilute acid and dilute alkali. This character of brick is known to the chemical industry although it differs sharply from the brick used in the standard sulphite pulp digesters in that the latter are specially designed to withstand acid action only. The arrangement of valves, vents and the like may differ to a certain extent from the standard arrangement of the sulphite digesters, but such changes are well within the skill of the calling and merely for the purpose of better adapting the apparatus to the specific conditions in hand.
After the bagasse has been passed into this vessel, water is added. I prefer to use hot water if it can be economically obtained and, indeed, the hotter the water is the more the process will be expedited.
fter the vessel has filled with water, I add a quantity of commercially pure sulphur. This may vary from one-half percent to ten percent of the weight of the bone dry material being treated, this weight being previously deterfrom the decomposition.
conveyed, by means of blowers or other,
been substantially centigrade is -mined by a sample in the usual way.
The amount of sulphur added will vary according to desired result, a lower percentage being. well adapted for the manufacture of a thoroughly cooked snow-white cellulose pulp of considerable strength,- and a higher ercentage being better suited for an un ercooked pulp adapted for the production of pa er having the great strength of kraft, although whlte in color.
The valves, vents, openings and the like are'then closed and steam is injected so' that the contents are heated quite rapidly up to a temperature of approximately 130 centigrade. At this point a vent is opened so as to relieve substantially all of the entrapped air. This vent is then closed, or substantially closed, so that no appreciable amount of water or steam can escape from the interior.
Additional steam is then injected, although somewhat more slowly than before, until a temperature of from 160 to 173 reached.
I may say, at this point, that the matter I of temperature is one of substantial imporpressure indications bagasse. I prefer to use tance because the desired action upon the incrusting materials is not at all effective at a temperature substantially less than 160 centigrade while, at a temperature higher than approximately 173 centigrade, there is liabiht of a serious injury to the fiber, and the pro notion of so-called caramel and humic compounds. It should also be kept in mind that the temperature cannot certainly be determined from the pressure alone, because are apt to be augmented as a result of gas pressure automatically developed during process. Therefore it is important to observe the temperature requirements and to use a thermometer for directly indicating the same.
After the temperature above named has been reached, the charge is allowed to remain, while the temperature is maintained, for a period of from, say, twenty minutes to three hours. This time period depends mainly on the condition, age, etc., of the fresh bagasse whenever possible or, at least, bagasse which has not been very long exposed to conditions leading to rotting or oxidizing. However, the process is adaptable to the use of old, baled bagasse, or wetbagasse or fermented bagasse or any other form of bagasse that may be encountered in sugar manufacture, without greatly altering the high quality of the product. The limitations above named will ordinarily cover the varying characteristics of the material being treated, and it is desirable, whenever possible, to avoid a treatment of over two hours at the temperature range of 160 to 173 centigrade because, at such elevated temperature, some of the acids automatically generated will atmaasve prejudice the attainment of a fiber of the hi best quality.
his treatment at 160 to 173 centi rade automatically generates an acid con ition owing, probably, to the decomposition of cer tain sugars into organic acids and this acid bath directly dissolves some of the incrusting substances and has a hydrolytic action upon others whereby they are changed so as to be readily soluble in dilute alkali. For instance, such incrusting substances as xylan and araban are changed into xylose. and arabinose which are readily dissolved by dilute alkali. Because of this automatic generation of an acid condition, I call this first treatment an acid treatment, and it does, in fact, react acid to litmus. The sulphur present in this treatment promotes the obtaining of a white color in the product, and this probably results from its action in combining with various coloring matters to render them soluble in the first or second treatment.
After the charge has been subjected to this treatment for the determined period of time, the pressure in the vessel is relieved to a certain extent by the opening of a vent, and the acidified liquid, containing such substances as may have been dissolved, is allowed to blow from or is otherwise removed from the vessel. In preparing to carry out the remainder of the process it may sometimes be advisable to remove the bagasse from this first vessel to another one, which may be located beneath it or at its side; but,because of the likelihood of mattin the material and the expense of the step 0 removal, I prefer to carry out further treatment in the same vessel.
the vessel is refilled with warm or hot water,
and the latter then allowed to drain from the vessel for from fifteen to thirty minutes. In this step I may use ordinary neutral water, but I prefer to use the slightly alkaline water which has been drawn off after the dilute alkaline treatment which constitutes a subsequent step in the process. It will be understood that, when the process is in use,,there will be numerous'batches going through, so that the silghtly alkaline water which has been drawn off after the dilute alkali treatment given to one batch, may be employed in washing or treating another batch immediately after it has had its acid treatment just described. This procedure is of considerable practical importance because the alkaline water drawn off after the dilute alkali treatment will substantially neutralize the batch coming frerpxthe acid treatment, and thereby enable the fresh alkali solution used in the second treatment to better dissolve or transform the incrusting substances. The use of the drawn oif alkaline water in this way also eliminates the necessity of systems for recovering the alkali from the said Water, which systems are costly.
After this water is drained, or has been otherwise removed from the vessel, the drain or other outlet is closed and fresh dilute alkali is added. This dilute alkali may consist of potassium or sodium hydroxide dissolved in water in the proportion of from say twenty to one hundred grams of sodium per litre of Water, depending on the extent of purification desired.
Steam is then injected into the vessel, as in the first treatment, until a temperature of approximately 130 centigrade has been reached. At this point, a vent is opened, as before, in order to relieve the entrapped air. The injection of steam is then continued until a temperature of from 160 to 173 centigrade has been attained, and the charge is then maintained at said temperature for a period of from two and one-half to five hours or more. This period of time depends on the extent of the first treatment in the acid sulphur bath, upon the nature and condition of the material, and also upon the strength of the alkaline solution. Naturally, a more concentrated alkali will act more rapidly. However, it should be kept in mind that an increase in the alkali promotes a tendency to injury of the cellulose at an elevated temperature such as 160 to 173 centigrade; so that it is more desirable to extend the period of this treatment than to unduly increase the strength ofthe solution.
At the termination of'this period of dilute alkali treatment, the pressure in the vessel is relieved by the opening of a vent, and the charge is blown or otherwise removed therefrom into a device for separation of the fibers to produce pulp, which device may be a ball refiner or rod mill, both of which are well known to the pulp industry.
After this treatment in the refining device, the material may be transferred to apit or vat and therein washed, while being agitated, with hot water and thereafter with cold water until the alkalinity has been substantially eliminated. It will be understood that the water is drained off after each washing and that it carries with it the dissolved incrusting materials and the like. The greater the number of washings the cleaner will be the material, so that the extent to which this proceeding is carried out will depend greatly upon the quality of product desired. Ordinarily, I prefer to wash at least three times.
After washing, the material may be subected to the various steps 0l'(lllltlllly em- ..ployed in the production of pulp for the manufacture of strong paper such as kraft. In the second step, or alkaline treatment, the temperature may, if desired, be maintained somewhat below. 160 centigrade, which would require somewhat longer cooking period and yet give a somewhat stronger product; but it is not advisable to exceed the upper temperature of 173 centigrade;
In carrying out the method in connection.
bleaching treatment. varying in intensity according to the amount of the lignin content of the material.
The acid condition of the first treatment is preferably. as previously indicated, brought about by the automatic generation of acids during said treatment, but it may, if desired, be supplemented by the original addition of a small amount of acid to the contents of the vessel, or to the water before it is run into the vessel. It may also be noted that, in the case of certain materials, the first treatment may not be of an acid nature, because the said materials may not contain ingredients that generate acid when subjected to the hot aqueous sulphur first treatment. This, however, relates to a change in material and not to a difference in the steps of the method followed.
The inclusion of a uantity of sulphur, or its equivalent, in the %rst hot aqueous treatmentis a matter of prime importance in carrying out this invention because, by the use of that ingredient, I am enabled to obtain fibrous pulp which is snow-white and yet has that extraordinary strength characteristic of the paper above referred to as kraft.
It will be understood that various changes may be resorted to in the steps of the process, in the materials, and in the apparatus without departing from the spirit and scope of my invention, and hence I do not intend to be limited to the details herein set forth except as they may be included in the claims.
What I claim is:
1. A method of producing pulp for the manufacture of snow-white paper of great strength, which includes treating cellulosecontaining material in a hot aqueous solution including free sulphur, subsequently separating the material from the said solution and treating it in a hot dilute alkaline solution, both said treatments being carried out at a temperature of approximately 160 to 173 centi rade, and then refining the material in suitable apparatus, and washing.
2. Av method of producing pulp for the manufacture of snow-white paper of great strength, which includes treating cellulosecontaining material in a hot aqueous solution containing free sulphur, and subsequently separating the material from the said solution and treating it in a hot alkaline solution of. insufficient strength to produce a pure alpha cellulose, the first treatment being carried out at a temperature of approximately 160 to 173 centigrade, and the second treatment at over 100 Centigrade.
3. A method of producing pulp for the manufacture of snow-white paper of great strength, which includes treating cellulosecontaining material in a hot aqueous solution containing free sulphur, subsequently separating the material from said solution and treating it in a hot alkaline solution of insufficient strength to produce apure alpha cellulose, the first treatment being carried out at a temperature of approximately 160 to 17 3 centigrade, and the second treatment at over 100 centigrade, and then refining in suitable apparatus, and washing.
4. A method of producing pulp for the manufacture of snow-white paper of great strength, which includes treating cellulosecontaining material in an aqueous solution including sulphur and of no substantial alkalinity, and subsequently separating the material from the said solution and treating it in a dilute alkaline solution, both said treatments being carried out at a temperature above 100 Centigrade.
5. A method of producing pulp for the manufacture of snow-white paper of great strength, Which includes treating cellulosecontaining material in an aqueous solution including free sulphur, subsequently separating the material from the said solution and treating it in a dilute alkaline solution, both said treatments being carried out at a temporature above 100 centigrade, and then refining the material in suitable apparatus, and washing.
In testimony, that I claim the foregoing as my invention, I have signed my name this 10th day of June, 1927.
JOAQUIN JULIO DE LA ROZA, SENIOR.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US198310A US1721376A (en) | 1927-06-11 | 1927-06-11 | Method of manufacturing cellulose pulp |
Applications Claiming Priority (1)
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US198310A US1721376A (en) | 1927-06-11 | 1927-06-11 | Method of manufacturing cellulose pulp |
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US1721376A true US1721376A (en) | 1929-07-16 |
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US198310A Expired - Lifetime US1721376A (en) | 1927-06-11 | 1927-06-11 | Method of manufacturing cellulose pulp |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2591106A (en) * | 1947-07-24 | 1952-04-01 | Lionel M Sutherland | Process of making paper pulps |
US3051611A (en) * | 1959-11-16 | 1962-08-28 | Cubano Inst Invest | Hydrolysis of bagasse |
-
1927
- 1927-06-11 US US198310A patent/US1721376A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2591106A (en) * | 1947-07-24 | 1952-04-01 | Lionel M Sutherland | Process of making paper pulps |
US3051611A (en) * | 1959-11-16 | 1962-08-28 | Cubano Inst Invest | Hydrolysis of bagasse |
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